Read 17636 S1-5--Introduction-rev.qxd text version

INTRODUCTION We now present the 7th edition of the Black Max Operations Handbook. We hope you will find it concise, easy to read, and to use. Drilling technology today is moving at a rapid pace, both in and out of the field. New techniques are developed everyday and can be difficult to keep up with. With this in mind, we set out to gather information and procedures that are commonly used in the field today This book is produced with a two-fold purpose: a) Bridge the gap between users and supplier in order to provide greater understanding and communication. b) Provide the drilling operator and rig hands with the information necessary to ensure proper operation of Black Max products in order to achieve maximum performance. This manual covers basic procedures and instructions used in the proper operation of Black Max products. This information is provided as a guideline only and must be used with the necessary precautions. If there are any questions as to the correct and safe use of these products or the information in this manual, please contact your nearest Black Max representative. If you think there is anything that we missed (procedures, formulas, diagrams, etc.) that would help you to run our products in a more efficient manner, contact us at our head office - (780) 955-8828, and we will do our best to incorporate the information into the next edition.

I N T R O D U C T I O N

Printed in Canada June, 2002

MOTORS Descriptions Procedures Applications Formulas Fluids MUD MOTORS Specifications AIR DRILLING OPTIONAL EQUIPMENT SHOCK TOOLS & JARS Shock Tools Mechanical Jars Hydraulic / Mechanical Jars Best Hitter Rig Rattler WINDOW MILLING Mech. Bottom Trip Multi Trip Whipstocks Packer Type Whipstocks Open Hole/Cement Type Whipstocks

S1 S2 S3 S4 S5 S6 S6.1 S7 S8 S9 S9.1 S9.8 S9.10 S9.15 S9.18 S10 S10.1 S10.5 S10.8

INDEX

ACKERMAN INTERNATIONAL CORP. CANFISH SERVICES TABLES Motor Shipping Information Make-up Torque's Build Rates Piston Depth Adjustable Housing Setting Procedures Fishing Dimensions Casing Dimensions Rotary Connection Cross Reference Drill Collar Weights Annular Capacities Hole Capacity Drill Pipe Capacities Drill Pipe Properties Nozzle Flow Areas Mud Weights UNIT CONVERSIONS

S11 S12 S13 S13.1 S13.2 S13.3 S13.6 S13.7 S13.9 S13.17 S13.19 S13.20 S13.22 S13.23 S13.25 S13.26 S13.27 S13.29 S14

I N D E X

DESC

Bearing Assembly (A) Each Black Max motor comes equipped with a fully sealed, oil lubricated bearing system. Bearings are configured to accommodate high speed/low torque or low speed/high torque, without altering radial or axial loading.

Universal Joint Assembly (B) The Black Max universal joint is used to convert the eccentric motion of the motor (rotor) to a smooth concentric motion required by the bearing section. The design of sealed universal joints and a connecting rod, allows the motor to operate at high angles, yet still be able to handle high torque and speed.

Power Sections (D) Black Max power sections are made up of a lobed rotor that fits inside a elestomer lined housing (stator). The rotor has one less lobe than the stator, creating a continuously sealing chamber. Drilling fluid or gas is forced through the motor, thereby turning the rotor and generating torque. The lower the speed (large number of lobes), the more torque is provided, and vice versa. Where drilling requirements call for circulation rates exceeding maximum recommended rates, rotors are jetted to allow excessive fluid to flow down a parallel path, thereby reducing damage to the elastomer in the stator.

Adjustable Bent Housing/Fixed Housing (C) The Black Max line of adjustable housings are available in 0°-3° settings, and also includes a specialized assembly for short radius drilling. The housing is easily adjustable and allows the operator to reset angles at the rig floor, eliminating the need to change assemblies or motors. Always follow the specifications for proper torquing of the assembly. (See pg. 138-139 for proper procedures)

D E S C R I P T I O N

Dump Valve/Blank Sub (E) optional (see your dealer for more details)

1.1

This section describes basic operating procedures, which are used in the field and will facilitate proper operation of Black Max motors. Bit Selection An important aspect of any planned downhole motor run is properly matching the bit and hydraulics to the motor in order to achieve the desired results. Attention must be given to TFA (total flow area) to see that proper parameters are maintained with regard to pressure drop across bit, annular velocity needed for hole cleaning, maximum standpipe pressure, and adequate hole cleaning at the bit\formation interface. Keep in mind that stall pressure of a motor may approach pump relief valve limits in some cases. In larger hole sizes, a bored rotor may be necessary to accommodate fluid requirements mentioned above. Generally, all motor sizes have adequate torque to run any cone type bit. If a drag type PDC (polycrystalline diamond compact) bit is to be used, it should be remembered that the more aggressive PDC's may cause excessive stalling in rough, broken formations. If the purpose of the run is to build angle or otherwise achieve significant deviation, gauge length on the bit is very important. Gauge protection is necessary if the motor is bent, since continual side loading occurs at the bit. Surface Testing (& Orientation) The Black Max motor is a sealed bearing motor, so it may be safely surface tested with or without a bit attached, since bit pressure drop is not necessary to cool the bearings. It is recommended that a bit not be attached if the motor is significantly bent, and needs to be positioned in the BOP's (blow-out preventers) or below to accommodate testing of the dump valve. If the downhole motor is tested in this manner, be sure to remove the bit box thread protector before lowering the motor into the hole. When the downhole motor is equipped with a dump valve, attach the kelly and lower the ports just below the top of the bell nipple before starting the pump. Carefully observe the closing of the dump valve as the pump is eased up. After the valve is closed, ease up on the pump. Left-hand torque should be noted in the assembly. Quite a bit of vibration may be seen as flow rates increase, but is normal and no cause for concern. Before shutting the pump down, be sure that the dump valve is in position in the bell nipple. When the pump is shut down, if the pressure doesn't bleed off, open the fill-up line on the standpipe to relieve the pressure. When turning the bit box with tongs during the course of a coiled tubing operation, turn the box to the left, otherwise a back-off could occur. Pick the motor up, and attach the selected bit. If a bent housing adjustment is needed, lower the motor down the adjustable, and make the needed change according to the accompanying setting procedure (see pg. 138-140). Upon completion of the setting procedure, mark the tool face, and slowly lower the motor into the hole, keeping tool face alignment as you go. At this point, you can align and test whatever steering device is to be used, and proceed on in the hole. Please note, motors are pre-tested in water and should be properly thawed before surface testing when operating in sub-zero temperatures.

2.1

P R O C E D U R E S

Running In

We recommend running a float valve with the downhole motor, especially if a dump valve assembly is used. This keeps trash out of the ID of the string. If no dump valve is used, it (the float) will keep the motor from running backward as the pipe fills up. When this occurs; it is possible to back something off internally. If heat is a factor, it is a good idea to break circulation (depending on hole depth) once or twice as you approach bottom. Pumping should be at a slow rate and kept up long enough (calculate surface-to-bit strokes) to move some cool mud down to the motor. Slow movement of the drill string up and down during the pumping operation will keep casing wear to a minimum, and decrease the likelihood of leaving a ledge if the motor happens to be in open hole. If the motor bend is extreme, keep running speeds slow to minimize the chance of ledging. Running speeds should also be slow when dealing with high mud weights and small liners, as pressure surges might knock the bottom out at the liner shoe. Drilling Drilling with a downhole motor is monitored mainly by changes in standpipe pressure. Generally, the amount of torque created at the bit face will be reflected by an increase in standpipe pressure over the "off bottom" reading. This is Differential Pressure. Keep in mind that the maximum motor differential pressure indicated in the downhole motor specifications is the total differential recommended. It takes from 10 to 15% of that total to turn the rotor in the off bottom position. The difference is the amount that is usable with WOB (weight-on-bit). When tagging bottom for the first time, keep in mind that a new bottom pattern needs to be established, especially if a different assembly or a different bend is employed. Higher differential pressures will be noted with less bit weight if PDC (drag) bits are used. Regular diamond bits will increase standpipe pressure slightly when bottom is tagged due to the reduction in flow area around the bit face. Whether the drilling operation is sliding or rotating, we recommend keeping differential at 60-75% of the maximum motor differential noted in the specifications. ROP (rate of penetration) is a function of rpm and bit geometry and formation. Good weight transfer is normally accomplished with rotation of the drill string, and optimization of ROP can be attained with incremental changes of WOB. We recommend (for sections of hole where long rotation periods are anticipated) that bends be kept to a maximum of 1.5° (actual) and surface rotary speed be kept below 90 rpm.

P R O C E D U R E S

2.2

2.3

If heat is a factor to be considered, special precautions should be taken. If the stator is swelling due to heat then chunking of the stator material is most likely to occur. For this reason, pumps should be brought up slowly, get the rotor turning first, then bring them gradually up to normal speed. When going back on bottom, ease into it gradually to minimize the shock to the heat swollen stator, and give time to get some cool mud around it. It is also helpful to have a good clean mud system with a lubricant in it that will lower friction between the rotor and stator. As a rule, anything that helps lower friction between the drill string and the hole will also help on the inside of the motor. Stall Indication/ Reaction A motor stall is indicated when a sudden pressure increase is noted while drilling. When this occurs, it is imperative to immediately cut back on pump stroke before lifting the motor up off bottom, especially if you are in the rotating mode. This will reduce the increase in the differential pressure that was created when the stalling occurred. If the rotor is not turning, and the drill string is turning, the stator is spinning backward on the rotor, and failure will likely occur in short order. Pulling Out (Re-running) It is a good practice when pulling bent motors out of the hole to chain out or use power tongs. Be careful when pulling bent assemblies through the BOP's. When picking the motor up to break the bit off, a water hose can be tied off in the top of the motor (if a hollow lift nipple is available). Place the bit in the bit breaker, put the lead tongs on the bearing housing to hold back up, and carefully bump the rotary intermittently to the right. If the bit output shaft is locked, lay the motor down. If the bit turns freely, engage the rotary and turn the bit slowly, turn the water on, and pump water through the downhole motor until it cleans up at the bit nozzles. Break the bit off the downhole motor. If a dump valve assembly is being used, be sure to flush the assembly thoroughly until clear water flows through the ports. If a rerun is being considered, a check of the oil left in the bearings is essential and can be described as follows: At the bottom of the bearing housing, where the rotating bit box comes out, is a large snap ring. Behind this ring is a piston assembly that moves away from the snap ring as oil seepage occurs. By measuring this distance from the bearing housing shoulder to the piston, and referring to the Piston Depth Chart (Section 12.6) in this text, the advisability of re-running the motor can be determined.

P R O C E D U R E S

Black Max now supplies one of the largest range of motor sizes available. It is this variety that allows us the flexibility to participate in almost any application with maximum performance.

Performance\Straight Hole Drilling With the development of PDC bits and more powerful downhole motors, it has become cost effective to pair the two when long straight hole sections are to be drilled. PDC bits depend on rpm to make hole, and downhole motors are able to deliver the rpm to the bit with only minimum rotation of the drill string, thus saving wear and tear on both rig and drill string. Black Max offers a full line of motors that have proven themselves in very deep, hot, high mud weight, small hole applications. The savings recognized by operators due to reduced tubulars cost and savings in mud systems far outweighs the cost of conventional drilling at depth. Directional\Steerable Drilling Black Max motors offer a surface adjustable bent housing that provides directional drillers with flexibility in the planning and execution of any directional drilling project. The 3° adjustable sub allows handling of any conventional open hole KO (kick-off) or sidetracking off a cement plug or drilling on the bottom. The motors can be oriented with single shots, steering tools (magnetic or gyro) and MWD's (measurement-while-drilling). Left-hand reactive torque must be compensated for if orienting with single shots in a fluid circulating medium. If a steerable system is to be used, Black Max motors again display their versatility with the screw on stabilizer on the bearing housing. This provides one basic element of a 'steerable system', the others being a durable, long range bit, and an MWD device with steering and possibly formation evaluation capabilities. Steerable systems are invaluable to wells that have multiple targets, or complex approach paths that are the result of geological constraints. The stabilization provided is normally 1/8 to 1/4 inch less than hole gauge and can be tailored to the individual needs of the directional driller, because of the rig site interchangeable stabilizer capability.

A P P L I C A T I O N S

3.1

3.2

Horizontal / Short Radius Drilling Black Max has a range of motor sizes suited to horizontal and short radius applications in various hole sizes. Black Max motors have performed medium radius projects with build rates ranging from 10°-45°/100'. Short radius (46°-95°/100 ft.) and ultra-short radius projects (96°-128°/100 ft.) are also becoming more commonplace. For angle building purposes, the motors can be run with or without a near bit stabilizer, with a single bend, with a double bend, or with a flex joint in place of the second bend at the top of the motor. The flex joint allows limited rotation during the build section to fine tune build rate. The flex joint also relieves strain at the top of the stator housing, and facilitates going through the curve section during trips. When rotating in the lateral section we recommend a bent housing maximum setting of 1.5° (actual). This should be sufficient for minor course corrections as drilling proceeds, and is sometimes enough to accomplish an open hole sidetrack on the low side, if a short gauge bit is being used. Remedial\Workover Operations Black Max provides a wide variety of power section options and motor sizes that will accommodate almost any remedial need. Trying to rotate a small limber work string at great depth with a power swivel is a headache at best, and nearly impossible in a deviated hole. Drilling out cement and guide shoes in small liners is efficiently and cost effectively accomplished by utilizing Black Max downhole motors. The use of a Black Max Anti-Torque swivel on surface will handle the re-active torque the pipe will transmit to surface. Coiled Tubing Black Max motors have been used for years to provide a power source for coiled tubing remedial operations. Recently, Black Max Motors have been used in the industry for drilling new holes. Torque restrictions in the coiled tubing so far have limited hole size applications, but drilling rates have been impressive, using both fluid and air as a circulating medium.

A P P L I C A T I O N S

River Crossing\Utility Boring Black Max is a recognized leader in the river crossing and utility boring industry. With crossing projects being undertaken in formations with considerable compressive strength, the addition of downhole motors with high torque deliverability and built in directional capabilities was inevitable. The sealed bearing assembly protects the bearing section when solids control is less than perfect. The wide range of rotor/stator configurations have proven to be invaluable to contractors who engage in the highly specialized crossing field. In a typical crossing operation, the bit enters the ground at an angle less than horizontal, proceeds down under the object to be crossed, is brought horizontal, then back up to an exit point on the other side. The assembly is guided with a wireline steering tool, or a surface interactive sonde that can track the bit from above ground. The downhole motor is used on the pilot hole operation, with subsequent hole opening operations bringing the borehole to required diameter. Small diameter motors are being used more and more for utility boring operations in urban areas to install fiber optic cables and other utility conduits. The Black Max downhole motors have proven themselves to be cost-effective when compared to alternative horizontal boring methods. Guidance for these bores is similar to that described above.

A P P L I C A T I O N S

3.3

HorsePower

Mechanical: HP = TS 5252 PQ 1714

Where:

HP=horsepower (hp) T=torque (ft-lb) S=speed (rpm) P=pressure drop (psi) Q=flow rate (gpm) Where:

4.1

Velocity Annular: V= Jet: V= Pump: AV= 0.4085Q D2 - D2 h s 0.3209Q A

Where: V=velocity (ft/s) Q=flow rate (gpm) Dh=hole OD (in) Ds=drillstring OD (in) A=nozzle area (in2) S=pump speed (spm) AV=annular velocity, (ft/min) C=annular capacity,(gal/ft) P=pump output,(gal/stroke)

Hydraulic: HP =

Pressure

P=pressure (psi) Across Bit: Q=flow rate (gpm) Q2W P= 1085BA2 W=fluid weight (ppg) A=nozzle area (in2) Px=expected pressure drop, Expected: PyWy new mud (psi) Px= Wx TVD=total vert. depth,( ft.) Py=pressure drop, Hydrostatic: original mud (psi) P= 0,052(TVD)W Wx=original mudweight, (ppg) Wy=new mud weight, (ppg)

SP C

F 0 R M U L A S

Motor Efficency % = 32.64TS QP

Where:

P=pressure (psi) T=torque (ft-lb) Q=flow rate (gpm) S=speed (rpm)

Buoyancy BF=65.5-W 65.5

Where: BF=buoyancy factor W=mud weight (ppg)

Note: In order to calculate the correct drill collar string weight, the buoyancy factor must be taken into account. Using the table found on Section 12.29 , take the mud weight value you are using and insert it in the above formula. Multiply the resulting buoyancy factor to the weight of the string in air. This will give you the weight of the string in the mud you are using.

F 0 R M U L A S

4.2

4.3

Standard Equations: SIN 0° = 0 COS 0° = 1 SIN 90° = 1 COS 90° = 0

360° CIRCUMFERENCE = 2pR 90° CIRCUMFERENCE = 2pR/4 = pR/2 Derivation: IF BUR = 1°/100 ft. (30m) THEN 0-90° = 9000 ft. (2700m) = pR/2 R = 9000 ft. (2700m) x 2/p = 5729.58 ft. (1718.87m) TVD = 5730 ft. (1719m) (sin A2 - sin A1 )/BUR HD = 5730 ft. (1719m) (cos A1 - cos A2)/BUR (A1 = Initial Angle) (A2 = Final Angle) BUR = 5730 ft. (1719m)/R MD = Drift x 100 ft. (30m)/BUR DLS (°/100 ft.) x 0.984 = DLS (°/30m)

F 0 R M U L A S

Displacement Build Chart in Meters

0

100 90 80 70 60 50 40 deg / 30 m 30 deg / 30 m

RADIUS OF CURVATURE

0

100 90

Displacement Build Chart in Feet

100

40

80 70 60 50 40 deg / 100 ft 30 deg / 100 ft 25 deg / 100 ft 22 deg / 100 ft 20 deg / 100 ft 18 deg / 100 ft 16 deg / 100 ft

200

80

25 deg / 30 m 22 deg / 30 m 20 deg / 30 m 18 deg / 30 m 16 deg / 30 m

300 400

True Vertical Depth (meters)

120

14 deg / 30 m

14 deg / 100 ft 12 deg / 100 ft

12 deg / 30 m

True Vertical Depth (feet)

500

160

10 deg / 30 m

600

10 deg / 100 ft 9 deg / 100 ft

200

9 deg / 30 m 8 deg / 30 m

700

8 deg / 100 ft

F 0 R M U L A S

240

7 deg / 30 m

800

7 deg / 100 ft

900

6 deg / 100 ft

280

6 deg / 30 m

1000

320

5 deg / 30 m

1100 1200 0 40 80 120 160 200 240 280 320 360 0 100 200 300 400 500 600 700 800 900 1000

5 deg / 100 ft

360

1100

1200

Horizontal Displacement (meters)

Horizontal Displacement (feet)

4.4

4.5

Build Rate Formula (Approximate) D = hole diameter or bit diameter P = pad diameter T = tool diameter B = bit to bend length (including bit length) F = factor, use table (Table 4.5) 1. è = tan

-1

If no pad is present on the tool, then P=T. All dimensions are in inches and angles in degrees.

TABLE 4.5

Tool Setting

0 0.39 0.78 1.15 1.50 1.83

Factor 'F'

0 0.25 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25 2.50 2.75 3.00

D-P 2×B

2

2. R =

D-P 2

+ B

()

2

P T + D - - × 2 2

2 - 2cosF

cosF sin F - è

(

)

2.12 2.38 2.60 2.77 2.90 2.97 3.00

F 0 R M U L A S

3.

build rate /100ft. =

216,000 ðR

FLUID BYPASS CALCULATION Flow thru a jet @ Known psi TFA = Q2 x W

P x 10858

Nozzle Size = 64

TFA

F 0 R M U L A S

Q = gpm to be bypassed P = diff across DHM W = Weight in 16/gal Fluid TFA = Total FLow Area in in2

4.6

5.1

Proper selection of fluids will not only improve the drilling process but will prevent serious complications (due to friction and heat) from developing. When choosing a drilling medium, you must take into account two areas in the motor that are most susceptible to damage from drilling mud: 1) the elastomer compound in the stator 2) the bearing stack. Some muds are extremely harsh on certain rubber compounds. Many diesel based fluids can cause severe swelling in the rubber, resulting in anything from reduced power output to premature failure. Therefore, the type of medium must be chosen carefully. Oil based muds should have an aromatic content no greater than 2%. The following fluids have been run with great success and are recommended for use with the Black Max motor: -any water based mud -any oil based mud (with an aniline point above 200° F) -air* -nitrogen* -brine solutions *(provided plenty of lubrication is used ie. soap, mist, graphite, etc.) Any additive to be used, should also be carefully considered, in terms of it's affect on the elastomer compound before being used. eg. Highly Saturated Nitrile (HSN) is more suited for oil based fluids. Another important factor to is mud weight. As a rule, heavier mud weights create more wear on the motors. Combined with high sand content, this could be extremely detrimental to the motor. Generally, when using heavier muds, ie. 12 lb +, extreme care should be taken to keep sand content as low as possible to prevent washing in the motor. Sand content should not be greater than 1/2% going in. Contact a Black Max representative for more information. Temperature is also a factor in performance. In the case of hot hole applications, Black Max will supply specialized power sections. DO NOT attempt to use these in areas of lower temperature. These stators have a loose fit designed to incorporate swelling or specialty elastomers (eg. HSN). If used in lower temperatures, it will only provide a small percentage of power specified. F

F L U I D S

FLUID TYPE ACE- khg/DAR Can-Oil CUTTER D DIESEL DISTILLATE 822 HT40N (Mineral Oil) INVERMULE Keg River Crude

ELASTOMER RECOMMENDATIONS Both Standard Nitrile and HSN elastomer are suitable for use in this fluid. At higher temperatures, nitrile may have a tendency to chunk. HSN is most suitable for use with Can-Oil. Standard nitrile can be used but an oversize stator is recommended to compensate for volume swell. Standard Nitrile is not suitable for use with Cutter D, due to high volume swell.HSN should work well to 250 F, provided proper fit is maintained. Standard Nitrile is not suitable for use with diesel, due to high volume swell.Oversize stators of HSN elastomer are well suited to diesel. Due to the high volume swell nitrile is not recommended for this fluid. HSN should work well and is recommended. HSN is suitable for use in Invermule. Standard Nitrile is not suitable for Invermule mud. Standard nitrile is recommended for use up to 250 F. HSN is recommended for temperatures above 150 F. Due to the high shrinkage rate, a standard size stator is recommended for use up to 250 F. At lower temperatures a high RPM drop is inevitable. Even with HSN, lower service life should be anticipated. HSN is suitable for use in Invermule. Standard Nitrile is not suitable for Invermule mud. Both standard nitrile and HSN are suitable for use with this mud. However, oversize stators are recommended to compensate for volume swell. A special stator is required for temperatures above 200°F.

F L U I D S

5.2

LIGN0-SULPHONATE MENTOR 26 MSP-11 MUDZYME NITROGEN PETROFREE POTASSIUM SILICATE U-DIESEL ULTRA-STIM C732 WEYBURN NATIVE CRUDE

Both Nitrile and HSN are suitable for use in Lignosulphonite. An oversize stator is recommended for Nitrile. Both Nitrile and HSN are suitable for use in Mentor 26, up to temperatures of 350 F. An oversize stator is recommended for thermal expansion. Because of volume swell, HSN is not recommended for high temperatures. Standard nitrile is recommended for this fluid for all temperatures within its normal working range. Both Nitrile and HSN are suitable for use in Mudzyme. An oversize stator is recommended for Nitrile at 250 F. Both Nitrile and HSN are suitable for drilling with Nitrogen with the addition of DA-001 as a lubricant. For temperatures to 150 F, Nitrile is suitable.For temperatures between 150 and 250 F, standard size stator with HSN can be used. Life of stator will be less, due to heat build up caused by stiffening elastomer. Below 150°F, both standard nitrile and HSN should work well, although mud caking is a concern. Operation between 150°F and 250°F may be a problem due to separation of liquid and severe caking in the stator. Operation at or close to 250°F is not recommended due to high swell and caking. Standard Nitrile is not suitable for U-Diesel mud due to brittleness. HSN should work well in the mud. Ultra-Stim C732 attacks elastomer very drastically. Neither standard nitrile or HSN are suitable for use.' HSN should work well in this mud. Standard nitrile is very badly attacked by Weyburn Native Crude and is not suitable

5.3

F L U I D S

SPECIFICATIONS

The following sections show specifications recommended for the proper operation of Black Max motors. The performance graphs that accompany the specifications show maximum differential working (on/off bottom) pressure, torque, rpm, and horsepower as follows: Maximum Pressure Differential: This is the maximum designed pressure dropped across the illustrated power section. It is indicated on the graph as 'MAX. DIFF.'. In this case, the pressure differential is 600 psi. For optimum performance and life, this pressure should not be exceeded.

SPEED rpm

Horsepower: To determine the horsepower you must know the rpm and the torque at which you are running.

hp =

320 280

rpm × torque 5252

=

133 × 1600 ft lb 5252

MAX DIFF.

= 40.5

2,400 2,100 1,800 TORQUE ft lb 1,500 1,200 900 600

M U D M O T O R S

rpm - 250 gpm

Working Pressure: Due to losses from friction, turbulence, and pressure, the Working Pressure will be less than the Maximum Pressure Differential: To determine the working pressure at 175 gpm, find the line marked 'rpm175 gpm'. There is 75 psi indicated on the graph as 'Press. Loss'. This is the pressure loss through the motor at 175 gpm with no load on the bit. Therefore, Effective Pressure = 600 psi - 75 psi = 525 psi It is offset to the left of the 'MAX. DIFF.' line by an amount equal to the pressure loss (75 psi). Reading this line across the graph to the right will give you a Torque reading. For this example, torque is 1600 ft-lb. Rpm: To read rpm, find the line labeled 'rpm-175 gpm', and follow it to where it intersects the line labeled 'MAX. DIFF.'. Reading across the graph to the left, the rpm is 133 rpm.

240 200 160 120 80 40

{

PRESS LOSS

{

PRESS LOSS

QU E

{

PRESS LOSS

rpm - 175 gpm

rpm - 100 gpm

TO R

300

1 11/16"

100

PRESSURE DIFFERENTIAL psi

200

300

400

500

600

700

800

6.1

1 11/16"

1 11/16" 1 11/16" 1-2, 3 Stage

rpm - 35 gpm MAX DIFF.

6.2

2,000 1,750 1,500

40 35 30

1500 psi 450 psi 86" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,103 kPa 2,184 mm

For more information on our products see our Web site http://www.nql.com

SPEED rpm

1,250 1,000 750

rpm - 25 gpm

25 20 15

rpm - 15 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

22" AW-ROD dynamic=2,500 lb static=6,000 lb dynamic=2,500 lb static=6,000 lb 6,000 lb 28,000 lb

559 1,110 daN 2,670 daN 1,110 daN 2,670 daN 2,670 daN 12,455 daN

TO

R

500 250

10 5

M U D M O T O R S

Q

U

E

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

150

255

Speed

(rpm)

300

375

Torque

(ft-lb)

450

525

57 95 132

15 25 35

534-797

976-1,238

1,492-1,756

25 25 25

600

75

hp

2.5 4.6 7.1

1 11/16" 1 11/16" 5-6, 3 Stage

1,000 875 750 80 70 60

rpm - 45 gpm

Max Pressure 1500 psi Drop 450 psi 96" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 3,103 kPa 2,438 mm

Max Pressure 1500 psi Drop 750 psi 130" Max Diff. Pressure 0/A Length

10,342 kPa 5,171 kPa 3,302 mm

800 700 600

PERFORMANCE 1 11/16" 1 11/16" 5-6, 5 Stage

rpm - 45 gpm

160 140

rpm - 35 gpm

SPEED rpm

SPEED rpm

625

MAX DIFF.

50

rpm - 30 gpm

500 375

40 30 20 10

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

500

rpm - 25 gpm MAX DIFF.

100 80 60 40 20

TORQUE ft lb

120

M U D M O T O R S

22" AW-ROD dynamic=2,500 lb static=6,000 lb dynamic=2,500 lb static=6,000 lb 6,000 lb 28,000 lb

559 1,110 daN 2,670 daN 1,110 daN 2,670 daN 2,670 daN 12,455 daN

400 300

R TO

QU

125

E

TO R

100

150

255

300

375

450

525

600

75

Q

U

250 rpm - 15 gpm

200

E

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 1.2 3.4 5.1

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

Torque

(ft-lb)

600

700

57 114 170

15 30 45

100-212 310-430 540-645

62 57 50

95 132 170

25 35 45

130-400 300-575 450-720

125 120 116

1 11/16"

800

hp 3.1 6.8 9.9

6.3

2 1/16"

2 1/16" 2 1/16" 1-2, 2 Stage

MAX DIFF.

6.4

1,600 1,400

rpm - 45 gpm

40 35 30

1500 psi 300 psi 105" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 2,068 kPa 2,667 mm

1,200

For more information on our products see our Web site http://www.nql.com

SPEED rpm

1,000 800 600

rpm - 35 gpm

25 20 15

rpm - 25 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

29" AW-ROD dynamic=8,375 lb static=5,800 lb dynamic=3,350 lb static=2,300 lb 2,300 lb 33,500 lb

737 mm 3,725 daN 2,580 daN 1,490 daN 1,025 daN 1,025 daN 14,900 daN

TO R

QU

400 200

10 5

M U D M O T O R S

E

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

100

150

Speed

(rpm)

200

250

Torque

(ft-lb)

300

350

95 132 170

25 35 45

575-683 852-960

1,111-1,219

25 25 25

400

50

hp 2.7 4.1 5.3

Hot Hole 2 1/16" 2 1/16" 4-5, 1 Stage

400

MAX DIFF.

350

rpm - 50 gpm

70 60

155 psi 82" TORQUE ft lb

Max Diff. Pressure 0/A Length

1,069 kPa 2,083 mm

300 psi 110"

Max Diff. Pressure 0/A Length

2,068 kPa 2,794 mm SPEED rpm

MAX DIFF.

80

1500 psi

Max Pressure Drop

10,342 kPa

1500 psi

Max Pressure Drop

10,342 kPa

2 1/16" 2 1/16" 4-5, 2 Stage

400 350

rpm - 50 gpm

160 140 120

300

300 250 200 150 100

TO R

SPEED rpm

rpm - 35 gpm

TORQUE ft lb

250 200 150 100

rpm - 35 gpm

M U D M O T O R S

50 40 30 20

100 80

rpm - 20 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

29" AW-ROD dynamic=8,375 lb static=5,800 lb dynamic=3,350 lb static=2,300 lb 2,300 lb 33,500 lb

737 mm 3,725 daN 2,580 daN 1,490 daN 1,025 daN 1,025 daN 14,900 daN

rpm - 20 gpm

E

60 40 20

QU

TO R

50

10

50

QU

E

100

125

150

175

200

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 0.9 1.5 2.0

Absolute Overpull

Volume

(lpm) (gpm)

100

150

Speed

(rpm)

200

250

Torque

(ft-lb)

300

350

76 132 189

20 35 50

92-118 187-213 277-303

52 43 39

76 132 189

20 35 50

100-123 190-213 285-308

110 108 98

2 1/16"

400

25

50

75

50

hp 2.2 3.9 5.3

6.5

2 3/8"

2 3/8" 2 3/8" 1-2, 7 Stage

1,600

rpm - 50 gpm

6.6

2 3/8" 2 3/8" 2-3, 4 Stage

1000

rpm - 65 gpm

120 105 90

rpm - 35 gpm

Max Pressure 1500 psi Drop 880 psi 171" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 6,067 kPa 4,343 mm

Max Pressure 1500 psi Drop 554 psi 144" Max Diff. Pressure 0/A Length

10,342 kPa 3,820 kPa 3,658 mm SPEED rpm

120 105 90

rpm - 45 gpm

1,400 1,200

875 750 625

SPEED rpm

MAX DIFF.

800 600 400 200

rpm - 20 gpm

60 45 30 15

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

35" BW-ROD dynamic=8,800 lb static=6,650 lb dynamic=3,525 lb static=2,650 lb 2,650 lb 40,500 lb

889 mm 3,915 daN 2,960 daN 1,570 daN 1,180 daN 1,180 daN

500

rpm - 20 gpm

UE

60

MAX DIFF.

TORQUE ft lb

1,000

75

75

375 250 125

45 30 15

TO R

TO

RQ

M U D M O T O R S

QU

E

1,050

1,200

150

300

450

600

750

900

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm) 400-549 815-963

1,215-1,363

Torque

(ft-lb)

hp 6.5 13.2 19.6

Volume

150

225

Speed

(rpm)

300

375

Torque

(ft-lb)

450

525

76 132 189

20 35 50

85 85 85

18,015 daN

(lpm)

(gpm)

76 170 246

20 45 65

168 - 287 534 - 634 814 - 912

95 93 91

600

75

hp 3.0 9.5 14.1

LOW FLOW 2 3/8" 2 3/8" 4-5, 3 Stage

320

MAX DIFF.

1500 psi

200 175 150

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 2,958 kPa 2,896 mm

1500 psi 372 psi 113"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa

600

2 3/8" 2 3/8" 5-6, 2.5 Stage

MAX DIFF.

200 175 150

280

rpm - 25 gpm

429 psi 114"

2,565 kPa

525

240

2,870 mm SPEED rpm

450 375 300 225 150 75

rpm - 20 gpm

U E

SPEED rpm

M U D

TORQUE ft lb

TORQUE ft lb

200 160 120 80 40

R TO QU E

125

rpm - 15 gpm

100 75 50 25

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

rpm - 50 gpm rpm - 35 gpm

125 100 75 50 25

35" BW-ROD dynamic=8,800 lb static=6,650 lb dynamic=3,525 lb static=2,650 lb 2,650 lb 40,500 lb

889 mm 3,915 daN 2,960 daN 1,570 daN 1,180 daN 1,180 daN 18,015 daN

rpm -10 gpm

150

225

300

375

450

525

600

75

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 1.5 2.4 4.1

Absolute Overpull

Volume

(lpm) (gpm)

150

225

Speed

(rpm)

300

375

Torque

(ft-lb)

450

525

38 57 95

10 15 25

79-99 129-149 227-247

97 96 95

76 132 189

20 35 50

96-138 201-243 303-345

115 100 90

2 3/8"

600

75

M O T O R S

TO

R

Q

hp 2.1 3.8 5.2

6.7

2 7/8"

2 7/8" 2 7/8" 1-2, 5.2 Stage

1,000

MAX DIFF.

6.8

2 7/8" 2 7/8" 2-3, 7 Stage

1,000 875 750 625

rpm -70 gpm

240 210 180

Max Pressure 1500 psi Drop 650 psi 185" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 4,482 kPa 4,699 mm

Max Pressure 1500 psi Drop 970 psi 158" Max Diff. Pressure 0/A Length

10,342 kPa 6,688 kPa 4,013 mm SPEED rpm

240 210 180

875 750

rpm - 70 gpm

rpm - 55 gpm

SPEED rpm

rpm - 45 gpm

500 375 250 125

rpm - 20 gpm

Q U E

120 90 60 30

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

40" 2 3/8 Reg., N-Rod dynamic=13,650 lb static=10,750 lb dynamic=5,450 lb static=4,300 lb 4,300 lb 62,000 lb

1,016 mm 6,070 daN 4,780 daN 2,425 daN 1,915 daN 1,915 daN

500 375

rpm - 40 gpm

120 90

TORQUE ft lb

625

150

150

TO

R

125

TO

RQ

UE

MAX DIFF.

250

60 30

M U D M O T O R S

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 4.2 12.4 20.8

Volume

Speed

(rpm)

Torque

(ft-lb)

76 170 265

20 45 70

145-220 425-570 715-780

153 153 153

27,580 daN

(lpm)

(gpm)

151 208 265

40 55 70

369 - 495 539 - 668 719 - 845

182 182 180

1,000

100

200

300

400

500

600

700

800

125

250

375

500

625

750

875

hp 12.7 18.6 24.6

LOW FLOW 2 7/8" 2 7/8" 3-4, 4 Stage

400 350 300

rpm - 40 gpm

1500 psi

200

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,778 kPa 3,073 mm

1500 psi 517 psi 123"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa

600

2 7/8" 2 7/8" 5-6, 3.3 Stage

320 280

rpm - 80 gpm

548 psi

175 150

3,565 kPa 3,124 mm SPEED rpm

525 450 375 300 225 150 75

rpm - 50 gpm

E QU

121"

240

M U D

TORQUE ft lb

SPEED rpm

TORQUE ft lb

250 200 150

rpm - 25 gpm MAX DIFF.

125 100 75 50 25

200 160

MAX DIFF.

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

40" 2 3/8 Reg., N-Rod dynamic=13,650 lb static=10,750 lb dynamic=5,450 lb static=4,300 lb 4,300 lb 62,000 lb

1,016 mm 6,070 daN 4,780 daN 2,425 daN 1,915 daN 1,915 daN 27,580 daN

TO

TO R

RQ

UE

120 80 40

100 rpm - 10 gpm 50

rpm - 20 gpm

150

225

300

375

450

525

600

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 1.4 4.7 7.8

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

Torque

(ft-lb)

600

700

38 95 151

10 25 40

50-75 172-197 290-320

143 142 141

76 189 303

20 50 80

65-105 225-265 377-417

190 183 167

2 7/8"

800

75

M O T O R S

hp 2.4 7.8 12.0

6.9

2 7/8"

2 7/8" 2 7/8" 7-8, 2.5 Stage

600 525 450

rpm - 110

6.10

600 525 450

1500 psi 490 psi 115" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,378 kPa 2,921 mm

For more information on our products see our Web site http://www.nql.com

SPEED rpm

375 300 225

rpm - 90 gpm rpm - 70 gpm

375 300 225

MAX DIFF.

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

40" 2 3/8 Reg., N-Rod dynamic=13,650 lb static=10,750 lb dynamic=5,450 lb static=4,300 lb 4,300 lb 62,000 lb

1,016 mm 6,070 daN 4,780 daN 2,425 daN 1,915 daN 1,915 daN 27,580 daN

75

TO

RQ

UE

150

150 75

M U D M O T O R S

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

Torque

(ft-lb)

600

700

265 341 416

70 90 110

198-257 256-335 378-423

250 215 180

800

hp 9.4 11.3 12.9

PERFORMANCE 3 1/8" 3 1/8" 7-8, 3 Stage

MAX DIFF.

320 280 240

rpm - 140

1,200 1,050 900

1500 psi 600 psi 156" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 4,137 kPa 3,962 mm

1500 psi 750 psi 124"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 5,171 kPa 3,150 mm SPEED rpm

3 1/8" 3 1/8" 7-8, 4 Stage

600 525 450 375 300 225

MAX DIFF.

U

600 525

rpm - 110 rpm - 90 gpm rpm - 70 gpm

450

SPEED rpm

TORQUE ft lb

200 160 120 80

rpm - 110 rpm - 80 gpm

M U D M O T O R S

750 600 450 300

375 300 225

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

32" 2 3/8 Reg. dynamic=12,000 lb static=36,000 lb dynamic=12,000 lb static=36,000 lb 36,000 lb 68,000 lb

813 mm 5,340 daN 16,015 daN 5,340 daN 16,015 daN 16,015 daN 30,250 daN

150 75

TO

E

QU

R

Q

E

150 75

TO R

40

150

800

700

600

500

400

300

200

100

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 13.8 18.1 19.3

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

Torque

(ft-lb)

600

700

303 416 530

80 110 140

122-141 170-189 230-249

665 560 440

265 341 416

70 90 110

198-250 276-328 348-400

422 395 355

3 1/8"

800

hp 15.9 20.8 23.5

6.11

3 3/8"

3 3/8" 3 3/8" 1-2, 5 Stage

1,200 1,050

rpm - 180

6.12

3 3/8" 3 3/8" 4-5, 5 Stage

400 350 300 250

rpm - 75 gpm MAX DIFF.

400 350 300

rpm - 150 rpm - 120

Max Pressure 1500 psi Drop 750 psi 259" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 5,171 kPa 6,579 mm

Max Pressure 1500 psi Drop 675 psi 194" Max Diff. Pressure 0/A Length

10,342 kPa 4,654 kPa 4,928 mm SPEED rpm

rpm - 120 gpm

600 525 450

900

SPEED rpm

600 450

MAX DIFF.

QU

200 150 100 50

Bit to Bend Length Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

51" dynamic=26,525 lb static=73,325 lb dynamic=13,250 lb static=36,650 lb 36,650 lb 95,000 lb

1,295 mm 11,800 daN 32,615 daN 5,895 daN 16,300 daN 16,300 daN

200 150 100 50

rpm - 30 gpm

UE

300 225 150 75

TORQUE ft lb

750

250

375

Bottom Connection 2 3/8 Reg., 2 7/8 Reg.

300 150

TO R

M U D M O T O R S

E

TO

RQ

1,000

125

250

375

500

625

750

875

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 29.6 38.8 47.7

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

Torque

(ft-lb)

600

700

454 568 681

120 150 180

490-640 636-786 783-933

320 320 320

42,255 daN

(lpm)

(gpm)

114 284 454

30 75 120

66-86 206-226 346-366

435 430 415

800

hp 5.5 16.9 27.4

3 3/8" 3 3/8" 7-8, 3 Stage

1500 psi

200 175 150

rpm - 90 gpm rpm - 120 gpm

1,050 900

562 psi 194"

3,875 kPa 4,928 kPa

642 psi 133"

4,426 kPa 3,378 mm SPEED rpm

MAX DIFF.

1,200

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa

1500 psi

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa

400 350

3 3/8" 3 3/8" 9-10, 3 Stage

800 700 600

rpm - 120 gpm

300 250 200

rpm - 60 gpm rpm - 90 gpm

SPEED rpm

M U D

TORQUE ft lb

TORQUE ft lb

125 100 75

UE RQ TO

MAX DIFF. rpm - 60 gpm

750 600 450 300 150

500 400 300 200

Bit to Bend Length Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

51" dynamic=26,525 lb static=73,325 lb dynamic=13,250 lb static=36,650 lb 36,650 lb 95,000 lb

1,295 mm 11,800 daN 32,615 daN 5,895 daN 16,300 daN 16,300 daN 42,255 daN

Bottom Connection 2 3/8 Reg., 2 7/8 Reg.

150 100

Q U E TO

50 25

50

100

150

225

300

375

450

525

600

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 10.8 15.1 16.3

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

Torque

(ft-lb)

600

700

227 341 454

60 90 120

74-95 120-143 159-180

764 660 540

227 341 454

60 90 120

125-159 203-234 283-317

475 420 345

3 3/8"

800

75

M O T O R S

R

hp 11.3 16.2 18.6

6.13

3 3/4"

3 3/4" 3 3/8" 4-5, 5 Stage

MAX DIFF.

6.14

3 3/4" 3 3/8" 7-8, 3 Stage

600 525 450

800 700 600

Max Pressure 1500 psi Drop 675 psi 187" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 4,654 kPa 4,750 mm

Max Pressure 1500 psi Drop 562 psi 187" Max Diff. Pressure 0/A Length

10,342 kPa 3,875 kPa 4,750 mm SPEED rpm

200 175 150 125 100 75 50 25

rpm - 120 gpm

1,200 1,050

SPEED rpm

375 300

rpm - 120 gpm

rpm - 90 gpm

900

500

R TO E QU

400 300 200 100

rpm - 75 gpm

225 150 75

rpm - 30 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

rpm - 60 gpm

38" 2 7/8 Reg. dynamic=20,575 lb static=67,500 lb dynamic=20,575 lb static=67,500 lb 67,500 lb 150,000 lb

965 MM 9,150 daN 30,025 daN 9,150 daN 30,025 daN 30,025 daN

600

MAX DIFF.

TORQUE ft lb

750

450 300 150

TO

RQ

UE

M U D M O T O R S

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 5.5 16.9 27.4

Volume

150

225

Speed

(rpm)

300

375

Torque

(ft-lb)

450

525

114 284 454

30 75 120

66-86 206-226 346-366

435 430 415

66,720 daN

(lpm)

(gpm)

227 341 454

60 90 120

74-95 120-143 159-180

764 660 540

600

75

hp 10.8 15.1 16.3

3 3/4" 3 3/8" 9-10, 2 Stage

400 350

rpm - 120 gpm

400 350 300

1500 psi 440 psi 108" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,034 kPa 2,743 mm

1500 psi 642 psi 120"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa

400

3 3/4" 3 3/8" 9-10, 3 Stage

800

MAX DIFF.

4,413 kPa 3,048 mm SPEED rpm

350

rpm - 120

700 600

300

300 250 200

rpm - 60 gpm rpm - 90 gpm

SPEED rpm

M U D

TORQUE ft lb

250 200

rpm - 90 gpm

250 200

500 400 300

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

38" 2 7/8 Reg. dynamic=20,575 lb static=67,500 lb dynamic=20,575 lb static=67,500 lb 67,500 lb 150,000 lb

965 MM 9,150 daN 30,025 daN 9,150 daN 30,025 daN 30,025 daN 66,720 daN

rpm - 60 gpm

150

MAX DIFF.

150

E

150

UE

100

TO R

100 50

QU

100

TO

200 100

50

50

150

225

300

375

450

525

600

75

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 7.5 10.0 10.1

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

Torque

(ft-lb)

600

700

227 341 454

60 90 120

125-159 207-239 287-317

310 260 185

227 341 454

60 90 120

125-159 203-234 283-317

475 420 345

3 3/4"

800

M O T O R S

RQ

hp 11.3 16.2 18.6

6.15

3 3/4"

3 3/4" 3 3/4" 4-5, 3.5 Stage

400 350 300 800 700 600

rpm - 160 gpm rpm - 130 gpm MAX DIFF. rpm - 100 gpm

6.16

3 3/4" 3 3/4" 7-8, 2.3 Stage

160 140 120

rpm - 160 gpm rpm - 130 gpm rpm - 100 gpm

Max Pressure 1500 psi Drop 497 psi 204" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 3,427 kPa 5,182 mm

Max Pressure 1500 psi Drop 428 psi 204" Max Diff. Pressure 0/A Length

10,342 kPa 2,951 kPa SPEED rpm 5,182 mm

1,600 1,400 1,200

SPEED rpm

200 150 100 50

400 300 200 100

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

80 60

800 600

MAX DIFF.

TORQUE ft lb

250

500

100

1,000

38" 2 7/8 Reg. dynamic=20,575 lb static=67,500 lb dynamic=20,575 lb static=67,500 lb 67,500 lb 150,000 lb

965 MM 9,150 daN 30,025 daN 9,150 daN 30,025 daN 30,025 daN

E

QU

TO R

QU

E

40 20

400 200

TO R

M U D M O T O R S

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 14.8 19.7 24.3

Volume

150

225

Speed

(rpm)

300

375

Torque

(ft-lb)

450

525

379 492 606

100 130 160

114-146 159-191 204-236

680 650 625

66,720 daN

(lpm)

(gpm)

379 492 606

100 130 160

60-76 83-98 106-121

1,125 950 725

600

75

hp 12.9 15.0 14.6

PERFORMANCE 4 1/8" 3 7/8" 6-7, 3 Stage

200 175 150

rpm - 200 gpm

1,600 1,400 1,200

1500 psi 580 psi 187" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 4,000 kPa 4,750 mm

1500 psi 420 psi 187"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 2,896 kPa 4,750 mm SPEED rpm

PERFORMANCE 4 1/8" 3 7/8" 7-8, 2 Stage

120 105 90 75 60 45

MAX DIFF.

QU

2,000 1,750

rpm - 160 gpm rpm - 130 gpm rpm - 100 gpm

1,500

SPEED rpm

M U D

TORQUE ft lb

125 100 75 50 25

rpm - 140 gpm

1,000 800

1,250 1,000 750 500 250

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

49" 2 7/8 Reg. dynamic=34,000 lb static=123,000 lb dynamic=17,000 lb static=61,500 lb 61,500 lb 150,000 lb

1,245 mm 15,130 daN 54,750 daN 7,565 daN 27,375 daN 27,375 daN 66,765 daN

rpm - 80 gpm

E

600

MAX DIFF.

TO R

QU

200

15

100

200

300

400

500

600

700

800

TO R

E

400

30

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 16 22 26

Absolute Overpull

Volume

(lpm) (gpm)

150

225

Speed

(rpm)

300

375

Torque

(ft-lb)

450

525

303 530 757

80 140 200

51-65 96-110 146-160

1250 1060 850

379 492 606

100 130 160

45-55 63-73 78-90

1,550 1,325 1,050

4 1/8"

600

75

M O T O R S

hp 13.3 15.9 15.6

6.17

4 3/4"

4 3/4" 4 3/4" 1-2, 3 Stage

600

MAX DIFF.

6.18

4 3/4" 4 3/4" 4-5, 3.5 Stage

1,200 1,050 900

Max Pressure 1500 psi Drop 380 psi 225" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 2,620 kPa 5,715 mm

Max Pressure 1500 psi Drop 490 psi 204" Max Diff. Pressure 0/A Length

10,342 kPa 3,378 kPa 5,182 mm

320 280 240

rpm - 250 gpm

1,200 1,050 900

525

rpm - 200 gpm

450

SPEED rpm

rpm - 150 gpm

SPEED rpm

375 300 225 150

750 600

rpm - 175 gpm

rpm - 100 gpm

UE

300 150

Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

3 1/2 Reg. dynamic=75,400 lb static=60,175 lb dynamic=25,125 lb static=20,050 lb 20,050 lb 143,000 lb 30,815 daN 81,045 daN 16,700 daN 56,045 daN 56,045 daN

RQ

TO

TO R

75

40

QU

E

80

MAX DIFF.

450

Bit to Bend Length

52"

1,829 mm

160 120 rpm - 100 gpm

600 450 300 150

TORQUE ft lb

200

750

M U D M O T O R S

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 14.4 24.2 33.7

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 11.7 25.1 36.9

379 568 757

100 150 200

172-220 289-337 402-450

440 440 440

63,605 daN

(lpm)

(gpm)

379 662 946

100 175 250

60-91 132-164 204-236

1,020 1,000 950

4 3/4 5" 5-6, 2 Stage

MAX DIFF.

320 280 240

rpm - 250 gpm

1,200 1,050 900

1500 psi 300 psi 153" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 2,068 kPa 3,886 mm

1500 psi 400 psi 204"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 2,758 kPa 5,182 mm SPEED rpm

4 3/4" 4 3/4" 7-8, 2.2 Stage

160 140 120 100 80 60 40 20

rpm - 250 gpm rpm - 175 gpm rpm - 250 gpm

2,000 1,750 1,500

SPEED rpm

TORQUE ft lb

200 160 120

rpm - 100 gpm

QU E

750

rpm - 175 gpm

M U D M O T O R S

1,250

MAX DIFF.

600 450 300

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

52" 3 1/2 Reg. dynamic=75,400 lb static=60,175 lb dynamic=25,125 lb static=20,050 lb 20,050 lb 143,000 lb

1,829 mm 30,815 daN 81,045 daN 16,700 daN 56,045 daN 56,045 daN 63,605 daN

1,000 750 500 250

TO R

40

150

100

150

200

250

300

350

400

50

TO R

QU

80

E

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 13.1 22.9 30.1

Absolute Overpull

Volume

(lpm) (gpm)

150

225

Speed

(rpm)

300

375

450

Torque

(ft-lb)

525

600

75

hp 14.2 24.9 26.7

379 662 946

100 175 250

81-85 146-151 211-216

850 825 750

379 662 946

100 175 250

45-53 90-98 122-130

1,660 1,450 1,150

4 3/4"

6.19

5"

5" S3 4 3/4" 1-2, 3 Stage

600

MAX DIFF.

6.20

5" S3 4 3/4" 4-5, 3.5 Stage

320 280 240 200

rpm - 250 gpm

1,200 1,050 900

Max Pressure 1500 psi Drop 380 psi 233" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 2,620 kPa 5,918 mm

Max Pressure 1500 psi Drop 490 psi 212" Max Diff. Pressure 0/A Length

10,342 kPa 3,378 kPa 5,385 mm SPEED rpm

1,200 1,050 900 750

MAX DIFF.

525 450

rpm - 200 gpm

SPEED rpm

375 300 225 150

rpm - 150 gpm

750 600

rpm - 175 gpm

rpm - 100 gpm

450 300

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

65" 3 1/2 Reg. dynamic=79,625 lb static=224,950 lb dynamic=34,625 lb static=91,100 lb 91,100 lb 210,000 lb

1,651 mm 35,415 daN 100,060 daN 15,400 daN 40,520 daN 40,520 daN

160 120 rpm - 100 gpm

QU E

600 450 300 150

Q

U

80

TO R

TO

75

150

40

M U D M O T O R S

R

E

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 14.4 24.2 33.7

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 11.7 25.1 36.9

379 568 757

100 150 200

172-220 289-337 402-450

440 440 440

93,410 daN

(lpm)

(gpm)

379 662 946

100 175 250

60-91 132-164 204-236

1,020 1,000 950

PERFORMANCE 5" S3 4 3/4" 4-5, 6.3 Stage

MAX DIFF.

320 280 240

rpm - 250 gpm

3,200 2,800 2,400

1500 psi 887 psi 298" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 6,116 kPa 7,569 mm

1500 psi 400 psi 214"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa

160

5" S3 4 3/4" 7-8, 2.2 Stage

2,000

rpm - 250 gpm

2,758 kPa 5,436 mm SPEED rpm

140 120 100 80 60

1,750 1,500

SPEED rpm

200

rpm - 175 gpm

2,000 1,600

rpm - 100 gpm

rpm - 175 gpm

M U D

TORQUE ft lb

1,250

MAX DIFF.

160 120 80

E QU TO R

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

65" 3 1/2 Reg. dynamic=79,625 lb static=224,950 lb dynamic=34,625 lb static=91,100 lb 91,100 lb 210,000 lb

1,651 mm 35,415 daN 100,060 daN 15,400 daN 40,520 daN 40,520 daN 93,410 daN

1,000 750 500 250

1,200 800 400

rpm - 100 gpm

20

1,000

1,200

1,400

1,600

200

400

600

800

TO R

40

QU

E

40

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 14.2 38.4 63.1

Absolute Overpull

Volume

(lpm) (gpm)

120

180

Speed

(rpm)

240

300

Torque

(ft-lb)

360

420

379 662 946

100 175 250

40-91 110-161 185-236

1,870 1,835 1,790

379 662 946

100 175 250

45-53 90-98 122-130

1,660 1,450 1,150

5"

480

60

M O T O R S

hp 14.2 24.9 26.7

6.21

PERFORMANCE 5" S3 4 3/4" 7-8, 2 Stage

MAX DIFF.

5"

PERFORMANCE 5" S3 4 3/4" 7-8, 3.8 Stage

4,000 3,500 3,000

6.22

Max Pressure Drop Max Diff. Pressure 0/A Length

160 140 120

rpm - 250 gpm

120 105 90

1500 psi 374 psi 272" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 2,579 kPa 6,909 mm

1500 psi 615 psi 269"

10,342 kPa 4,240 kPa SPEED rpm 6,833 mm

4,000 3,500 3,000

rpm - 200 gpm rpm - 150 gpm

SPEED rpm

60 45 30 15

rpm - 175 gpm

2,000 1,500

80 60

MAX DIFF.

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

2,000 1,500

E

TORQUE ft lb

75

rpm - 250 gpm

2,500

100

2,500

65" 3 1/2 Reg. dynamic=79,625 lb static=224,950 lb dynamic=34,625 lb static=91,100 lb 91,100 lb 210,000 lb

1,651 mm 35,415 daN 100,060 daN 15,400 daN 40,520 daN 40,520 daN

rpm - 100 gpm

E QU

1,000 500

40

TO R

1,000 500

TO R

20

M U D M O T O R S

QU

150

225

300

375

450

525

600

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 10.6 19.2 21.1

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

75

hp 29.5 38.5 43.7

379 662 946

100 175 250

21-29 43-51 66-74

2,650 2,350 1,680

93,410 daN

(lpm)

(gpm)

568 757 946

150 200 250

62-78 88-104 112-128

2,500 2,300 2,050

PERFORMANCE 5" S3 5" 5-6, 4 Stage

320 280 240

rpm - 250 gpm

2,400 2,100 1,800

Max Pressure 1500 psi Drop 646 psi 232" Max Diff. Pressure 0/A Length

10,342 kPa 4,454 kPa 5,893 mm

Max Pressure 1500 psi Drop

1,044 psi

PERFORMANCE 5" S3 5" 6-7, 6 Stage

10,342 kPa 7,198 kPa 5,893 mm SPEED rpm

400 350 300 250 200 150 100

TO R

3,200 2,800

rpm - 350 gpm

Max Diff. Pressure 0/A Length

276"

2,400

SPEED rpm

TORQUE ft lb

rpm - 250 gpm

TORQUE ft lb

200 160 120 80

QU E TO R

1,500

rpm - 175 gpm

2,000 1,600

M U D M O T O R S

1,200

MAX DIFF.

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

65" 3 1/2 Reg. dynamic=79,625 lb static=224,950 lb dynamic=34,625 lb static=91,100 lb 91,100 lb 210,000 lb

1,651 mm 35,415 daN 100,060 daN 15,400 daN 40,520 daN 40,520 daN 93,410 daN

rpm - 100 gpm

900 600 300

rpm - 150 gpm

E

1,200

MAX DIFF.

800 400

40

50

QU

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 21.7 41.5 59.0

Absolute Overpull

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

1,050

1,200

100

200

300

400

500

600

700

800

150

300

450

600

750

900

hp 50.3 87.9 119.0

379 662 946

100 175 250

67-84 133-150 200-217

1,700 1,640 1,550

568 946 1325

150 250 350

96-130 181-215 266-300

2,750 2,550 2,350

5"

6.23

5 1/2"

5 1/2" 5 1/2" 7-8, 3 Stage

240 210 180

rpm - 350 gpm rpm - 275 gpm rpm - 200 gpm

6.24

5 1/2" 5 1/2" 9-10, 3.2 Stage

MAX DIFF.

3,200 2,800 2,400

Max Pressure 1500 psi Drop 450 psi 251" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 3,103 kPa 6,375 mm

Max Pressure 1500 psi Drop 575 psi 254" Max Diff. Pressure 0/A Length

10,342 kPa 3,965 kPa 6,452 mm SPEED rpm

160 140 120 100

rpm - 300 gpm

4,000 3,500 3,000

SPEED rpm

MAX DIFF.

120 90

1,600 1,200 800 400

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

85" 4 1/2 Reg. dynamic=84,125 lb static=247,450 lb dynamic=42,050 lb static=123,700 lb 123,700 lb 214,000 lb

2,159 mm 37,420 daN 110,065 daN 18,705 daN 55,020 daN 55,020 daN

80 60 40

rpm - 200 gpm

2,000 1,500 1,000 500

TORQUE ft lb

150

2,000

2,500

rpm - 100 gpm

QU E

TO R

QU

60 30

TO R

20

M U D M O T O R S

E

150

225

300

375

450

525

600

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 34.9 44.8 52.7

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

75

hp 17.9 31.7 38.0

757 1041 1325

200 275 350

70-92 98-120 135-160

2,622 2,400 2,050

95,190 daN

(lpm)

(gpm)

379 757 1136

100 200 300

35-45 68-79 105-118

2,700 2,450 1,900

6 1/2"-6 3/4" 6 1/4" 4-5, 4.3 Stage

1500 psi

320 280 240

rpm - 400 gpm

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 4,309 kPa 6,528 mm

1500 psi 500 psi 244"

Max Pressure Drop Max Diff. Pressure 0/A Length

6 1/2"-6 3/4" 6 1/4" 7-8, 2.8 Stage

10,342 kPa 3,448 kPa 6,198 mm

200 175 150

rpm - 400 gpm

3,200

625 psi

2,800 2,400

4,000 3,500 3,000

257"

M U D M O T O R S

TORQUE ft lb

SPEED rpm

TORQUE ft lb

SPEED rpm

200 160 120 80

rpm - 275 gpm

2,000

MAX DIFF.

1,600 1,200 800 400

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

88" 4 1/2 Reg. dynamic=154,750 lb static=467,900 lb dynamic=77,375 lb static=234,000 lb 234,000 lb 275,000 lb

2,235 mm 68,835 daN 208,120 daN 34,415 daN 104,085 daN 104,085 daN 122,320 daN

125

MAX DIFF.

2,500

rpm - 300 gpm

100 75 50

2,000 1,500 1,000 500

rpm - 150 gpm

rpm - 200 gpm

E TO R

TO R

25

100

200

300

400

500

600

700

800

QU

40

QU

E

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 28.4 60.7 94.1

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 6.5 27.4 48.9

568 1040 1514

150 275 400

65-105 145-180 230-265

2,300 2,200 2,150

757 1136

200 300 400

10-65 45-100 97-135

3,400 3,200 2,6500

6 1/2" 6 3/4"

1514

6.25

6 1/2" 6 3/4"

6 1/2"-6 3/4" S3 6 1/4" 4-5, 4.3 Stage

1500 psi

320 280 240

rpm - 400 gpm

6.26

For more information on our products see our Web site http://www.nql.com

3,200 2,800 2,400

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 4,309 kPa 6.096 mm

625 psi 240"

SPEED rpm

TORQUE ft lb

200 160

rpm - 275 gpm

2,000 1,600

MAX DIFF.

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

71" 4 1/2 Reg. dynamic=130,000 lb static=400,500 lb dynamic=65,000 lb static=200,250 lb 200,250 lb 289,000 lb

1,803 mm 57,825 daN 178,140 daN 28,910 daN 89,070 daN 89,070 daN 128,550 daN

120 80

rpm - 150 gpm

1,200 800 400

TO R

40

QU

E

M U D M O T O R S

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 28.4 60.7 94.1

Absolute Overpull

568 1040 1514

150 275 400

65-105 145-180 230-265

2,300 2,200 2,150

6 1/2"-6 3/4" S3 6 1/4 7-8, 2.8 Stage

200 175 150

rpm - 400 gpm

PERFORMANCE 6 1/2"-6 3/4" S3 6 1/4 7-8, 4.8 Stage

1500 psi 500 psi 244" TORQUE ft lb Max Pressure Drop Max Diff. Pressure 0/A Length 10,342 kPa 3,448 kPa 6,198 mm 1500 psi 870 psi 317" Max Pressure Drop Max Diff. Pressure 0/A Length 10,342 kPa 5,998 kPa 8,052 mm

200 175 150 125

rpm - 400 gpm

4,000 3,500 3,000 2,500

rpm - 300 gpm MAX DIFF.

8,000 7,000 6,000

SPEED rpm

125 100 75 50

E QU TO R

2,000 1,500 1,000 500

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

71" 4 1/2 Reg. dynamic=130,000 lb static=400,500 lb dynamic=65,000 lb static=200,250 lb 200,250 lb 289,000 lb

1,803 mm 57,825 daN 178,140 daN 28,910 daN 89,070 daN 89,070 daN

100 75 50

rpm - 300 gpm

TORQUE ft lb

5,000 4,000

MAX DIFF.

M U D M O T O R S

rpm - 200 gpm

rpm - 200 gpm

3,000 2,000 1,000

100

200

300

400

500

600

700

800

TO R

25

QU

25

E

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 6.5 27.4 48.9

Volume

Speed

(rpm)

Torque

(ft-lb)

1050

1200

150

300

450

600

750

900

hp 14.4 47.1 86.1

757 1136 1514

200 300 400

10-65 45-100 97-135

3,400 3,200 2,650

128,550 daN

(lpm)

(gpm)

757 1136 1514

200 300 400

13-63 45-104 87-130

5800 5500 5200

6 1/2" 6 3/4"

6.27

6 1/2" 6 3/4"

6 1/2"-6 3/4" 6 1/2"-6 3/4" 1-2, 4 Stage

600 525 450

rpm - 500 gpm

6.28

For more information on our products see our Web site http://www.nql.com

1,600 1,400 1,200

rpm - 350 gpm MAX DIFF.

1500 psi 474 psi 324" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,268 kPa 8,230 mm

SPEED rpm

375 300 225 150

1,000 800 600 400 200

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

88" 4 1/2 Reg. dynamic=154,750 lb static=467,900 lb dynamic=77,375 lb static=234,000 lb 234,000 lb 275,000 lb

2,235 mm 68,835 daN 208,120 daN 34,415 daN 104,085 daN 104,085 daN 122,320 daN

rpm - 200 gpm

75

TO R

QU

M U D M O T O R S

E

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 41.6 77.0 113.6

Absolute Overpull

757 1325 1893

200 350 500

182-207 337-362 497-522

1,200 1,200 1,200

6 1/2"-6 3/4" 6 1/2"-6 3/4" 4-5, 4.8 Stage

MAX DIFF.

6 1/2"-6 3/4" 6 1/2"-6 3/4" 7-8, 3 Stage

MAX DIFF.

400 350

rpm - 600 gpm

4,000 3,500 3,000

Max Pressure 1500 psi Drop 674 psi 292" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 4,647 kPa 7,417 mm

Max Pressure 1500 psi Drop 562 psi 267" Max Diff. Pressure 0/A Length

10,342 kPa 3,875 kPa 6,782 mm SPEED rpm

240 210 180 150

rpm - 600 gpm rpm - 450 gpm

6,000 5,250 4,500

300

SPEED rpm

TORQUE ft lb

250 200 150

rpm - 450 gpm

2,500 2,000 1,500

3,750 3,000

M U D M O T O R S

rpm - 300 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

88" 4 1/2 Reg. dynamic=154,750 lb static=467,900 lb dynamic=77,375 lb static=234,000 lb 234,000 lb 275,000 lb

2,235 mm 68,835 daN 208,120 daN 34,415 daN 104,085 daN 104,085 daN

120 90 60

TO R

rpm - 300 gpm

2,250 1,500 750

UE

RQ

TO

50

500

30

100

200

300

400

500

600

700

800

QU

E

100

1,000

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 59.4 92.5 126.3

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 50.4 75.4 91.8

1136 1703 2271

300 450 600

115-147 185-217 260-292

2,710 2,625 2,550

122,320 daN

(lpm)

(gpm)

1136 1703 2271

300 450 600

63-80 105-122 146-163

4,200 3,770 3,300

6 1/2" 6 3/4"

6.29

6 1/2" 6 3/4"

6 1/2"-6 3/4" 6 1/2"-6 3/4" 8-9, 2 Stage

1500 psi

200

MAX DIFF.

6.30

Max Pressure Drop Max Diff. Pressure 0/A Length 10,342 kPa 3,447 kPa 6,706 mm SPEED rpm

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 2,310 kPa 5,715 mm

1500 psi 500 psi 264"

6 1/2"-6 3/4" 6 1/2"-6 3/4" 8-9, 3 Stage

200 175

MAX DIFF.

4,000

4,000 3,500 3,000

335 psi

3,500 3,000

175 150

225"

150 125 100

rpm -300 gpm rpm - 400 gpm

SPEED rpm

TORQUE ft lb

rpm - 400 gpm

100 75 50

QU E TO R

2,000

rpm - 300 gpm rpm - 200 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

88" 4 1/2 Reg. dynamic=154,750 lb static=467,900 lb dynamic=77,375 lb static=234,000 lb 234,000 lb 275,000 lb

2,235 mm 68,835 daN 208,120 daN 34,415 daN 104,085 daN 104,085 daN 122,320 daN

TORQUE ft lb

125

2,500

2,500 2,000 1,500

1,500 1,000 500

75

rpm - 200 gpm

50

QU E TO R

1,000 500

M U D M O T O R S

25

25

100

150

200

250

300

350

400

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 19.0 28.5 35.0

Absolute Overpull

Volume

(lpm) (gpm)

150

225

Speed

(rpm)

300

375

450

Torque

(ft-lb)

525

700

50

75

hp 28.5 41.3 54.0

757 1136 1514

200 300 400

40-52 65-78 92-104

2,500 2,300 2,000

757 1136 1514

200 300 400

40-53 62-78 90-105

3,740 3,500 3,150

6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 1-2, 4 Stage

600 525 450

rpm - 500 gpm

1,600 1,400 1,200

rpm - 350 gpm

1500 psi 474 psi 300" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,268 kPa 7,620 mm

For more information on our products see our Web site http://www.nql.com

SPEED rpm

375 300 225 150 75

1,000

MAX DIFF.

M U D M O T O R S

800 600 400 200

rpm - 200 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

71" 4 1/2 Reg. dynamic=130,000 lb static=400,500 lb dynamic=65,000 lb static=200,250 lb 200,250 lb 289,000 lb

1,803 mm 57,825 daN 178,140 daN 28,910 daN 89,070 daN 89,070 daN 128,550 daN

TO R

QU

E

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 41.6 77.0 113.6

757 1325 1893

200 350 500

182-207 337-362 497-522

1,200 1,200 1,200

6 1/2" 6 3/4"

6.31

6 1/2" 6 3/4"

6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 4-5, 4.8 Stage

400

MAX DIFF.

6.32

PERFORMANCE 6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 4-5, 7 Stage

10,342 kPa 6,854 kPa 8,357 mm SPEED rpm

400

MAX DIFF.

4,000 3,500 3,000

Max Pressure 1500 psi Drop 674 psi 268" Max Diff. Pressure 0/A Length

10,342 kPa 4,647 kPa 6,807 mm

Max Pressure 1500 psi Drop 994 psi 329" Max Diff. Pressure 0/A Length

6,000 5,250 4,500

350 300

rpm - 600 gpm

350 300 250 200 150 100 50

TO RQ

rpm - 600 gpm

SPEED rpm

TORQUE ft lb

200 150 100

TO R

2,000

rpm - 300 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

71" 4 1/2 Reg. dynamic=130,000 lb static=400,500 lb dynamic=65,000 lb static=200,250 lb 200,250 lb 289,000 lb

1,803 mm 57,825 daN 178,140 daN 28,910 daN 89,070 daN 89,070 daN 128,550 daN

3,000

rpm - 300 gpm

TORQUE ft lb

250

rpm - 450 gpm

2,500

rpm - 450

3,750

1,500 1,000 500

2,250 1,500 750

50

QU

UE

M U D M O T O R S

E

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 59.4 92.5 126.3

Absolute Overpull

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

1,050

1,200

100

200

300

400

500

600

700

800

150

300

450

600

750

900

hp 85.1 138.0 188.6

1136 1703 2271

300 450 600

115-147 185-217 260-292

2,710 2,625 2,550

1136 1703 2271

300 450 600

109-150 179-221 254-295

4,100 4,050 3,900

PERFORMANCE 6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 5-6, 6.5 Stage

MAX DIFF.

PERFORMANCE 6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 6-7, 5 Stage

MAX DIFF.

320 280 240

rpm - 600 gpm

8,000 7,000 6,000

1500 psi 870 psi TORQUE ft lb 353"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 5,998 kPa 8.966 mm

1500 psi 775 psi 314"

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 5,343 kPa SPEED rpm 7,976 mm

240 210

rpm - 600 gpm

12,000 10,500 9,000

SPEED rpm

rpm - 450 gpm

TORQUE ft lb

200 160 120 80

5,000 4,000

rpm - 450 gpm

7,500 6,000

M U D M O T O R S

rpm - 300 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

3,000 2,000

71" 4 1/2 Reg. dynamic=130,000 lb static=400,500 lb dynamic=65,000 lb static=200,250 lb 200,250 lb 289,000 lb

1,803 mm 57,825 daN 178,140 daN 28,910 daN 89,070 daN 89,070 daN

rpm - 300 gpm

4,500 180 150

E

3,000 1,500

E

TO R

40

1,000

R TO

QU

QU

PRESSURE DIFFERENTIAL psi

1,050

1,200

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 97.1 138.9 179.1

Volume

Speed

(rpm)

Torque

(ft-lb)

1,000

150

300

450

600

750

900

125

250

375

500

625

750

875

hp 64.0 106.7 141.6

1136 1703 2271

300 450 600

100-120 150-172 200-232

5,100 4,865 4,702

128,550 daN

(lpm)

(gpm)

1136 1703 2271

300 450 600

56-96 100-130 143-173

6,000 5,600 5,200

6 1/2" 6 3/4"

6.33

PERFORMANCE 6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 7-8, 2 Stage

120

MAX DIFF.

6 1/2" 6 3/4"

1500 psi 374 psi 288" TORQUE ft lb Max Pressure Drop Max Diff. Pressure 0/A Length 10,342 kPa 2,579 kPa 6,807 mm 1500 psi 562 psi 245" Max Pressure Drop Max Diff. Pressure 0/A Length

6.34

6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 7-8, 3 Stage

10,342 kPa 3,875 kPa 6,223 mm SPEED rpm

MAX DIFF.

8,000 7,000 6,000 5,000 4,000 3,000

rpm - 200 gpm

240 210 180 150 120 90 60 30

rpm - 300 gpm rpm - 600 gpm

6,000 5,250 4,500

105 90

SPEED rpm

75 60 45 30

rpm - 500 gpm

rpm - 300 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

71" 4 1/2 Reg. dynamic=130,000 lb static=400,500 lb dynamic=65,000 lb static=200,250 lb 200,250 lb 289,000 lb

1,803 mm 57,825 daN 178,140 daN 28,910 daN 89,070 daN 89,070 daN 128,550 daN

TORQUE ft lb

rpm - 450 gpm

3,750 3,000 2,250 1,500 750

QU

TO R

15

1,000

TO R

QU

2,000

E

M U D M O T O R S

150

225

300

375

450

525

600

75

E

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 23.2 39.4 48.6

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 50.4 75.4 91.8

757 1325 1893

200 350 500

23-31 45-53 68-76

5,300 4,600 3,750

1136 1703 2271

300 450 600

63-80 105-122 146-163

4,200 3,770 3,300

6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 8-9, 2 Stage

MAX DIFF.

6 1/2"-6 3/4" S3 6 1/2"-6 3/4" 8-9, 3

MAX DIFF.

200 175 150

400 350 300

Max Pressure 1500 psi Drop 342 psi 201" Max Diff. Pressure 0/A Length

10,342 kPa 2,358 kPa 5,105 mm

Max Pressure 1500 psi Drop 584 psi 246" Max Diff. Pressure 0/A Length

10,342 kPa 4,026 kPa SPEED rpm 6,248 mm

200 175 150 125 100 75 50

TO R

8,000 7,000 6,000

rpm - 500 gpm

SPEED rpm

rpm - 400 gpm

TORQUE ft lb

TORQUE ft lb

125 100

rpm - 300 gpm

250 200 150

rpm - 200 gpm

rpm - 350 gpm

5,000 4,000

M U D M O T O R S

75 50

U E TO

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

71" 4 1/2 Reg. dynamic=130,000 lb static=400,500 lb dynamic=65,000 lb static=200,250 lb 200,250 lb 289,000 lb

1,803 mm 57,825 daN 178,140 daN 28,910 daN 89,070 daN 89,070 daN

rpm - 200 gpm

E

3,000 2,000 1,000

100 50

R Q

25

25

QU

100

150

200

250

300

350

400

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 19.0 28.5 35.0

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

50

hp 41.1 70.4 82.9

757 1136 1514

200 300 400

40-52 65-78 92-104

2,500 2,300 2,000

128,550 daN

(lpm)

(gpm)

757 1325 1893

200 350 500

44-59 88-103 132-147

4,900 4,200 3,300

6 1/2" 6 3/4"

6.35

7 1/2"

7 1/2" 7 1/2" 4-5, 3.6 Stage

320

MAX DIFF.

6.36

Max Pressure Drop Max Diff. Pressure 0/A Length 10,342 kPa

200

8,000 7,000 6,000

1500 psi 497psi 300" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,585 kPa 7,620 mm

1500 psi 562 psi 308"

7 1/2" 7 1/2" 7-8, 3 Stage

12,000

MAX DIFF.

280 240

rpm - 900 gpm rpm - 700 gpm

3,875 kPa 7,823 mm SPEED rpm

175 150 125 100 75

rpm - 300 gpm rpm - 600 gpm rpm - 900 gpm

10,500 9,000

SPEED rpm

160 120 80

UE RQ TO

4,000

rpm - 400 gpm

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

94" 6 5/8 Reg. dynamic=200,200 lb static=620,800 lb dynamic=100,100 lb static=310,400 lb 310,400 lb 310,400 lb

2,388 mm 89,050 daN 276,130 daN 44,525 daN 138,065 daN 138,065 daN 138,065 daN

TORQUE ft lb

200

5,000

7,500 6,000 4,500 3,000

QU E TO R

3,000 2,000 1,000

50 25

M U D M O T O R S

40

1,500

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 56.4 103.6 133.7

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 44.9 99.3 119.5

1514 2650 3407

400 700 900

74-98 145-168 195-219

4,000 3,750 3,600

1136 2271 3407

300 600 900

31-47 79-95 128-144

7,600 6,600 4,900

8" S3 8" 1-2, 4 Stage

800

MAX DIFF.

3,200 2,800 2,400

700 600

MAX DIFF.

1500 psi 495 psi 313" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,413 kPa 7,950 mm

1500 psi 497 psi 294"

Max Pressure Drop Max Diff. Pressure 0/A Length

8" S3 8" 4-5, 3.6 Stage

10,342 kPa 3,427 kPa 7,468 mm SPEED rpm

320 280 240 200

rpm - 900 gpm rpm - 700 gpm

8,000 7,000 6,000

SPEED rpm

rpm - 600 gpm rpm - 450 gpm

TORQUE ft lb

500 400 300

2,000 1,600 1,200

5,000 4,000

M U D M O T O R S

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

81" 6 5/8 Reg. dynamic=215,950 lb static=670,375 lb dynamic=107,975 lb static=335,200 lb 335,200 lb 406,000 lb

2,057 mm 96,055 daN 298,185 daN 48,030 daN 149,100 daN 149,100 daN

160 120 80

TO

rpm - 400 gpm

3,000 2,000 1,000

rpm - 300 gpm

200

UE TO

800

RQ

100

400

40

100

200

300

400

500

600

700

800

RQ

UE

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 50.3 83.3 117.9

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 56.4 103.6 133.7

1136 1703 2271

300 450 600

160-210 265-320 375-420

1,650 1,650 1,650

180,590 daN

(lpm)

(gpm)

1514 2650 3407

400 700 900

74-98 145-168 195-219

4,000 3,750 3,600

8"

6.37

8"

8" S3 8" 5-6, 3 Stage

240 210 180

rpm - 550 gpm rpm - 750 gpm

6.38

Max Pressure Drop Max Diff. Pressure 0/A Length 10,342 kPa 5,516 kPa 7,468 mm SPEED rpm

8,000 7,000 6,000

1500 psi 708 psi 238" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 4,881 kPa 6,045 mm

1500 psi 800 psi 294"

8" S3 8" 5-6, 5 Stage

320 280

rpm - 900 gpm

8,000 7,000 6,000

rpm - 700 gpm

SPEED rpm

240 200 160 120

E

150 120 90 60

U E Q TO

rpm - 350 gpm MAX DIFF.

5,000 4,000 3,000 2,000 1,000

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

81" 6 5/8 Reg. dynamic=215,950 lb static=670,375 lb dynamic=107,975 lb static=335,200 lb 335,200 lb 406,000 lb

2,057 mm 96,055 daN 298,185 daN 48,030 daN 149,100 daN 149,100 daN 180,590 daN

rpm - 500 gpm MAX DIFF.

4,000 3,000 2,000 1,000

TORQUE ft lb

5,000

80 40

TO R

30

R

QU

M U D M O T O R S

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 82.7 134.9 185.6

Absolute Overpull

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

1325 2082 2839

350 550 750

79-104 135-160 195-220

5,500 5,250 5,000

1893 2650 3406

500 700 900

113-145 172-204 232-262

6,300 5,900 5,600

135.5 193.2 247.4

1,000

125

250

375

500

625

750

875

hp

8" S3 8" 7-8, 3 Stage

200 175 150

rpm - 900 gpm

8" S3 8" 8-9, 4 Stage

12,000 10,500

Max Pressure 1500 psi Drop 562 psi Max Diff. Pressure 0/A Length

10,342 kPa 3,875 kPa 7,468 mm

Max Pressure 1500 psi Drop 600 psi 296" Max Diff. Pressure 0/A Length

10,342 kPa 4,137 kPa SPEED rpm 7,518 mm

240 210 180150 120

MAX DIFF. rpm - 600 gpm rpm - 900 gpm

8,000 7,000 6,000

9,000

SPEED rpm

TORQUE ft lb

100 75

rpm - 600 gpm

6,000 4,500

MAX DIFF.

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

4,000

rpm - 300 gpm

E

TORQUE ft lb

125

7,500

294"

5,000

M U D M O T O R S

81" 6 5/8 Reg. dynamic=215,950 lb static=670,375 lb dynamic=107,975 lb static=335,200 lb 335,200 lb 406,000 lb

2,057 mm 96,055 daN 298,185 daN 149,100 daN 149,100 daN 48,030 daN

90 60

3,000 2,000 1,000

50 25

rpm - 300 gpm

QU E

3,000 1,500

TO R

30

100

200

300

400

500

600

700

800

TO R

QU

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 43.4 99.3 119.5

Volume

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 57.3 115.2 163.3

1136 2271 3407

300 600 900

30-47 79-95 128-143

7,600 6,600 4,900

180,590 daN

(lpm)

(gpm)

1136 2271 3407

300 600 900

50-71 110-135 179-200

6,025 5,500 4,790

8"

6.39

8"

PERFORMANCE 8" S3 8" 6-7, 4 Stage

200 175

rpm - 900 gpm

6.40

PERFORMANCE 8" S3 8" 7-8, 2 Stage

10,342 kPa

120 9,000 8,750

rpm - 800 gpm

12,000 10,500 9,000

rpm - 600 gpm

Max Pressure 1500 psi Drop 620 psi 332" TORQUE ft lb Max Diff. Pressure 0/A Length

10,342 kPa 4,275 kPa 8,433 mm

Max Pressure 1500 psi Drop 374 psi 294" Max Diff. Pressure 0/A Length

2,579 kPa 7,468 mm SPEED rpm

105 90 75

rpm - 550 gpm

150

7,500

SPEED rpm

100

MAX DIFF.

6,000 4,500 3,000 1,500

Bit to Bend Length Bottom Connection Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

81" 6 5/8 Reg. dynamic=215,950 lb static=670,375 lb dynamic=107,975 lb static=335,200 lb 335,200 lb 406,000 lb

2,057 mm 96,055 daN 298,185 daN 48,030 daN 149,100 daN 149,100 daN 180,590 daN

TORQUE ft lb

125

7,500

6,250 5,000

rpm - 400 gpm

60 45

75

rpm - 300 gpm

3,750

50

E TO R

TO

25

350 MAX DIFF.

QU

RQ

UE

30 15

2,500 1,250

M U D M O T O R S

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 51.8 120.6 167.4

Absolute Overpull

Volume

(lpm) (gpm)

100

150

Speed

(rpm)

200

250

300

Torque

(ft-lb)

400

50

hp 44.4 58.8 59.8

1136 2271 3407

300 600 900

32-51 83-102 134-155

8,500 7,630 6,560

1514 2082 3028

400 550 800

33 - 43 49 - 59 76 - 86

7,060 6,300 4,133

9 5/8" S3 9 5/8" 2-3, 7.5 Stage

MAX DIFF.

800 700 600

rpm - 1,2000 gpm

8,000 7,000 6,000

1500 psi 927 psi 366" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 6,392 kPa 9,296 mm

For more information on our products see our Web site http://www.nql.com

SPEED rpm

500 400 300 200 100

rpm - 900 gpm

5,000 4,000

M U D M O T O R S

rpm - 600 gpm

3,000 2,000 1,000

Bit to Bend Length Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

97" dynamic=235,900 lb static=253,525 lb dynamic=94,350 lb static=101,400 lb 101,400 lb 580,000 lb

2,540 mm 104,930 daN 112,770 daN 41,970 daN 45,105 daN 45,105 daN 257,985 daN

Bottom Connection 6 5/8 Reg., 7 5/8 Reg.

R TO

Q

UE

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

1,050

1,200

150

300

450

600

750

900

hp 186.8 303.3 419.1

2271 3407 4542

600 900 1,200

218-281 358-421 498-561

4,500 4,450 4,420

9 5/8"

6.41

9 5/8"

9 5/8" S3 9 5/8" 3-4, 4.5 Stage

320

MAX DIFF.

6.42

PERFORMANCE 9 5/8" S3 9 5/8" 3-4, 6 Stage

10,342 kPa 5,275 kPa 7,772 mm SPEED rpm

320 280

rpm - 1,200 gpm

12,000

rpm - 1,200 gpm

Max Pressure 1500 psi Drop 620 psi 330" Max Diff. Pressure 0/A Length

10,342 kPa 4,275 kPa 8,382 mm

Max Pressure 1500 psi Drop 750 psi 306" Max Diff. Pressure 0/A Length

8,000 7,000 6,000

rpm - 900 gpm

280 240

10,500 9,000

240 200 160 120

MAX DIFF.

E

SPEED rpm

TORQUE ft lb

160 120 80 40

rpm - 600 gpm

6,000 4,500 3,000

Bit to Bend Length Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

97" dynamic=235,900 lb static=253,525 lb dynamic=94,350 lb static=101,400 lb 101,400 lb 580,000 lb

2,540 mm 104,930 daN 112,770 daN 41,970 daN 45,105 daN 45,105 daN 257,985 daN

rpm - 600 gpm

4,000 3,000 2,000 1,000

TORQUE ft lb

200

rpm - 900 gpm

7,500

5,000

Bottom Connection 6 5/8 Reg., 7 5/8 Reg.

80 40

TO R

TO

RQ

UE

1,500

QU

M U D M O T O R S

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 115.4 188.6 250.5

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 135.7 222.3 302.6

2271 3407 4542

600 900 1,200

97-132 165-200 234-269

6,245 6,000 5,620

2271 3407 4542

600 900 1,200

99-129 164-194 227-257

7,200 7,120 7,000

9 5/8" S3 9 5/8" 4-5, 4 Stage

200 175 150

rpm -900 gpm

9 5/8" S3 9 5/8" 5-6, 3 Stage

10,500 9,000

MAX DIFF.

12,000

Max Pressure 1500 psi Drop 600 psi 306" Max Diff. Pressure 0/A Length

10,342 kPa 4,137 kPa 7,772 mm

Max Pressure 1500 psi Drop 472 psi 336" Max Diff. Pressure 0/A Length

10,342 kPa 3.254 kPa SPEED rpm 8,534 mm

200 175 150 125 100 75 50

rpm - 900 gpm rpm - 1,200 gpm

16,000 14,000 12,000

SPEED rpm

TORQUE ft lb

MAX DIFF.

100 75 50

TO R

6,000 4,500 3,000 1,500

rpm - 300 gpm

Bit to Bend Length Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

8,000 6,000 4,000

TORQUE ft lb

125

rpm - 600 gpm

7,500

10,000

M U D M O T O R S

97" dynamic=235,900 lb static=253,525 lb dynamic=94,350 lb static=101,400 lb 101,400 lb 580,000 lb

2,540 mm 104,930 daN 112,770 daN 41,970 daN 45,105 daN 45,105 daN

Bottom Connection 6 5/8 Reg., 7 5/8 Reg.

rpm - 800 gpm

UE

QU

E

25

25

TO

RQ

2,000

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 79.2 157.1 208.2

Volume

150

225

Speed

(rpm)

300

375

450

Torque

(ft-lb)

525

600

75

hp 67.3 113.1 150.5

1136 2271 3407

300 600 900

52-68 110-125 168-185

8,000 7,500 6,510

257,985 daN

(lpm)

(gpm)

2271 3407 4542

600 900 1,200

40-62 74-96 105-127

8,830 8,025 7,525

9 5/8"

6.43

9 5/8"

PERFORMANCE 9 5/8" S3 8" 6-7, 4 Stage

1500 psi

200

MAX DIFF.

6.44

Max Pressure Drop Max Diff. Pressure 0/A Length 10,342 kPa

200

12,000 10,500 9,000

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 4,275 kPa 9,246 mm

1500 psi 775 psi 366"

PERFORMANCE 9 5/8" S3 9 5/8" 6-7, 5 Stage

16,000 14,000

rpm - 1,200 gpm

175

rpm - 900 gpm

620 psi 364"

5,344 kPa 9,296 mm SPEED rpm

175 150 125 100

MAX DIFF.

150

12,000

SPEED rpm

TORQUE ft lb

100 75 50 25

rpm - 600 gpm

6,000 4,500

Bit to Bend Length Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs)

97" dynamic=235,900 lb static=253,525 lb dynamic=94,350 lb static=101,400 lb 101,400 lb 580,000 lb

2,540 mm 104,930 daN 112,770 daN 41,970 daN 45,105 daN 45,105 daN 257,985 daN

8,000

rpm - 600 gpm

TORQUE ft lb

125

7,500

rpm - 900 gpm

10,000

Bottom Connection 6 5/8 Reg., 7 5/8 Reg.

75 50 25

6,000 4,000 2,000

rpm - 300 gpm

E

R

1,500

Q

TO

U

RQ

UE

3,000

M U D M O T O R S

TO

100

200

300

400

500

600

700

800

PRESSURE DIFFERENTIAL psi

Volume

(lpm) (gpm)

Speed

(rpm)

Torque

(ft-lb)

hp 51.8 120.6 167.4

Absolute Overpull

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

Speed

(rpm)

400

500

600

Torque

(ft-lb)

700

800

hp 121.6 209.3 283.3

1136 2271 3407

300 600 900

32-51 83-102 134-155

8,500 7,630 6,560

2271 3407 4542

600 900 1,200

48-76 86-113 124-149

13,300 12,780 12,000

11 1/4" 11 1/4" 3-4, 3.6 Stage

240

MAX DIFF.

16,000 12,000 11,000

1500 psi 500 psi 371" TORQUE ft lb

Max Pressure Drop Max Diff. Pressure 0/A Length

10,342 kPa 3,447 kPa 9,423 mm

210 180

rpm - 1,500 gpm rpm - 1,200 gpm

For more information on our products see our Web site http://www.nql.com

SPEED rpm

150 120

10,000 8,000

M U D M O T O R S

rpm - 900 gpm

90

E

6,000 4,000 2,000

QU

Bit to Bend Length Bearing Load (compression) Bearing Load (tension) Max. Overpull (for re-runs) Absolute Overpull

113" dynamic=1,000,000 lb static=1,000,000 lb dynamic=500,000 lb static=500,000 lb 500,000 lb 1,000,000 lb

2,870 mm 444,800 daN 444,800 daN 222,400 daN 222,400 daN 222,400 daN 444,800 daN

60 30

TO R

Bottom Connection 6 5/8 Reg., 7 5/8 Reg.

Volume

(lpm) (gpm)

100

PRESSURE DIFFERENTIAL psi

200

300

400

Speed

(rpm)

500

600

Torque

(ft-lb)

700

800

hp 134.2 186.0 236.9

3407 4542 5678

900 1,200 1,500

81-100 114-133 149-168

8,700 8,570 8,350

11 1/4"

6.45

Air Drilling Black Max motors, due to their sealed bearing assembly, have proven themselves highly adaptable to air drilling projects. The higher rotor/stator lobe configurations with their high torque and slow rpm outputs have been the most successful. In any air circulating medium, there must be some form of lubricant (mist, soap, petroleum base, or polymer) to lower friction and heat generated between the rotor and stator. Dump valves cannot be used when air is the circulating medium. Air volume requirements for various sizes of downhole motors are hard to equate with non-compressible fluid. We have included an equation to give a starting point for calculating air requirements relative to fluid requirements. The equation assumes an efficiency for compressor output, and an efficiency for the motor relative to fluid efficiency. Keep in mind that as the rotor turns, heat is generated that may cause stator swelling (possibly increasing standpipe pressure), thus affecting a decrease in volumetric air delivery at the motor. Therefore, these volume calculations are meant as a loose guideline. Remember, lubrication is the key to good performance. We do not, in any circumstance, recommend running the downhole motor on dry air. This will result in premature failure of the power section and cause damage to the motor. Since air compressors are able to compress air to high pressures and therefore, to different volumes at exit, a standard measurement is used for the intake volumetric rate of air. This volumetric rate is stated in standard cubic feet per minute (SCFM), which is a cubic foot of air at standard atmospheric conditions (14.696 psia and 59º F) having a specific weight of 0/0765 lb/ft3. Operating the downhole motor with air requires certain precautions. Start the drilling operation after each connection with the bit just off bottom. Start up the compressors and build up to motor requirements and ease weight on bit gently. Remember there is no dampning of vibration and shock, so be careful when slacking off. Cut back on flow rate (50%) when off bottom. Motor stalls are hard to detect quickly on the standpipe, but vibration of the drill string, and subsequent lack thereof, is a decisive indicator of motor stall. Contact your nearest Black Max representative for more information.

7.1

A I R D R I L L I N G

Air Volume Formula

V1 P1 V2 P2 .7 = = = = = Compressor Output Volume Atmospheric Pressure Volume required by Power Section Standpipe Pressure Efficiency Factor 1 ft³ 1 m³ = = 7.4805 gal. 264.172 gal

A I R D R I L L I N G

Atmospheric Pressure (P1) @ Sea Level = 14.7 psi = 101.36 kPa Atmospheric Pressure DECREASES, 0.1 psi for every 200 ft. of elevation 0.6895 kPa for every 60.96 m of elevation V1 x P1 x .7 = V2 x P2

Volume (V) measured in cfm (ft³/min) or cmm (m³/min) Pressure (P) measured in psi or kPa

7.2

8.1

Dump Sub

Adjustable Offset Flex Sub

Rotor Catcher

Utility Rig Swivel

Fixed Bent Housing

O P T I O N A L E Q U I P M E N T

Offset Flex Sub

Near Bit Cutter

Anti-torque Swivel

Stabilizer

Adjustable Bent Housing

Black Max Product Line Black Max Downhole Tools provides a full compliment of shock tools and mechanical, hydraulic and hydraulic/mechanical jars to the Energy and utility sector. Our product line ranges in size from a 1 11/16" to 9" jars to 11" shock tools. Whatever your application, Black Max Downhole Tools are your best bet in reliability and performance. Black Max Mechanical Jars are designed to create powerful up or down forces that will 'jar' the string that has become stuck during drilling operation. The jars are manufactured of high strength alloy steel, they are oil lubricated and completely sealed and are designed to operate in the harshest of drilling conditions. The Black Max Hydraulic/Mechanical Jars have a mechanical latch feature that keeps the jar in the neutral position and prevents unexpected jarring when tripping in or out of the hole. The jars also have a hydraulic section that creates a time delay when the jar is in operation and the latch is disengaged. Best Hitter and Rig Rattler, Black Max Jars that will come up big for you when you need them most. Proven in the harshest environments, with a jarring force second to none. Black Max Downhole Tools is pleased to make tools of this caliber available to its customers. When you need your Rig Rattled or a Best Hitter call on a Black Max Downhole Tools Sales rep to consult with. Black Max Downhole Tools also provides and stocks a full range of Ray-Son Shock Tools, sizes available from 2 7/8" to 11". Ray-Son shock tools are designed to cushion heavy axial loading and reduce bit vibrations encountered during drilling operations. Ray-Son shock tools are sprung both ways (tension and compression) to accommodate loading from both directions and are pressure balanced from extreme hydrostatic pressures, maximizing the performance of Black Max shock tools. The shock tools are available with your choice of two mandrel options, so that they can be placed in the string or in a bottom hole application. The shock tools' spring elements consist of disc style springs made of heat-treated steel. All shock tool internal components are sealed completely from drilling fluids and are oil lubricated. Our shock tools are cost effective. They maximize bit life as they provide consistent rates of penetration and minimize harmonics created in the drill string.

S H O C K T O O L S & J A R S

9.1

The Ray-Son Shock Tool is an extremely reliable shock absorber. It assures long life with a wide range of applications from rotary drilling to high speed directional drilling. The tool is designed to improve penetration rates, prolong drill bit life and prevent damage to the drill string. The tool was engineered with an equalization chamber and piston to counteract the hydrostatic pressures encountered down hole, and should drilling fluids enter our Shock Tool it will continue to function.

Outside Diameter 2 7/8 in 73 mm 3 ½ in 89 mm 4 3/4 in. 121 mm 6 1/4 in. 159 mm 6 1/2 in. 165 mm 6 3/4 in. 171 mm 7 in. 175 mm 9 in. 229 mm 11 in. 279 mm

Inside Diameter 5/8 in 16 mm 1 in 25.4 mm 1 1/2 in. 38.1 mm 2 in. 51 mm 2 1/8 in. 54 mm 2 1/4 in. 57.2 mm 2 1/4 in. 57.2 mm 3 in. 76.2 3 in 76.2

Approximate Shipping Weight 80 lbs 36 kg 96 lbs. 44 kg 320 lbs. 145 kg 450 lbs. 204 kg 450 lbs. 204 kg 575 lbs. 260.5 kg 575 lbs. 260.5 kg 1500 lbs. 679.5 kg 3000 lbs. 1359 kg

Approximate Shipping Length 4 3/4 ft 1.45 m 5 ft 1.52 m 6 ft. 1.85 m 6 1/2 ft. 1.98 m 7 ft. 2.13 m 7 ft. 2.13 m 7 ft. 2.13 m 9 ft. 2.74 m 10 ft. 3.04 m

9.2

The result - uninterrupted drilling.

Features: Reduces excessive drill bit wear. Reduces metal fatigue. Increases penetration rates. Shorter length ensures maximum lateral stiffness. Pressure balanced components to compensate for hydrostatic pressure, regardless of hole depth. Closely fitted drive components to prevent the Shock Tool from contributing to hole deviation. Specially designed steel springs provide maximum vibration damping. Availability of high temperature seals. Tools are available in all popular sizes, 4 3/4" through 11".

S H O C K T O O L S

Tool joint connections, bottom hole or string, to customer requirement. The Ray-Son Shock Tool is a proven shock absorber. Bit life is extended, penetration rates increased, metal fatigue and damage to drill string components reduced. A close-fitting and self-centering spline drive system, located in the spline mandrel, ensures maximum lateral stiffness. The specially engineered Belleville Springs provide maximum vibration dampening, long life and high reliability.

Shock Tools-Specifications

Regular Weight

Tool Size O.D. I.D. Load @ Max. Load @ Min.

Medium Weight

Load @ Max. Load @ Min.

Light Weight

Load @ Max. Load @ Min.

Compression (75%) Compression (25%) Compression (75%) Compression(25%) Compression(75%) Compression (25%)

(in) 2 7/8 3 1/2 4 3/4 6 1/4 6 3/4 7 3/4 8 9 9 1/2 11

(mm) 73 89 121 159 171 197 203 229 241 279

(in) 2.88 3.53 4.81 6.31 6.81 7.80 8.12 9.06 9.56

(mm) 73 90 122 160 173 198 206 230 243

(in) 0.63 1.00 1.50 2.00 2.25 2.50 2.50 3.00 2.81 2.88

(mm) 16 25 38 51 57 64 64 76 71 73

(lbs) 10,500 10,400 49,300 70,200 77,300

(daN) 4,670 4,630 21,930 31,230 34,380

(lbs) 3,700 3,600 16,700 24,100 26,500

(daN) 1,650 1,600 7,430 10,720 11,790

(lbs)

(daN)

(lbs)

(daN)

(lbs) 4,000

(daN) 1,780 5,830 8,320 13,120

(lbs) 1,400 4,500 6,600 10,300

(daN) 620 2,000 2,940 4,580

S H O C K T O O L S

21,900 35,600

9,740 15,840

7,500 12,400

3,340 5,520

13,100 18,700 29,500

47,100 121,500 124,900 193,000 342,100 54,050 55,560 85,850 152,170 41,300 42,700 66,200 116,700 18,370 18,990 29,450 51,910 47,100

20,950 20,950

16,400 16,400

7,300 7,300

36,400

16,190

13,300

5,920

11.00 279

9.3

9.4

S H O C K T O O L S

A B C D E F G H J K

1 2 7/8 2.88 2.13 2.00 1.25 1.14 0.63 7.28 7.19 11.19 13.34

3 1/2

3.53 2.63 2.50 1.75 1.64 1.00 11.00 6.00 10.87 12.13

A B C D E F G H

2 2 7/8 3 1/2 2.13 2.64 2.88 3.53 2.25 2.75 1.32 2.24 3.25 3.00 3.94 3.75 3.97 3.75 1.84 2.00 5 2 7/8 2.41 2.00 2.88 2.38 2.56 2.50 4.34 2.00

3 1/2

A B C D E F G

3 2 7/8 2.57 2.88 2.38 2.57 2.00 13.43 2.00

3 1/2

3.04 3.53 2.88 3.04 2.25 12.00 2.25

A B C D E F G H

4 2 7/8 3 1/2 1.29 1.79 1.88 2.37 0.63 1.00 1.38 1.88 1.14 1.64 2.50 2.50 4.46 4.37 1.88 2.13 7 2 7/8 3 1/2 2.41 2.89 2.00 2.50 2.88 3.53 1.25 1.50 1.84 2.00 4.91 3.84 6.25 9.16

S H O C K T O O L S

A B C D E F G H

2.89 2.50 3.53 2.88 3.04 2.50 4.25 2.25

A B C D E F

6 2 7/8 3 1/2 1.29 1.79 1.88 2.37 1.38 1.88 0.63 1.00 2.50 2.50 1.50 1.50

A B C D E F G

9.5

9.6

S H O C K T O O L S

A B C D E F G H J K

1 4 3/4 4.81 3.50 3.37 2.38 2.26 1.50 17.40 8.10 15.60 16.00

6 1/4

6 3/4

7 3/4

8

9

9 1/2

11

6.31 6.81 7.80 8.12 9.06 4.50 4.88 5.50 5.50 6.75 4.43 4.75 5.25 5.25 6.45 3.00 3.25 3.75 3.75 4.81 2.85 2.97 3.56 3.56 4.56 2.00 2.25 2.50 2.50 3.00 20.50 19.70 14.88 19.00 18.50 5.30 8.10 10.62 11.00 13.67 13.20 18.50 21.00 21.00 24.50 16.50 26.70 15.00 21.00 20.83

8 9

9.56 7.25 7.00 4.81 4.56 2.81 18.50 13.67 29.00 20.83

9 1/2

11.00 8.00 7.63 5.38 5.25 2.88 23.90 14.50 30.00 31.60

11

A B C D E F G

3 4 3/4 4.81 3.90 3.37 3.90 20.50 8.20 6.50

6 1/4

6 3/4

7 3/4

8

9

9 1/2

11

6.30 5.04 4.26 3.50 20.43 9.07 8.50

6.81 5.52 4.88 5.52 32.20 6.55 9.00

7.80 6.08 5.26 6.08 24.00 7.01 10.74

8.12 6.08 5.30 6.08 30.00 16.75 5.00

8

9.06 7.49 6.60 7.25 35.33 6.50 14.50

9

9.56 7.99 7.99 7.99 4.00 27.33 4.00

9 1/2

11.00 9.00 9.00 9.00 4.00 37.00 4.00

11

S H O C K T O O L S

A B C D E F G

2 4 3/4 6 1/4 6 3/4 7 3/4 3.51 4.51 4.90 5.52 4.81 6.31 6.81 7.80 3.63 4.75 5.38 6.00 2.77 3.51 4.34 4.73 4.40 3.30 5.00 6.90 3.90 2.50 3.30 4.97 8.86 7.20 11.20 9.75

5.52 6.77 7.29 8.02 8.12 9.06 9.56 11.00 6.00 7.00 7.50 9.00 4.73 5.85 6.40 6.80 6.90 5.38 5.38 7.00 4.97 7.75 8.62 9.50 9.75 11.63 15.25 14.20

A B C D E

4 4 3/4 6 1/4 6 3/4 7 3/4 3.36 4.25 4.87 5.25 1.50 2.00 2.25 2.50 2.88 3.00 4.00 4.88 5.89 4.50 7.75 9.32 1.30 2.00 2.00 1.93 5 4 3/4 3.00 4.81 3.00 3.50 10.50

6 1/4 6 3/4 7 3/4

5.24 2.50 4.88 6.60 1.40

8

6.00 3.00 5.18 5.70 2.30

9

6.25 2.81 5.18 5.70 2.30

9 1/2

7.25 2.88 5.38 6.40 2.98

11

A B C D E

3.50 6.31 2.00 6.00 12.00

4.50 6.81 3.50 6.00 12.00

4.00 2.50 7.80 8.12 4.00 2.50 4.50 4.50 7.50 10.50

6.60 9.06 4.93 14.00 12.00

6.77 9.56 5.43 14.00 8.00

7.75 11.00 4.88 15.17 11.53

9.7

9.8

M E C H A N I C A L J A R S

1 A B C D E F G H 2 A B C D E F G 3 A B C D E

1 11/16 1.69 1.19 1.08 0.31 5.30 14.30 16.90 1.25 1 11/16 1.19 1.69 1.25 0.88 1.61 12.48 3.40 1 11/16 1.69 1.32 0.90 14.80 1.70

4 3/4 4.80 3.50 3.40 2.00 12.60 18.40 22.75 3.25 4 3/4 3.51 4.80 3.75 3.07 4.75 13.00 10.75 4 3/4 4.80 3.89 3.20 20.00 4.50

6 1/4 6.28 4.63 4.46 2.25 19.25 17.62 23.50 4.88 6 1/4 4.64 6.25 5.25 3.98 5.75 12.75 10.75 6 1/4 6.25 5.04 3.77 22.50 6.00

6 3/4 6.60 4.75 4.68 2.50 20.00 19.60 22.59 4.81 6 3/4 4.76 6.60 5.25 4.09 6.50 12.50 10.75 6 3/4 6.60 5.38 4.05 22.50 5.50

4 A B C D E 5 A B C D E F G H 6 A B C D E 7 A B C

1 11/16 1.69 1.32 0.90 10.55 1.70 1 11/16 1.69 1.19 1.19 1.19 19.27 1 11/16 1.30 0.77 0.31 1.50 26.70 1 11/16 1.18 0.31 3.00

4 3/4 4.80 3.89 3.20 20.50 4.50 4 3/4 4.80 3.89 3.50 2.00 6.80 16.40 2.10 10.70 4 3/4 3.87 3.00 2.00 4.50 42.00 4 3/4 3.49 2.00 8.00

6 1/4 6.25 5.04 3.75 24.00 5.50 6 1/4 6.25 4.63 4.75 3.00 15.25 5.75 14.00 12.00 6 1/4 5.02 3.50 2.25 6.50 48.00 6 1/4 4.61 2.25 17.50

6 3/4 6.60 5.38 4.05 24.50 5.50 6 3/4 6.60 4.76 5.00 3.75 15.37 5.63 15.01 9.65 6 3/4 5.38 3.75 2.50 6.50 48.00 6 3/4 4.75 2.50 17.50

M E C H A N I C A L J A R S

9.9

9.10

HYDRAULIC/MECHANICAL JARS

1 A B C D E F G H 2 A B C D E F G

3 1/2 3.53 2.62 2.50 1.13 8.90 20.15 24.65 2.14 3 1/2 3.53 2.88 2.24 2.64 3.20 16.30 5.75

4 3/4 4.80 3.50 3.40 2.00 10.60 27.24 34.84 3.25 4 3/4 4.80 3.75 3.07 3.51 4.75 21.00 10.75

6 1/2 6.60 4.75 4.69 2.75 20.00 25.75 31.69 4.81 6 1/2 6.60 5.25 4.27 4.76 5.75 20.50 10.75

8 8.12 5.50 5.25 3.00 19.14 27.61 31.00 4.38 8 8.12 6.00 4.73 5.52 6.85 21.64 9.75

3 A B C D E 4 A B C D E 5 A B C D E

3 1/2 3.53 2.88 2.25 20.50 2.50 3 1/2 2.86 2.00 1.13 2.50 43.00 3 1/2 3.53 2.63 2.00 24.25 2.50

4 3/4 4.80 3.89 3.20 28.00 4.50 4 3/4 3.86 3.00 2.00 4.50 49.50 4 3/4 4.80 3.50 2.75 32.12 4.50

6 1/2 6.60 5.38 4.00 30.50 5.50 6 1/2 5.38 3.69 2.75 6.50 55.50 6 1/2 6.60 4.75 4.00 34.50 5.50

8 8.12 6.08 4.50 30.50 6.00 8 6.04 4.25 3.00 6.00 60.25 8 8.12 5.50 4.50 36.00 6.00

HYDRAULIC/MECHANICAL JARS 9.11

6 A B C D E F G 7 A B C 8 A B C D E

3 1/2 2.59 1.88 1.75 1.13 2.50 23.20 7.05 3 1/2 3.53 2.77 30.70 3 1/2 2.40 1.88 1.13 2.50 19.50

4 3/4 3.48 2.63 2.44 2.00 5.50 29.75 8.40 4 3/4 4.80 3.69 39.30 4 3/4 3.25 2.63 2.00 3.00 25.00

6 1/2 4.73 3.63 3.38 2.75 7.30 30.86 8.74 6 1/2 6.60 5.14 40.50 6 1/2 4.50 3.63 2.75 3.00 26.25

8 5.48 4.13 3.88 3.00 6.50 31.49 8.76 8 8.12 5.75 41.50 8 4.88 4.13 3.00 3.00 27.00

9.12

9 A B C D E 10 A B C D E 11 A B C D E 3 1/2 3.53 2.89 2.00 18.75 2.50 3 1/2 3.53 1.90 1.13 4.00 7.00 3 1/2 3.53 2.88 2.25 20.50 2.50 4 3/4 4.80 3.50 2.75 19.50 4.50 4 3/4 4.80 3.20 2.00 4.80 10.20 4 3/4 4.80 3.89 3.20 20.50 4.50 6 1/2 6.60 4.75 4.00 19.50 5.50 6 1/2 6.60 4.50 2.75 5.40 10.60 6 1/2 6.60 5.38 4.05 24.50 5.50 8 8.12 5.50 4.50 21.00 6.00 8 8.12 5.00 3.00 5.50 13.50 8 8.12 6.08 4.50 26.50 6.00

HYDRAULIC/MECHANICAL JARS

MECHANICAL JARS

Tool Size O.D. I.D. Length (in.) 1 11/16 (mm) 43 (in) (mm) (in.) (mm) (ft) (m) 1.69 43 0.31 8 6.1 1.9 4 3/4 121 4.8 122 2.25 51 10.1 3.1 45,000 20,000 300,000 133,440 9.6 46.2 6 1/4 159 6.28 160 2.25 57 12.3 3.7 85,000 37,800 531,000 236,188 16.7 107.7 6 3/4 171 6.6 167 2.5 64 12.4 3.8 100,000 44,500 531,000 236,188 17.7 114.3

HYDRAULIC / MECHANICAL JARS

Tool Size O.D. I.D. Length (in) (mm) (in) (mm) (in.) (mm) (ft) (m) 3 1/2 89 3.53 90 1.13 29 14 4.3 4 3/4 121 4.8 122 2 51 17.5 5.3 45,000 20,000 50,000 22,250 265,000 117,870 5.4 34.9 6 1/2 165 6.6 168 2.75 70 19.3 5.9 100,000 37,800 105,000 46,700 531,000 236,188 10.3 66.6 8 203 8.12 206 3 76 20 6.1 120,000 53,350 125,000 55,600 733,000 326,000 12.6 81.1

Max. Latch Setting (lb) 10,000 (daN) 4,450 Max. Tensile Pull (lb) 25,000 (after jarring) (daN) 11,100 Piston Area (in.2) 1.1 (cm2) 7.2

Max. Latch Setting (lb) 25,000 (daN) 11,100 Max. Prejar Pull (lb) (daN) 30,000 13,350

S P E C I F I C A T I O N S

Max. Tensile Pull (lb) 150,000 (after jarring) (daN) 66,720 Piston Area (in.2) (cm2) 2.8 17.8

9.13

9.14

TOOL SIZE

I.D. LENGTH (Latched) WEIGHT STROKE UP & DOWN (Free stroke after valve release) UP PRESETRELEASE(lbs) DOWN MAX. PREJAR PULL (lbs) MAX. PULL (lbs) (After jarring) MAX. TORSIONAL LOAD (ft-lb) Approx. Approx. Approx. Approx. DOWN DOWN DOWN 12,500 22,500 50,000 60,000 65,000 265,000 12,000 2.5 in2 140,000 531,000 42,000 4.4 in2 180,000 733,000 65,000 6.3 in2

3½"

1.13" 14 ft 400 lbs 6"

4¾"

2.25" 17.5 ft 800 lbs 6"

6½"

2.75" 19.3 ft 1500 lbs 6"

8"

3.00" 20.0 ft 2500 lbs 6"

25,000

UP

45,000

UP

100,000

UP

120,000

30,000 150,000 7,000 1.8 in2

PUMP OPENAREA PUMP OPEN AREA

S P E C I F I C A T I O N S

The Best Hitter is the most versatile drilling jar in the drilling industry The Best Hitter has three positive positions: Open - position of the jar when hit up. Cocked - position of the jar, when ready to hit up or down. Closed - position of the jar, when hit down.

w w w

is sent to the drilling rig in the cocked position. is preset to manufacturer's specifications and can be preset to the operators requirements. can be used for drilling in tension or in compression. The Best Hitter is mechanical (oil is used as the lubrication). The Best Hitter provides intense jarring up or down for long periods of time. The Best Hitter is durable and versatile. The Best Hitter jarring impact is fully adjustable up or down while in the hole. The Best Hitter has no waiting for resetting. The jar will hit up or down as fast as the driller can pick up or slack off during drilling. The best Hitter is simple to operate. The best Hitter allows the driller to adjust jarring action up or down to hit harder or softer. The Best Hitter provides jarring action to stuck drill string under any conditions.

Advantages and benefits of the Best Hitter drilling jar.

w w w w w w w w

TOOL O.D. TOOL I.D. TOOL JOINT **CONNECTION OVERALL LENGTH TENSILE YIELD STRENGTH TORQUE YIELD STRENGTH DOWN STROKE UP STROKE TOTAL STROKE LENGTH WEIGHT IN LBS. PISTON AREA (in2) (cm 2)

4-3/4" 2" 3-1/2" API I.F. 31' 40,000 19,000 8 8 16 1400 4.5 11.5

6-1/4" 2-1/4" 4-1/2" API I.F. 34.5' 70,000 35,000 8 8 16 2400 7.1 1.8

7-3/4" 2-3/4" 6-5/6" REG. REG. 36' 120,000 65,000 8 8 16 4000 11.8 30

B E S T H I T T E R

** CONNECTIONS CAN BE MANUFACTURED TO CLIENTS' SPECIFICATIONS Design Features Of The BEST HITTER Drilling Jar 1. Heat-treated and stress relieved aircraft quality SAE 4340 and 4140 steel. 2. All box and pin connections both internal and external are stress relieved. 3. Internal and external connections are torqued to manufacturer specifications, which have been proven in the field. 4. Hydrostatic pressure does not affect the BEST HITTER.

9.15

OPERATING INSTRUCTIONS The Best Hitter mechanical drilling jar is self-cocking and will trip immediately after the required weight or pull is applied. The Best Hitter is delivered to the location in the cocked position, with about 8" of the mandrel exposed, and will usually be cocked when it is pulled out of the hole. To run the jar in the hole, it is recommended that the jar be uncocked. Sometimes, it may be necessary to run the jar in the cocked position, i.e. in fishing operations. To uncock the Best Hitter jar, you need to do the following: With drill pipe or collars to be used above the jar, set the slips on the jar body below the mandrel. Unlock the rotary. The break out tongs should be placed on the jar above the mandrel and the back up tongs below the mandrel. Using a rope to pull on the break out tongs turn the mandrel 1/8 turn to the left. Hold the 1/8 turn and pick up on the string to open the jar. There will be 16 inches of exposed mandrel (approximately). Pull the slips and run the jar in the hole. Note: DO NOT TURN MANDREL OVER 1/8 TURN TO THE LEFT. JAR PLACEMENT IN THE STRING: Run three collars above the jar. With hevi-wate drill pipe at least five joints should be run above the jar.

OPERATION OF DRILLING JAR: UPWARD STROKE: Pull on string until the jar setting specified is reached and jar will trip. RECOCK JAR: Slack off on drill string until slightly below the weight of the string above the jar. The weight indicator needle should bobble when the jar completes its free travel and recocks. EXAMPLES: 250.000 Total indicator weight -40.000 Bottom Hole Assembly below the jar 210.000 Weight of the string above the jar +90.000 Upstroke Setting on jar 300.000 +20.000 Hole drag picking up 320.000 Indicator reading to trip jar You will probably have to slack off to about 200.000 to cock the jar for another upward hit. DOWNWARD STROKE: Slack off on the string until the setting reached which is required to trip the jar. TO RECOCK FOR JARRING DOWN ONLY: Pick up pipe or string until the weight above the jar is slightly above the weight above the jar. A slight bobble on the indicator will be noticed when the jar recocks. Free travel will also be noted.

9.16

B E S T H I T T E R

EXAMPLE FOR DOWNWARD TRIPPING OF JAR: 250.000 Total indicator weight -38.000 Weight below the jar 212.000 Weight below jar -36.000 Upstroke Setting on jar 176.000 -20.000 Hole drag 156.000 Indicator reading necessary to trip jar downward NOTE: The downward stroke is less noticeable than the upward stroke in most cases. The downward tripping can only be detected by the weight indicator in most cases especially in deep holes and when using small jars. HEAVIER JAR TRIPPING: Apply and hold right hand torque to drill string. Apply the torque 1/2 around at a time until the desired setting is reached. With too much right hand Torque it would not be possible to pull enough so that the jar would trip. In the event that too much right hand Torque is applied, release the torque and the jar will return to the original setting.

LIGHTER JAR TRIPPING: Apply and hold left hand torque to drill string. Apply the torque 1/2 round at a time until the desired setting is reached. With too much left hand torque the jar will be out of jay and you will not have a jarring effect. This would give you 6 inches of free travel. To correct too much left hand torque, release the torque and the jar will return to its original setting. TROUBLE SHOOTING JARS: When the string becomes stuck while drilling, it is likely that some right hand torque has been trapped in the string. To correct this, pick up the string to the weight of the string above the jar and apply three rounds of left-hand torque. Hold the torque for a few seconds and release. Repeat this procedure until you get three rounds back to the right. When you pick up on the string at this point, the jar should hit. If it does not hit, look for free travel in the string and if there is none, then you are probably stuck above the jar. NOTE: While going into the hole with a jar in the open position, the driller should ensure that when he sets the slips they aren't sitting on a ledge where the jar has taken weight and may slip off. If this happens it is possible that the bit may roll off after you have set the slips, unlatched the elevators and gone after another stand of pipe. This might lead you to think that the jar has gone off on its own and this should not be the case.

B E S T H I T T E R

9.17

9.18

Rig Rattler Features: At 15' (4.58m) long, this jar was designed to be the shortest combination jar in the industry. The "Rig Rattler" has a total of 22" of stroke Bump Down From the closed position, 12" of free stroke is built into the jar so it can operate as a bumper sub. In this regime the jar can bump down as often as desired without having to fire the jar or enter its metering section. Fully extended, the "Rig Rattler" provides 22" of unrestricted bumper stroke. Jarring Up The "Rig Rattler" will only fire if a force greater than the customers' required safety setting is achieved. From that point the jar will meter 4" before providing 6" of impact stroke. The time to fire as well as jarring impact is adjusted by how much force is exerted on the jar. The built in safety mechanism of the jar allows worry free tripping. The "Rig Rattler" is hydrostatically balanced. It does not have any mud ports to plug up, and only has two seal surfaces exposed to drilling mud. Connections on downhole tools bother you? This jar has only three internal connections. The internal components of the "Rig Rattler" have been specially designed to eliminate fluid restrictions inside the jar during either the up or down hitting stroke. By eliminating these restrictions the hitting power of the jar is maximized. The valve of the "Rig Rattler", which controls the safety setting and timing of the jar, is filtered from contaminants during all modes of operation. Use of the "LEE Jeva" make the firing time of the "Rig Ratter" independent of temperature.

The "Rig Rattler" jar has been designed to be the

toughest, hardest hitting jar in the industry. As with most things, the best idea is often the simplest. This drilling jar meets this criteria. Through the ruggedness and simplicity of its design we believe that the "Rig Rattler" is the best jar on the market. It is easy to run, and cost effective to maintain. These are savings that can be passed on to our customers.

O.D. I.D. Maximum Pre-jar pull Maximum Postjar pull Weight Max Torque Closed Length Extended Length Piston Area (in.2) . (cm2)

4 3/4" 2 1/4" 70,000 lb 230,000 lb 550 lb 12,500 ft-lb 12 ft 13.8 ft 6.4 16.1

6 1/2" 2 1/2" 200,000 lb 585,000 lb 1000 lb 27,000 ft-lb 15 ft 16.8 ft 13.8 34.9

6 3/4" 2-1/2 200,000 lb 585,000 lb 1150 lb 42,000 ft-lb 15 ft 16.8 ft 14.2 36.1

R I G R A T T L E R

Starting Lug

Solid Body Design

Optional Face Angles

Starting Lug Tri-Directional Slip Setting Tool

Mechanical Bottom Trip Assembly

Solid Body Design Optional Face Angles Solid Body Design Optional Face Angles

W H I P S T O C K

Tool Joint Connection Finned Anchor Assy.

Tail Pipe Adaptor

10.1

10.2

Condensed Running Procedures for Mechanical Bottom Trip Multi Trip Whipstocks

- Run Gauge Mill and Casing Scraper - Run Whipstock and Starter Mill Assembly - Orient Whipstock Face to Desired Direction (If Applicable) - Apply Weight to Set Whipstock and Shear Starting Mill - Make Cut Out with Starting Mill and Pull Out Starting Mill - Run Window Mill and Watermelon Mill - Complete Window Milling Operations and Make Desired Start Into Formation - Pull Out with Mills and Run Drilling Assembly

W H I P S T O C K

Condensed Running Procedures for Mechanical Bottom Trip Multi Trip Whipstocks

W H I P S T O C K

10.3

Mechanical Specifications for Mechanical Bottom Trip Multi Trip Stiff Whipstocks

10.4

Whipstock O.D.

Casing Size

Dim. "A" Total Length

Dim. "B" Top of Slip

Dim. "C" Taper Length

Dim. D"

Slde A ngl i e

Weight

Roll Pin

Shear Value

Slip

Shear Value

Shear Bolt

Shear Value

Heavy Shear

Bolt Value

(In.)

(mm)

88.9 101.6 108 114.3 133.4 139.7 152.4 158.8 177.8 203.2 228.6 254 292.1

(In.)

4½ 5 5½ 5½ 6 5/ 8 7 7 5/ 8 7 5/ 8 8 5/ 8 9 5/ 8 10 ¾ 11 ¾ 13 /8

3

(mm)

114.3 127 139.7 139.7 168.3 177.8 193.7 193.7 219.1 244.5 273.1 298.5 339.7

(ft.)

13.4 10.8 15.3 16.3 13.2 16.7 13.6 18.0 18.6 14.7 17.1 17.1 17.9 17.9 19.9 22.5 20.5 22.7

(m)

4.1 3.3 4.7 5 4 5.1 4.1 5.5 5.7 4.5 5.0 5.0 5.5 5.5 6.1 6.9 6.2 6.9

(ft.)

10.3 7.7 12.1 12.4 9.1 12.7 9.6 13.8 14.3 10.4 12.8 12.8 13.7 13.7 14.6 17.2 15.2 16.5

(m)

3.1 2.3 3.7 3.8 2.8 3.9 2.9 4.2 4.4 3.2 3.9 3.9 4.2 4.2 4.5 5.2 4.6 5.0

(ft.)

7.4 4.8 9.6 9.4 6.3 9.8 6.7 11.3 11.7 7.8 10.0 10.4 11.1 11.1 12.2 14.3 12.3 12.9

(m)

2.3 1.5 2.9 2.9 1.9 3 2 3.4 3.6 2.4 3.0 3.2 3.4 3.4 3.7 4.4 3.7 3.9

(Deg)

2

o

(Lbs)

500 350 500 600 500 750 600 N/A 1,000 850 1,150 1,250 1,600 2,000 2,700 3,400 3,200 4,000

(Lbs)

6,000 6,000 6,000 6,000 6,000 6,000 6,000 6,000 6,000 6,000 8,000 8,000 8,000

(Lbs)

8,000 8,000 8,000 8,000 8,000 8,000 8,000 8,000 8,000 8,000 11,000 11,000 11,000

(Lbs)

10,000 10,000 15,000 15,000 20,000 20,000 20,000 20,000 30,000 30,000 30,000 36,000 40,000

(Lbs)

N/A N/A 20,000 20,000 25,000 25,000 25,000 25,000 42,000 42,000 42,000 N/A N/A

3o 1.75o 2o 3o 2

o

**Note: Length & weights are approximate

4 4¼ 4½ 5¼ 5½ 6 6¼ 7 8 9 10 11½

3o 2o 2o 3o 2.5o 2.5o 2.7o 3o 3

o

W H I P S T O C K

3o 3.5o 3.75

o

Mechanical Specifications for Mechanical Bottom Trip Multi Trip Hinged Whipstocks

(In.) 3½ 4

Whipstock O.D. (mm) 88.9 101.6 108 114.3 133.4 139.7 152.4 158.8 177.8 203.2 228.6 254 292.1

(In.) 4½ 5 5½ 5½ 6 /8 7 75/8 75/8 85/8 95/8 10¾ 11¾

5

Casing Size (mm) 114.3 127 139.7 139.7 168.3 177.8 193.7 193.7 219.1 244.5 273.1 298.5 339.7

Dim. "A" Total Length (m) (ft.) 16.0 N/A 17.1 17.6 19.0 19.5 18.0 18.0 N/A 18.7 21.2 N/A N/A 4.9 N/A 5.2 4.0 5.8 5.9 5.5 5.5 N/A 5.7 6.7 N/A N/A

Dim. "B" Top of Slip (m) (ft.) 12.9 N/A 13.1 13.5 14.7 15.2 13.7 13.7 N/A 14.5 15.6 N/A N/A 3.9 N/A 4.0 4.1 4.5 4.6 4.2 4.2 N/A 4.4 4.8 N/A N/A

Dim. "C" Taper Length (m) (ft.) 9.8 N/A 9.4 9.8 11.3 11.8 10.0 10.4 N/A 11.1 12.5 N/A N/A 2.9 N/A 2.9 3.0 3.4 3.6 3.0 3.2 N/A 3.4 3.8 N/A N/A

Dim. D" Slide Angle (Deg) 1.5o N/A 2o 2o 2o 2o 2.5o 2.5o N/A 3o 3o N/A N/A

Weight (Lbs) 500 N/A 600 750 N/A 1,000 1,150 1,250 N/A 2,000 2,800 N/A N/A

Roll Pin Shear Value

Slip Shear Value

Shear Bolt Shear Value

Heavy Shear Bolt Value

(Lbs) 6,000 N/A 6,000 6,000 6,000 6,000 6,000 6,000 N/A 6,000 8,000 N/A N/A

(Lbs) 8,000 N/A 8,000 8,000 8,000 8,000 8,000 8,000 N/A 8,000 11,000 N/A N/A

(Lbs) 10,000 N/A 10,000 15,000 20,000 20,000 20,000 20,000 N/A 30,000 30,000 N/A N/A

(Lbs) N/A N/A 20,000 20,000 25,000 25,000 25,000 25,000 N/A 42,000 42,000 N/A N/A

**Note: Length & weights are approximate

4¼ 4½ 5¼ 5½ 6 6¼ 7 8 9 10 11 ½

W H I P S T O C K

13 /8

3

10.5

10.6

Condensed Running Procedures for Packer Type Whipstocks

- Run Gauge Mill and Casing Scraper - Set Packer at Required Exit Depth - Survey Packer Orientation Key Direction - Run Whipstock and Starting Mill - Apply Weight to Set Whipstock in Packer and Shear Starting Mill - Make Cut Out with Starting Mill - Pull Out to Change Milling Assemblies - Run in with Window Mill and Watermelon Mill - Complete Milling Window and Make Desired Start Into Formation - Pull Out with Mills and Run Drilling Assembly

W H I P S T O C K

Condensed Running Procedures for Packer Type Whipstocks

W H I P S T O C K

10.7

Mechanical Specifications for Stiff Packer Type Whipstocks

10.8

Whipstock O.D.

(In.)

3½ 4

Casing Size

(In.)

4½ 5 5½

Dim. "A" Total Length

(mm)

114.3 127 139.7

Dim. "B" Taper Length

(ft.)

7.4 4.8 9.6 9.4 6.3 9.8 6.7 11.3 11.7 7.8 10.0 10.4 11.1 11.1 12.2 14.3 12.3 12.9

Dim. "C" SlideAngle

(Deg)

2o 3o 1.75o 2o 3o 2o 3o 2

o

Weight

(Lbs)

350 300 400 525 425 650 500 N/A 900 750 900 1,050 1,300 1,700 2,100 N/A N/A N/A

(mm)

88.9 101.6 108

(ft.)

9.8 7.1 11.9 N/A N/A 12.1 8.9 N/A 14.5 10.5 N/A N/A N/A 13.2 15.1 N/A N/A N/A

(m)

3.0 2.2 3.6 N/A N/A 3.7 2.7 N/A 4.4 3.2 N/A N/A N/A 4.0 4.6 N/A N/A N/A

(m)

2.3 1.5 2.9 2.9 1.9 3.0 2.0 3.4 3.6 2.4 3.0 3.2 3.4 3.4 3.7 4.4 3.7 3.9

Shear Bolt Shear Value (Lbs)

10,000 10,000 15,000

Heavy Shear Bolt Value (Lbs)

N/A N/A 20,000

**Note: Length & weights are approximate

4½ 5¼ 5½ 6 6¼ 7 8 9 10 11½

114.3 133.4 139.7 152.4 158.8 177.8 203.2 228.6 254 292.1

5½ 6 /8 7 7 5/ 8 7 5/ 8 8 5/ 8 9 5/ 8 10¾ 11¾ 13 /8

3 5

139.7 168.3 177.8 193.7 193.7 219.1 244.5 273.1 298.5 339.7

15,000 20,000 20,000 20,000 20,000 30,000 30,000 30,000 36,000 40,000

20,000 25,000 25,000 25,000 25,000 42,000 42,000 42,000 N/A N/A

2o 3o 2.5o 2.5o 2.7o 3o 3o 3o 3.5o 3.75

o

W H I P S T O C K

Mechanical Specifications for Hinged Packer Type Whipstocks

Whipstock O.D.

(In.)

3½ 4

Casing Size

(In.)

4½ 5 5½ 5½ 65/8 7 7 /8 75/8 75/8 75/8 10¾ 11¾ 133/8

5

Dim. "A" Total Length

(mm)

114.3 127 139.7 139.7 168.3 177.8 193.7 193.7 219.1 244.5 273.1 298.5 339.7

Dim. "B" Taper Length

(ft.)

9.8 N/A 9.4 9.8 11.3 11.8 10.0 10.4 N/A 11.1 12.5 N/A N/A

Dim. "C" Slide Angle

(Deg)

1.5o N/A 2

o

Weight

(Lbs)

375 N/A 525 650 N/A 900

(mm)

88.9 101.6 108 114.3 133.4 139.7 152.4 158.8 177.8 203.2 228.6 254 292.1

(ft.)

12.4 N/A 12.4 12.9 N/A 15.3 N/A N/A N/A 14.0 16.2 N/A N/A

(m)

3.8 N/A 3.8 3.9 N/A 4.7 N/A N/A N/A 4.3 4.9 N/A N/A

(m)

3.0 N/A 2.9 3.0 3.4 3.6 3.0 3.2 N/A 3.4 3.8 N/A N/A

Shear Bolt Shear Value (Lbs)

10,000 N/A 15,000 15,000 20,000 20,000 20,000 20,000 N/A 30,000 30,000 N/A N/A

Heavy Shear Bolt Value (Lbs)

N/A N/A 20,000 20,000 25,000 25,000 25,000 25,000 N/A 42,000 42,000 N/A N/A

**Note: Length & weights are approximate

4¼ 4½ 5¼ 5½ 6 6¼ 7 8 9 10 11½

2o 2o 2o 2.5

o

W H I P S T O C K

900 1,050 N/A 1,700 2,100 N/A N/A

2.5o N/A 3o 3o N/A N/A

10.9

10.10

Condensed Running Procedures for Open Hole/Cement Type Whipstocks

-

Run in With Anchor Pipe and Whipstock Made Up on Running Tool Survey Assembly to Desired Direction (If Required) Pump and Displace Cement Plug to Cover Anchor Pipe and - Whipstock Assembly Set Down to Shear Off Running Tool Circulate Cement Off Top of Whipstock Pull Out with Running Tools Run in with Drilling Assembly and Drill Off Whipstock

W H I P S T O C K

Condensed Running Procedures for Open Hole/Cement Type Whipstocks

W H I P S T O C K

10.11

10.12

Open Hole/Cement Type Whipstocks

Whipstock O.D.

Casing Size

Dim. "A" Total Length

Dim. "B" Length to Top of Slip

Dim. "C" Taper Length

Dim. D" Slide Angle

Weight

Roll Pin Shear Value

Slip Shear Value

Shear Bolt Shear Value

Heavy Shear Bolt Shear Value

(In.)

5½ 8

(mm)

139.7 203.2

(In.)

7 9b

(mm)

177.8 244.5

(ft.)

11.2 13.9

(m)

3.4 4.2

(ft.)

7.5 10.2

(m)

2.3 3.1

(ft.)

5.1 7.3

(m)

1.5 2.2

(Deg)

5o 5

o

(Lbs)

N/A N/A

(Lbs)

N/A N/A

(Lbs)

N/A N/A

(Lbs)

19,000 25,600

(Lbs)

N/A N/A

W H I P S T O C K

**Note: Length & weights are approximate

W/S FISHING DIMENSIONS W H I P S T O C K

SIZE 3 1/2 4 4 1/4 4 1/2 5 1/4 5 1/2 6

A 3.35 3.68 4.12 4.20 5.12 5.28 5.81

B 3.46 3.86 4.25 4.45 5.24 5.38 5.98

C 3.50 3.88 4.28 4.49 5.25 5.48 6.00

SIZE 6 1/4 7 8 9 10 11 1/2

A 5.81 6.00 7.31 8.30 9.30 9.96

B 5.98 6.375 7.68 8.48 9.48 10.66

C 6.00 6.50 7.74 8.48 9.48 10.70

2001/09/10 A.H.KORNER CONCAVE END FISH DIMENSIONS

10.13

11.1

Ackerman International Corp. is an American company which supplies a variety of drilling bits and other drilling equipment . Ackerman International has a significant stock of rental equipment as well.

Specific goods include: ACKERMAN INTERNATIONAL Drill Bits Drill Pipe Heavy Weight Drill Pipe Drill Collars Kellys Kelly Drive Bushings Slips Elevators Tongs

Locations:

ACKERMAN INTERNATIONAL

Ackerman International Corp. 15879 Highway 1 North P.O. Box 951 Mt. Carmel, IL 62863 Ph: (618) 262-8656 Fx: (618) 263-4182 Website: www.ackermaninternational.com e-mail: [email protected]

Ackerman International Corp. 27 Wood County Industrial Park P.O. Box 4301 Parkersburg, WV 26104 Ph: (304) 464-0102 Fx: (304) 464-0105 e-mail: [email protected]

Ackerman International Corp. Other Equipment Yard Tomball, TX

11.2

12.1

CanFish Services Inc. is a Canadian company that provides specialty oilfield rental, sales and service to Canadian and International oil and gas producers. CanFish Services core business is the provision of Fishing Tool Services including manufacture and sale of fishing tool equipment, engineering and planning, well site supervision and rental of all types of Fishing Tools and Fishing Tool Services in conjunction with Wireline Pipe Recovery Services.

Specific services include:

Open Hole Fishing ServicesWork Over Planning and Execution Remedial Work Over Execution Whipstock and Sidetrack Services One Trip Whipstocks Washover Burning Shoes Casing Cutting and Retrieval Spears Milling Tools Economills High Performance Pilot Mills General Rental Tools Casing Rollers Complete Wireline Pipe Recovery Services Back Off Equipment Chemical Cutting Cased Hole Fishing Services Packer Milling an Retrieving Coiled Tubing Fishing Retrievable Whipstocks Washover Pipe and Accessories Casing Patches Over-shots Taper Taps and Die Collars Junk Mills Taper Mills Section Mills Casing Repair Driving Swages Free Point Tools 1 l/16" - 1.3/8" Jet Cutting

C A N F I S H S E R V I C E

S

General Wireline Services CanFish Services Inc. has approximately fifteen Fishing Tool Supervisors on staff with an average minimum of eighteen years direct field experience. We also have several Fishing Tool Supervisors with significant international experience working onshore and offshore in the North Sea, Middle East and South East Asia.

Locations

CanFish Services Ltd Bay 1 1804 4 St Nisku, Alberta Ph: (780) 955-8998 Fx: (780) 955-8944 CanFish Services Inc 10903 78 Ave. Grande Prairie, Alberta Ph: (780) 532-7713 Fx: (780) 513-4161 CanFish Services Ltd Suite 1410 Calgary, Alberta Ph: (403) 231-9140 Fx: (403) 231-9140 CanFish Services Inc 3701-37 St. Whitecourt, Alberta Ph: (780) 778-2777 Fx: (780) 778-5113

C A N F I S H S E R V I C E S

Lloydminister Agent: Tryton Tools Services Inc 37093 - 56b Ave. Lloydminister, Alberta Ph: (780) 875-0800 Fx: (780) 875-8731

12.2

TABLE FOR SHIPPING PURPOSES ONLY

Length Motor Size ft 1 11/16 2 1/16 2 3/8 2 7/8 3 1/8 3 3/8 3 3/4 4 3/4 Short 5 S3 5 10.4 9.3 13.6 17.3 15.3 23.5 18.8 20.5 25.3 27.0 m 3.2 2.8 4.1 5.3 4.7 7.2 5.7 6.2 7.7 8.2 lb 40 50 150 275 300 500 500 900 1100 1100 kg 18 23 68 125 136 227 227 408 499 499 5 1/2 6 1/2 6 1/2 S3 6 3/4 7 1/2 8 8 S3 9 5/8 S3 9 5/8 11 1/4 Weight Motor Size ft 22.8 31.4 30.0 31.4 26.0 29.0 29.0 31.2 31.4 34.0 m 6.9 9.6 9.1 9.6 7.9 8.8 8.8 9.5 9.6 10.4 lb 1300 2000 2000 2000 3500 3800 3800 5600 5600 6500 kg 590 907 907 907 1588 1724 1724 2540 2540 2948 Length Weight

13.1

M O T O R S

TORQUE CONNECTIONS

MOTOR SIZE

CONNECTION

2.375 & 2.875 & Short 1 11/16 2 1/16 Short 200 300 120 500 600 200 500 1000 250 1000 2000 500

3 1/8 1200 3000 1000

3 3/8 1500 3500 1250

3 3/4 1500 4500 1500

4.75 & Short 4000 10000 3000 200

shor onl t y

5 4000 4000

5 1/2 4500 4500

6 1/2 6500 6000

6 1/2 Short. 6500 11000

6 3/4 6500 6000

7 1/2

8& 8" Short Series 3 12000 40000 12000

9 5/8

9 5/8 Short

11 1/4

End Cap Body Connection Mandrel To Washpipe Preload Nut D.S. To Washpipe D.S. To Rotor Adj. Mandrel Stab/Thread Protector

12000 12000 10000 12000 400

shor onl t y

25000 25000 60000 60000 60000 75000 35000 50000 400

12000 15000 22000 22000 22000 35000 40000

100 100

150 150

200 200 800

400 400 2000

800 800 2000

1000 1000 3500

1000 1000 3500 3500

2500 2500 10000 8000

3500 3500

4000 4000

5500 5500

10000 5500

5500 5500

9000 9000

11000 11000

11000 11000 40000 30000

18000 25000 40000 25000 25000 40000 60000 60000 75000 38000 38000 75000

T O R Q U E S

12000 13000 22000 22000 22000 35000 40000 10000 12000 12000 12000 24000 30000

13.2

BUILD RATES

DEGREES per 100 ft

Stab.

13.3

N N N N N N N N N N Y Y Y

DHM Size (in) 2 7/8

Hole Size (in) 3 3/4 4 1/8 3 7/8 4 1/8 4 1.2 4 3/4 5 7/8 6 6 1/8 6 1/4 6 1/2 6 3/4 7 7/8

1.15° 10.9 6.0 12.9 8.0 2.3 10.3

1.50° 18.0 12.2 21.5 15.7 8.7 17.3 3.6 13.8 12.7 11.6 11.4 11.7 10.4

1.83° 25.1 18.6 30.1 23.7 15.7 24.3 8.5 19.0 17.8 16.6 14.0 14.3 12.6

2.12° 31.6 24.7 38.0 31.0 22.2 30.7 13.3 23.8 22.4 21.1 16.2 16.5 14.6

2.38° 37.5 30.1 45.2 37.9 28.4 36.5 18.0 28.1 26.7 25.4 18.2 18.5 16.3

2.60° 42.6 34.9 51.4 43.7 33.9 41.5 22.1 31.8 30.3 29.0 19.8 20.1 17.8

2.77° 46.5 38.7 56.2 48.4 38.2 45.4 25.4 34.7 33.2 31.8 21.1 21.4 19.0

2.90° 49.5 41.6 59.9 51.9 41.6 48.4 27.9 36.9 35.5 34.0 22.1 22.4 19.9

3.00° 51.3 43.8 62.7 54.7 44.1 50.8 29.9 38.6 37.2 35.6 22.9 23.2 20.5

3 1/8

3 3/4

B U I L D R A T E S

4 3/4 S

8.5 7.6 6.7 8.8 9.1 8.0

5 5 5 1/2

Y Y Y Y Y Y Y Y Y Y Y Y Y Y

Tool Size (in) 5 1/2 6 1/2 S 6 3/4 S 7 1/2

Hole Size (in) 7 7/8 7 7/8 8 1/2 9 7/8 10 5/8 10 5/8 12 1/4 13 1/2 13 1/2 14 3/4 17 1/2 14 3/4 17 1/2 20

1.15 8.0 7.7 8.3 5.1 4.9 5.4 5.1 3.5 3.0 2.8 2.4 3.2 2.3 0.6

1.50 10.4 9.9 10.7 7.2 6.9 7.6 7.1 5.5 4.7 4.5 3.9 4.4 3.7 1.8

1.83 12.6 12.0 13.1 9.2 8.8 9.7 9.0 7.4 6.3 6.0 5.3 5.6 5.0 3.0

2.12 14.6 13.9 15.2 11.0 10.5 11.5 10.7 9.1 7.7 7.4 6.5 6.6 6.1 4.0

2.38 16.3 15.7 17.0 12.5 12.0 13.1 12.2 10.6 9.0 8.7 7.6 7.6 7.1 5.0

2.60 17.8 17.0 18.6 13.8 13.3 14.5 13.4 11.9 10.0 9.7 8.5 8.3 7.9 5.7

2.77 19.0 18.1 19.8 14.9 14.2 15.6 14.4 12.9 10.9 10.5 9.2 8.9 8.6 6.3

2.90 19.9 19.0 20.7 15.7 15.0 16.4 15.2 13.6 11.5 11.1 9.8 9.4 9.1 6.8

3.00 20.5 19.6 21.4 16.3 15.6 17.0 15.8 14.2 12.0 11.6 10.2 9.8 9.5 7.2

B U I L D R A T E S

8 SH

9 5/8

11 1/4

Note: This compilation of expected build rates is based on the most commonly used DHM sizes in the various hole sizes. For combinations other that those listed here, contact your nearest Black Max representative. DHM sizes from 2 7/8 through 4 3/4S are figured with no-stabilized assemblies. DHM sizes from 5" through 11 1/4" take into account the use of stabilizers. Formation competence, or lack thereof, may affect the accuracy of the above predictions.

13.4

13.5

FIXED HOUSING

DHM (in) 2 1/16 2 3/8 Hole Size (in) 1.25° 2 7/8 12.3 3 1/8 15.2 1.5° 1.5 21.1 2.0° 32.9 33.5 3.0° 63.4 59.5

B U I L D R

Note: This compilation of expected build rates is based on the most commonly used DHM sizes in the various hole sizes. For combinations other that those listed here, contact your nearest Black Max representative. DHM sizes from 2 7/8 through 4 3/4S are figured with no-stabilized assemblies. DHM sizes from 5" through 11 1/4" take into account the use of stabilizers. Formation competence, or lack thereof, may affect the accuracy of the above predictions.

A T E S

Tool Size 1 11/16" 2 1/16" 2 3/8" Series 3 2 7/8" Series 3 3 1/8" 3 3/4" 4 1/8" 4 3/4" 4 3/4" Series 3 5" 5" Series 3 5 1/2"

"A" "A "

Piston Depth (In) "A" 9/16" 1" 1" 1 9/16" 15/16" 1 1/8" 1 5/8" 2 1/16" 2 1/8" 1 3/4"" 1 3/4"" 2 1/4"

Tool Size 6" 61/4" 6 1/2" 6 1/2" Series 3 6 3/4" 7 1/2" 7 1/2" Series 3 8" 8" Series 3 9 5/8" Series 3 11 1/4"

Piston Depth (In) A 2 1/16" 1 5/8" 1 5/8" 1 5/8" 1 5/8" 2 3/4" 2 3/4" 3 1/2" 1 15/16"" 3" 3 7/8"

P I S T O N D E P T H S

13.6

ADJUSTABLE BENT HOUSING

13.7

S E T T I N G P R O C E D U R E

Settings - 3 Deg. 0° .39° .78° 1.15° 1.50° 1.83° 2.12° 2.38° 2.60° 2.77° 2.90° 2.97° 3.00°

Tool Size 2 3/8 IN. (61 mm) 2 7/8 in. (73 mm) 3 1/8 in. (79 mm) 3 1/2 in. (89 mm) 3 3/4 in. (95 mm) 5 in. (127 mm) 5 1/2 in. (140 mm) 6 1/2 in. (165 mm) 6 3/4 in. (171 mm) 8 in. (203 mm) 9 5/8 in. (245 mm) 11 1/4 in. (285 mm)

1. 2. 3.

Mandrel Head Torques 800 ft*lb (1,080 N*m) 2,000 ft*lb (2,700 N*m) 2,000 ft*lb (2,700 N*m) 3,500 ft*lb (4,800 N*m) 3,500 ft*lb (4,800 N*m) 12,000 ft*lb (16,270 N*m) 13,000 ft*lb (17,620 N*m) 22,000 ft*lb (29,830 N*m) 22,000 ft*lb (29,830 N*m) 40,000 ft*lb (54,230 N*m) 60,000 ft*lb (81,300 N*m) 75,000 ft*lb (101,686 N*m)

S E T T I N G P R O C E D U R E

CAUTION! Whenever backing off mandrel head, or making up mandrel head to proper torque, always pull on tongs that are on mandrel head. Make sure teeth are in alignment and fully engaged before mandrel head is torqued. Ensure all shoulder faces are free from dirt/debris and dope all exposed threads and faces before making up. DO NOT ROTATE OVER 1.50° ACTUAL

13.8

13.9

F I S H I N G D I M E N S I O N S

Motor Lobes Stages A 1 11/16 1-2 3 1 11/16 5-6 3 1 11/16 5-6 5 2 1/16 2 1/16 2 1/16 1-2 4-5 4-5 2 1 2 -

B 18 18 18 24 24 24

C -

D -

E -

F G 30 80 30 92 30 126

H J1 J2 84 - 90 95 - 101 129 - 135 105 82 111

K -

L 1.67 1.67 1.67 2.06 2.06 2.06

M 1.67 1.67 1.67 2.06 2.06 2.06

N -

P 1.67 1.67 1.67 2.06 2.06 2.06

Q 1.24 1.24 1.24 1.40 1.40 1.40

R 1.67 1.67 1.67 2.06 2.06 2.06

S 0.56 0.56 0.56 0.62 1.27 1.27

T 1.67 1.67 1.67 2.06 2.06 2.06

35 95 99 35 72 76 35 101 105

Motor 2 3/8 2 3/8 2 3/8 2 3/8 2 2 2 2 2 7/8 7/8 7/8 7/8 7/8

Lobes Stages A 1-2 7 2-3 4 4-5 3 5-6 2.5 1-2 2-3 3-4 5-6 7-8 7-8 7-8 7-8 1-2 4-5 7-8 7-8 9-10 5.2 7 4 3.3 2.5 2.5 3 4 5 5 2.5 3 3 -

B 27 27 27 27 30 30 30 30 30 22 22 22 40 40 40 40 40

C 34 34 34 34 38 38 38 38 38 29 29 29 49 49 49 49 49

D 36 36 36 36 40 40 40 40 40 31 31 31 52 52 52 52 52

E 40 40 40 40 47 47 47 47 47 35 35 35 56 56 56 56 56

F 47 47 47 47 53 53 53 53 53

G 158 132 101 101 162 145 109 109 102

H J1 J2 164 - 170 137 - 143 107 - 113 107 - 113 177 150 113 113 105 259 200 177 200 137 184 157 120 120 112 103 157 125 258 199 176 199 136

K -

L 2.37 2.37 2.37 2.37 2.87 2.87 2.87 2.87 2.87 3.12 3.12 3.12 3.38 3.38 3.38 3.38 3.38

M 2.37 2.37 2.37 2.37 2.87 2.87 2.87 2.87 2.87 3.12 3.12 3.12 3.62 3.62 3.62 3.62 3.62

N 2.62 2.62 2.62 2.62 3.03 3.03 3.03 3.03 3.03 3.25 3.25 3.25 3.87 3.87 3.87 3.87 3.87

P 2.37 2.37 2.37 2.37 2.93 2.93 2.93 2.93 2.93 3.12 3.12 3.12 3.62 3.62 3.62 3.62 3.62

Q 1.47 1.47 1.47 1.47 2.01 2.01 2.01 2.01 2.01 2.19 2.19 2.19 2.46 2.46 2.46 2.46 2.46

R 2.37 2.37 2.37 2.37 2.87 2.87 2.87 2.87 2.87 2.87 3.12 3.12 3.37 3.37 3.37 3.37 3.37

S 1.17 1.27 1.28 1.33 1.59 1.75 1.68 1.66 1.85 1.85 1.97 1.85 1.89 1.96 1.96 1.96 2.16

T 2.37 2.37 2.37 2.37 2.87 2.87 2.87 2.87 2.87 2.87 3.12 3.12 3.37 3.37 3.37 3.37 3.50

F I S H I N G D I M E N S I O N S

3 1/8 3 1/8 3 1/8 3 3 3 3 3 3/8 3/8 3/8 3/8 3/8

41 89 93 41 142 147 41 111 115 65 65 65 65 65 225 177 160 177 121 248 189 166 189 126

13.10

13.11

F I S H I N G

Motor 3 3/4 3 3/4 3 3/4 3 3/4 3 3/4 3 3/4 4 1/8 4 1/8 Lobes Stages A 4-5 5 7-8 3 9-10 2 9-10 3 4-5 3.5 7-8 2.3 6-7 7-8 3 2 B 44 44 44 44 44 44 39 39 C 53 53 53 53 53 53 D 56 56 56 56 56 56 E 60 60 60 60 60 60 58 58 F 69 69 69 69 69 69 G 164 164 93 108 182 182 H 193 193 114 130 210 210 J1 204 204 125 141 221 221 J2 199 199 120 136 216 216 236 236 K L 3.75 3.75 3.75 3.75 3.75 3.75 4.13 4.13 M 3.62 3.62 3.62 3.62 3.62 3.62 4.13 4.13 N 3.87 3.87 3.87 3.87 3.87 3.87 P 3.62 3.62 3.62 3.62 3.62 3.62 4.13 4.13 Q 2.74 2.74 2.74 2.74 2.74 2.74 2.88 2.88 R 3.37 3.37 3.37 3.37 3.75 3.75 3.87 3.87 S 1.94 1.96 2.16 2.16 2.16 2.25 2.24 2.24 T 3.37 3.37 3.50 3.50 3.75 3.75 3.88 3.88

66 221 226 66 221 226

D I M E N S I O N S

Motor Lobes Stages A 4 3/4 S3 1-2 3 4 3/4 S3 4-5 2.5 4 3/4 S3 4-5 3.5 4 3/4 S3 5-6 2 4 3/4 S3 7-8 2.2 5 5 5 5 5 5 S3 5 S3 5 S3 5 S3 5 S3 5 S3 5 S3 5 S3 1-2 4-5 4-5 5-6 7-8 1-2 4-5 4-5 5-6 6-7 7-8 7-8 7-8 3 3.5 6.3 4 2.2 3 3.5 6.3 4 6 2 2.2 3.8 22 22 22 22 22 23 23 23 23 23 23 23 23

B 36 36 36 36 36 50 50 50 50 50 50 50 50 50 50 50 50 50

C 48 48 48 48 48 62 62 62 62 62 62 62 62 62 62 62 62 62

D 52 52 52 52 52 66 66 66 66 66 66 66 66 66 66 66 66 66

E 59 59 59 59 59 73 73 73 73 73 73 73 73 73 73 73 73 73

F 67 67 67 67 67 81 81 81 81 81 81 81 81 81 81 81 81 81

G 200 140 173 134 173 216 189 270 218 189 216 189 267 214 259 252 186 257

H 210 149 189 137 189 224 203 288 221 203 224 203 288 221 266 261 203 268

J1 225 164 204 152 204 239 218 303 236 218 239 218 303 236 281 276 218 283

J2 221 160 200 148 200 233 212 297 230 212 233 212 297 230 275 270 212 277

K 5.56 5.56 5.56 5.56 5.56 5.56 5.56 5.56 5.56 5.56 5.56 5.56 5.56

L 5.10 5.10 5.10 5.10 5.10 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00

M 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00

N 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37 5.37

P 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00

Q 3.26 3.26 3.26 3.26 3.26 3.26 3.26 3.26 3.26 3.26 3.24 3.24 3.24 3.24 3.24 3.24 3.24 3.24

R 4.75 4.75 4.75 5.00 4.75 4.75 4.75 4.75 5.00 4.75 4.75 4.75 4.75 5.00 5.00 4.75 4.75 4.75

S 2.43 2.91 2.91 2.84 2.93 2.43 2.91 2.91 2.84 2.93 2.43 2.91 2.91 2.84 3.03 2.80 2.94 2.94

T 4.75 4.75 4.75 5.00 4.75 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00 5.00

F I S H I N G D I M E N S I O N S

13.12

13.13

F I S H I N G

Motor 5 1/2 5 1/2 5 1/2 6 1/4 6 1/4 6 1/4 Lobes Stages A 7-8 3 29 9-10 3.2 29 9-10 3.4 29 7-8 4-5 7-8 2.8 4.3 4.8 28 28 28 B 65 65 65 70 70 70 C 78 78 78 84 84 84 D 83 83 83 E F G H 95 103 219 233 95 103 218 230 95 103 232 237 J1 249 246 253 J2 K 245 6.25 242 6.25 249 6.25 L 5.53 5.53 5.53 6.56 6.56 6.56 M 5.53 5.53 5.53 6.56 6.56 6.56 N 5.75 5.75 5.75 6.87 6.87 6.87 P 5.53 5.53 5.53 6.75 6.75 6.75 Q 3.65 3.65 3.65 4.48 4.48 4.48 R 5.50 5.50 5.50 6.25 6.25 6.25 S 3.60 3.49 3.49 3.98 3.87 3.98 T 5.53 5.53 5.53 6.56 6.56 6.56

88 100 116 232 246 266 258 7.00 88 100 116 232 240 260 252 7.00 88 100 116 310 320 340 332 7.00

D I M E N S I O N S

Motor Lobes Stages A 6 1/4 S3 7-8 2.8 27 6 1/4 S3 4-5 4.3 27 6 1/4 S3 7-8 4.8 27 6 6 6 6 6 1/2 1/2 1/2 1/2 1/2 1-2 4-5 7-8 8-9 8-9 1-2 4-5 6-7 7-8 7-8 8-9 8-9 4-5 4 4.8 3 2 3 4 4.8 5 2 3 2 3 7 28 28 28 28 28 27 27 27 27 27 27 27 27

B 53 53 53 70 70 70 70 70 53 53 53 53 53 53 53 53

C 67 67 67 84 84 84 84 84 67 67 67 67 67 67 67 67

D 71 71 71 88 88 88 88 88 71 71 71 71 71 71 71 71

E 78 78 78 100 100 100 100 100 78 78 78 78 78 78 78 78

F G H J1 94 211 224 244 94 211 218 238 94 289 298 318 116 116 116 116 116 94 94 94 94 94 94 94 94 295 257 234 196 234 274 236 288 241 213 175 213 297 302 270 247 203 241 280 247 294 247 225 181 219 303 322 290 267 223 261 300 267 314 267 245 201 239 323

J2 K 236 7.13 230 7.13 310 7.13 314 282 259 215 253 292 259 306 259 237 193 231 315 7.13 7.13 7.13 7.13 7.13 7.13 7.13 7.13 7.13 7.13 7.13 7.13 7.13

L 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56

M 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56

N 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87 6.87

P 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75 6.75

Q 3.65 3.65 3.65 3.53 3.53 3.53 3.53 3.53 3.65 3.65 3.65 3.65 3.65 3.65 3.65 3.65

R 6.25 6.25 6.25 6.50 6.50 6.50 6.50 6.50 6.50 6.50 6.50 6.50 6.50 6.50 6.50 6.50

S 3.98 3.87 3.98 3.43 4.22 4.52 4.60 4.60 3.43 4.22 4.32 4.30 4.52 4.60 4.60 4.22

T 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56 6.56

F I S H I N G D I M E N S I O N S

6 1/2 S3 6 1/2 S3 6 1/2 S3 6 1/2 S3 6 1/2 S3 6 1/2 S3 6 1/2 S3 6 1/2 S3

13.14

13.15

F I S H I N G

Motor 6 3/4 6 3/4 6 3/4 6 3/4 6 3/4 7 1/2 7 1/2 Lobes Stages A 1-2 4 28 4-5 4.8 28 7-8 3 28 8-9 2 28 8-9 3 28 4-5 7-8 3.6 3 33 33 B 71 71 71 71 71 74 74 C 85 85 85 85 85 90 90 D 89 89 89 89 89 E 101 101 101 101 101 F 117 117 117 117 117 G 281 257 234 196 234 H 292 271 248 204 242 J1 312 291 268 224 262 J2 304 283 260 216 254 K 7.13 7.13 7.13 7.13 7.13 L 6.75 6.75 6.75 6.75 6.75 7.50 7.50 M 6.75 6.75 6.75 6.75 6.75 7.50 7.50 N 6.87 6.87 6.87 6.87 6.87 7.75 7.75 P 6.75 6.75 6.75 6.75 6.75 7.50 7.50 Q 3.50 3.50 3.50 3.50 3.50 4.89 4.89 R 6.75 6.75 6.75 6.75 6.75 8.00 8.00 S 3.82 4.22 4.52 4.60 4.60 4.94 5.19 T 6.75 6.75 6.75 6.75 6.75 7.50 7.50

95 105 120 274 288 308 308 8.50 95 105 120 274 288 308 308 8.50

D I M E N S I O N S

Motor 8 S3 8 S3 8 S3 8 S3 8 S3 8 S3 9 5/8 S3 9 5/8 S3 9 5/8 S3 9 5/8 S3 9 5/8 S3 9 5/8 S3 9 5/8 S3 11 1/4

Lobes Stages A 1-2 4 38 4-5 3.6 38 7-8 3 38 8-9 4 38 6-7 4 38 7-8 2 38 2-3 3-4 3-4 4-5 5-6 6-7 6-7 3-4 7.5 4.5 6 4 3 4 5 3.6 39 39 39 39 39 39 39 -

B 57 57 57 57 57 57 69 69 69 69 69 69 69

C 72 72 72 72 72 72 91 91 91 91 91 91 91

D 79 79 79 79 79 79 98 98 98 98 98 98 98

E 92 92 92 92 92 92 107 107 107 107 107 107 107

F 103 103 103 103 103 103 124 124 124 124 124 124 124

G 281 256 256 262 301 256 326 291 343 268 291 323 326

H 290 271 271 273 309 271 332 302 352 278 302 330 332

J1 310 291 291 293 329 291 362 332 382 308 332 360 362 -

J2 304 285 285 287 323 285 344 314 364 290 314 342 344 365

K 9.00 9.00 9.00 9.00 9.00 9.00 10.75 10.75 10.75 10.75 10.75 10.75 10.75 -

L 8.03 8.03 8.03 8.03 8.03 8.03 9.63 9.63 9.63 9.63 9.63 9.63 9.63

M 8.03 8.03 8.03 8.03 8.03 8.03 9.62 9.62 9.62 9.62 9.62 9.62 9.62

N 8.50 8.50 8.50 8.50 8.50 8.50 9.87 9.87 9.87 9.87 9.87 9.87 9.87

P 8.03 8.03 8.03 8.03 8.03 8.03 9.62 9.62 9.62 9.62 9.62 9.62 9.62

Q 4.89 4.89 4.89 4.89 4.89 4.89 6.81 6.81 6.81 6.81 6.81 6.81 6.81

R 8.00 8.00 8.00 8.00 8.00 8.00 9.63 9.62 9.63 9.62 9.63 8.00 9.63

S 4.36 4.94 5.19 5.46 4.96 4.92 6.27 5.98 5.98 6.22 6.24 4.96 6.40

T 8.03 8.03 8.03 8.03 8.03 8.03 9.62 9.62 9.62 9.62 9.62 9.62 9.62

F I S H I N G D I M E N S I O N S

76 104 113 124 143 335 348

11.25 11.25 11.75 11.25 7.73 11.25 6.97 11.25

13.16

Casing Dimensions and Bit Clearances

(dimensions in in. unless noted otherwise) OD

13.17

ID OD Drift Bit Size

6 5 5 5 5 6 6 6 6 6 5 5 5 6 6 6 6 6 6 7/8 3/4 5/8 3/8 3/8 1/4 1/8 1/8 7/8 7/8 3/4 3/4 3/4 3/4 3/4 5/8 3/8

Wt. (lb/ft)

9.5 11.6 13.5 15.1 11.5 13.0 15.0 18.0 13.0 14.0 15.5 17.0 20.0 23.0 15.0 18.0 20.0 23.0 26.0

Wall

ID

OD

Drift

Bit Size

3 3 3 3 4 4 4 4 4 4 4 4 4 4 5 5 5 4 4 7/8 7/8 3/4 5/8 1/4 1/4 1/4 1/8 3/4 3/4 3/4 3/4 5/8 1/2 3/8 1/8 1/8 7/8 7/8

Bit Clearance Size

3.875 3.875 3.750 3.625 4.250 4.250 4.250 4.125 4.750 4.750 4.750 4.750 4.625 4.500 5.375 5.125 5.125 4.875 4.875 0.090 0.000 0.045 0.076 0.185 0.119 0.033 0.026 0.169 0.137 0.075 0.017 0.028 0.045 0.024 0.174 0.102 0.240 0.132

OD

6 5/8

Wt. (lb/ft)

17.0 20.0 24.0 28.0 32.0 17.0 20.0 23.0 26.0 29.0 32.0 35.0 38.0 20.0 24.0 26.4 29.7 33.7 39.0

Wall

Bit Size

6.000 5.875 5.750 5.625 5.375 6.375 6.250 6.125 6.125 6.000 5.875 5.875 5.750 6.750 6.750 6.750 6.750 6.625 6.375

Clearance

0.205 0.250 0.290 0.337 0.220 0.253 0.296 0.362 0.228 0.244 0.275 0.304 0.361 0.415 0.238 0.288 0.324 0.380 0.434

4.090 4.000 3.920 3.826 4.560 4.494 4.408 4.276 5.044 5.012 4.950 4.892 4.778 4.670 5.524 5.425 5.352 5.240 5.132

5.000 5.000 5.000 5.000 5.563 5.563 5.563 5.563 6.050 6.050 6.050 6.050 6.050 6.050 6.625 6.625 6.625 6.625 6.625

3.965 3.875 3.795 3.701 4.435 4.369 4.283 4.151 4.919 4.887 4.825 4.767 4.653 4.545 5.399 5.299 5.227 5.115 5.007

5

0.245 0.288 0.352 0.417 0.475 0.231 0.272 0.317 0.362 0.408 0.453 0.498 0.540 0.250 0.300 0.328 0.375 0.430 0.500

6.135 6.049 5.921 5.791 5.675 6.538 6.456 6.366 6.276 6.184 6.094 6.004 5.920 7.125 7.025 6.969 6.875 6.765 6.625

7.390 7.390 7.390 7.390 7.390 7.656 7.656 7.656 7.656 7.656 7.656 7.656 7.656 8.500 8.500 8.500 8.500 8.500 8.500

6.010 5.924 5.796 5.666 5.550 6.413 6.331 6.241 6.151 6.059 5.969 5.879 5.795 7.000 6.900 6.844 6.750 6.640 6.500

0.010 0.049 0.046 0.041 0.175 0.038 0.081 0.116 0.026 0.059 0.094 0.004 0.045 0.250 0.150 0.094 0.000 0.015 0.125

7

C A S I N G D I M E N S I O N S

7 5/8

6

Casing Dimensions and Bit Clearances

(dimensions in in. unless noted otherwise) OD

8 5/8 24.0 28.0 32.0 36.0 40.0 44.0 49.0 9 5/8 29.3 32.3 36.0 40.0 43.5 47.0 53.5 10 3/4 32.75 40.50 45.50 51.00 55.50 60.70 65.70 0.279 0.350 0.400 0.450 0.495 0.545 0.595 10.192 10.050 9.950 9.850 9.760 9.660 9.560 11.750 11.750 11.750 11.750 11.750 11.750 11.750 10.036 9.894 9.794 9.694 9.604 9.504 9.404 9 9 9 9 9 9 9 7/8 7/8 3/4 5/8 9.875 9.875 9.750 9.625 9.000 9.000 9.000 0.161 0.019 0.044 0.069 0.604 0.504 0.404 20 94.00 0.438 19.124 21.000 18.936 17 1/2 17.500 1.436 0.281 0.312 0.352 0.395 0.435 0.472 0.545 9.063 9.001 8.921 8.835 8.755 8.681 8.535 10.625 10.625 10.625 10.625 10.625 10.625 10.625 8.907 8.845 8.765 8.697 8.599 8.525 8.379 8 8 8 8 8 8 8 3/4 3/4 3/4 5/8 1/2 1/2 3/8 8.750 8.750 8.750 8.625 8.500 8.500 8.375 0.157 0.095 0.015 0.072 0.099 0.025 0.004 0.264 0.304 0.352 0.400 0.450 0.500 0.557 8.097 8.017 7.921 7.825 7.725 7.625 7.511 9.625 9.625 9.625 9.625 9.625 9.625 9.625 7.972 7.892 7.796 7.700 7.600 7.500 7.386 7 7 7 7 7 7 7 7/8 7/8 3/4 5/8 3/8 3/8 3/8 7.875 7.875 7.750 7.625 7.375 7.375 7.375 0.097 0.017 0.046 0.075 0.225 0.125 0.011 11 3/4 38.00 42.00 47.00 54.00 60.00 13 3/8 48.00 54.50 61.00 68.00 72.00 16 55.00 65.00 75.00 84.00 0.312 0.375 0.438 0.495 15.375 15.250 15.125 15.010 17.000 17.000 17.000 17.000 15.188 15.062 14.938 14.823 15 15 14 3/4 14 3/4 15.000 15.000 14.750 14.750 0.188 0.062 0.188 0.073 0.330 0.380 0.430 0.480 0.514 12.715 12.615 12.515 12.415 12.374 14.375 14.375 14.375 14.375 14.375 12.559 12.459 12.359 12.259 12.191 12 12 12 12 10 1/4 1/4 1/4 1/4 12.250 12.250 12.250 12.250 10.000 0.309 0.209 0.109 0.009 2.191 0.300 0.333 0.375 0.435 0.489 11.150 11.084 11.000 10.880 10.772 12.750 12.750 12.750 12.750 12.750 10.994 10.928 10.844 10.724 10.616 10 5/8 10 5/8 10 5/8 10 5/8 9 7/8 10.625 10.625 10.625 10.625 9.875 0.369 0.303 0.219 0.099 0.741

Wt. (lb/ft)

Wall

ID

OD

Drift

Bit Size

Bit Size

Clearance

OD

Wt. (lb/ft)

Wall

ID

OD

Drift

Bit Size

Bit Clearance Size

C A S I N G D I M E N S I O N S

13.18

Shouldered Connection Equivalents

Common Name Internal flush (IF) Size 2 3/8 Equivalent Connection 2 2 3 4 7/8 slimhole; NC 26 7/8 3 1/2 slimhole; NC 31 1/2 4 1/2 slimhole; NC 38 4 1/2 extra hole; NC 46 5 double streamline Common Name Double Streamline (DSL) Size 3 1/2 4 1/2 5 1/2 26 31 Extra hole (XH) (EH) 2 7/8 3 1/2 4 1/2 5 Slimhole (SH) 2 7/8 3 1/2 4 4 1/2 3 4 4 4 4 5 2 2 3 4 3 1/2 double streamline slimhole 1/2 external flush internal flush; NC 46 1/2 internal flush; NC 50 1/2 double streamline 3/8 7/8 1/2 1/2 1/2 internal flush; NC 26 internal flush; NC 31 extra hole external flush internal flush; NC 3 38 40 46 50 Equivalent Connection 2 4 4 5 2 2 2 3 3 4 4 4 4 4 4 5 5 7/8 extra hole full hole; NC 40 1/2 internal flush extra hole; NC 50 3/8 internal flush 7/8 slimhole 7/8 internal flush 1/2 slimhole 1/2 internal flush 1/2 slimhole full hole 1/2 double streamline internal flush 1/2 extra hole 1/2 internal flush extra hole 1/2 double streamline

13.19

Numbered connection (NC) Full hole (FH) 4 4 1/2 double streamline; NC 40

C O N N E C T I O N X R E F

External flush (EF)

4 1/2 3 1/2

4 slimhole extra hole

DRILL COLLAR WEIGHTS (lb/ft.)

Drill Collar O.D 2 7/8 3 3 1/8 3 1/4 3 1/2 3 3/4 4 4 1/8 4 1/4 4 1/2 4 3/4 5 5 1/4 5 1/2 5 3/4 6 1 19 21 22 26 30 35 40 43 46 51 1 1/4 18 20 22 24 29 33 39 41 44 50 1 1/2 16 18 20 22 27 32 37 39 42 48 54 61 68 75 82 90 1 3/4 2

Collar Bore (in.) 2 1/4 2 1/2 2 13/16

3

3 1/4

3 1/2

3 3/4

4

D R I L L C O L L A R

35 37 40 46 52 59 65 73 80 88

32 35 38 43 50 56 63 70 78 85

29 32 35 41 47 53 60 67 75 83

44 50 57 64 72 79

60 67 75

64 72

60 68

13.20

DRILL COLLAR WEIGHTS (lb/ft.) Drill Collar O.D.

13.21

1 6 1/4 6 1/2 6 3/4 7 7 1/4 7 1/2 7 3/4 8 8 1/4 8 1/2 9 9 1/2 9 3/4 10 11 12

1 1/4

1 1/2 98 107 116

1 3/4 96 105 114

2 94 102 111 120 130 139 150 160 171 182

Collar Bore (in.) 2 1/4 2 1/2 2 13/16 91 88 83 99 96 91 108 105 100 117 114 110 127 124 119 137 133 129 147 144 139 157 154 150 168 165 160 179 176 172 203 200 195 227 224 220 240 237 232 254 251 246 310 307 302 371 368 364

3 80 89 98 107 116 126 136 147 158 169 192 216 229 243 299 361

3 1/4 76 85 93 103 112 122 132 143 154 165 188 212 225 239 295 357

3 1/2 72 80 89 98 108 117 128 138 149 160 184 209 221 235 291 352

3 3/4

4

93 103 113 123 133 144 155 179 206 216 230 286 347

84 93 102 112 122 133 150 174 198 211 225 281 342

D R I L L C O L L A R

ANNULAR CAPACITIES

Drillpipe (in) 5 Hole Size (in) 12 1/4 9 7/8 8 3/4 8 1/2 12 1/4 9 7/8 8 1/2 7 7/8 6 3/4 6 1/2 6 1/8 4 3/4 4 1/2 4 1/8 3 7/8 Annular Capacity (gal/ft) 5.10 2.96 2.10 1.93 5.30 3.15 2.12 1.70 1.36 1.22 1.04 0.58 0.49 0.36 0.27

2 2

4 1/2

annular capacity gal/ft =

(

)

Dh - Dp 24.51

3 1/2

C A P A C I T Y

2 7/8

13.22

HOLE CAPACITIES

OD 1 1 1/8 1 1/4 1 3/8 1 1/2 1 5/8 1 3/4 1 7/8 2 2 1/8 2 1/4 2 3/8 2 1/2 2 5/8 2 3/4 2 7/8 3 3 1/8 3 1/4 3 3/8 3 1/2 3 5/8 3 3/4 3 7/8 ft3/ft 0.0055 0.0069 0.0085 0.0103 0.0123 0.0144 0.0167 0.0192 0.0218 0.0246 0.0276 0.0308 0.0341 0.0376 0.0412 0.0451 0.0491 0.0533 0.0576 0.0621 0.0668 0.0717 0.0767 0.0819 ft/ft3 183.3465 144.8664 117.3418 96.9767 81.4873 69.433 59.8682 52.1519 45.8366 40.6027 36.2166 32.5046 29.3354 26.6081 24.2442 22.1818 20.3718 18.7747 17.3582 16.0963 14.9671 13.9526 13.038 12.2104 bbl/ft 0.001 0.0012 0.0015 0.0018 0.0022 0.0026 0.003 0.0034 0.0039 0.0044 0.0049 0.0055 0.0061 0.0067 0.0073 0.008 0.0087 0.0095 0.0103 0.0111 0.0119 0.0128 0.0137 0.0146 ft/bbl 1029.4581 813.399 658.8532 544.5068 457.5369 389.854 336.1496 292.8236 257.3645 227.9769 203.3498 182.5078 164.7133 149.3998 136.1267 124.5469 114.3842 105.4165 97.4635 90.3777 84.0374 78.3416 73.2059 68.5591 gal/ft 0.0408 0.0516 0.0637 0.0771 0.0918 0.1077 0.1249 0.1434 0.1632 0.1842 0.2065 0.2301 0.255 0.2811 0.3085 0.3372 0.3672 0.3984 0.4309 0.4647 0.4998 0.5361 0.5737 0.6126 ft/gal 24.5109 19.3666 15.687 12.9644 10.8937 9.2822 8.0036 6.972 6.1277 5.428 4.8417 4.3454 3.9217 3.5571 3.2411 2.9654 2.7234 2.5099 2.3206 2.1518 2.0009 1.8653 1.743 1.6324 OD 4 4 1/8 4 1/4 4 3/8 4 1/2 4 5/8 4 3/4 4 7/8 5 5 1/8 5 1/4 5 3/8 5 1/2 5 5/8 5 3/4 5 7/8 6 6 1/8 6 1/4 6 3/8 6 1/2 6 5/8 6 3/4 6 7/8 ft3/ft 0.0873 0.0928 0.0985 0.1044 0.1104 0.1167 0.1231 0.1296 0.1364 0.1433 0.1503 0.1576 0.165 0.1726 0.1803 0.1883 0.1963 0.2046 0.2131 0.2217 0.2304 0.2394 0.2485 0.2578 ft/ft3 11.4592 10.7752 10.1507 9.5789 9.0541 8.5713 8.1262 7.7148 7.3339 6.9805 6.652 6.3462 6.061 5.7947 5.5455 5.312 5.093 4.8872 4.6937 4.5114 4.3396 4.1773 4.0241 3.8791 bbl/ft 0.0155 0.0165 0.0175 0.0186 0.0197 0.0208 0.0219 0.0231 0.0243 0.0255 0.0268 0.0281 0.0294 0.0307 0.0321 0.0335 0.035 0.0364 0.0379 0.0395 0.041 0.0426 0.0443 0.0459 ft/bbl 64.3411 60.5008 56.9942 53.7839 50.8374 48.1266 45.627 43.3171 41.1783 39.1941 37.35 35.6329 34.0317 32.536 31.1367 29.8259 28.5961 27.4408 26.3541 25.3308 24.3659 23.4551 22.5944 21.7803 gal/ft 0.6528 0.6942 0.7369 0.7809 0.8262 0.8727 0.9205 0.9696 1.02 1.0716 1.1245 1.1787 1.2341 1.2909 1.3489 1.4082 1.4687 1.5306 1.5937 1.6581 1.7237 1.7907 1.8589 1.9284 ft/gal 1.5319 1.4405 1.357 1.2806 1.2104 1.1459 1.0864 1.0314 0.9804 0.9332 0.8893 0.8484 0.8103 0.7747 0.7414 0.7101 0.6809 0.6534 0.6275 0.6031 0.5801 0.5585 0.538 0.5186

13.23

C A P A C I T Y

HOLE CAPACITIES

OD 7 7 1/8 7 1/4 7 3/8 7 1/2 7 5/8 7 3/4 7 7/8 8 8 1/8 8 1/4 8 3/8 8 1/2 8 5/8 8 3/4 8 7/8 9 9 1/8 9 1/4 9 3/8 9 1/2 9 5/8 9 3/4 9 7/8 ft3/ft 0.2673 0.2769 0.2867 0.2967 0.3068 0.3171 0.3276 0.3382 0.3491 0.3601 0.3712 0.3826 0.3941 0.4057 0.4176 0.4296 0.4418 0.4541 0.4667 0.4794 0.4922 0.5053 0.5185 0.5319 ft/ft3 3.7418 3.6116 3.4882 3.3709 3.2595 3.1535 3.0526 2.9565 2.8648 2.7773 2.6938 2.614 2.5377 2.4646 2.3947 2.3277 2.2635 2.2019 2.1428 2.0861 2.0315 1.9791 1.9287 1.8802 bbl/ft 0.0476 0.0493 0.0511 0.0528 0.0546 0.0565 0.0583 0.0602 0.0622 0.0641 0.0661 0.0681 0.0702 0.0723 0.0744 0.0765 0.0787 0.0809 0.0831 0.0854 0.0877 0.09 0.0923 0.0947 ft/bbl 21.0093 20.2786 19.5854 18.9271 18.3015 17.7063 17.1398 16.6 16.0853 15.5942 15.1252 14.6771 14.2486 13.8385 13.446 13.0699 12.7094 12.3635 12.0317 11.7129 11.4067 11.1124 10.8293 10.5569 gal/ft 1.9991 2.0711 2.1445 2.219 2.2949 2.372 2.4504 2.5301 2.6111 2.6933 2.7768 2.8616 2.9477 3.035 3.1236 3.2135 3.3047 3.3971 3.4908 3.5858 3.682 3.7796 3.8784 3.9785 ft/gal 0.5002 0.4828 0.4663 0.4506 0.4357 0.4216 0.4081 0.3952 0.383 0.3713 0.3601 0.3495 0.3393 0.3295 0.3201 0.3112 0.3026 0.2944 0.2865 0.2789 0.2716 0.2646 0.2578 0.2514 OD 10 10 1/8 10 1/4 10 3/8 10 1/2 10 5/8 10 3/4 10 7/8 11 11 1/8 11 1/4 11 3/8 11 1/2 11 5/8 11 3/4 11 7/8 12 12 1/8 12 1/4 12 3/8 12 1/2 12 5/8 12 3/4 12 7/8 ft3/ft 0.5454 0.5591 0.573 0.5871 0.6013 0.6157 0.6303 0.645 0.66 0.675 0.6903 0.7057 0.7213 0.7371 0.753 0.7691 0.7854 0.8018 0.8185 0.8353 0.8522 0.8693 0.8866 0.9041 ft/ft3 1.8335 1.7885 1.7451 1.7033 1.663 1.6241 1.5866 1.5503 1.5153 1.4814 1.4487 1.417 1.3864 1.3567 1.328 1.3002 1.2732 1.2471 1.2218 1.1972 1.1734 1.1503 1.1279 1.1061 bbl/ft 0.0971 0.0996 0.1021 0.1046 0.1071 0.1097 0.1123 0.1149 0.1175 0.1202 0.1229 0.1257 0.1285 0.1313 0.1341 0.137 0.1399 0.1428 0.1458 0.1488 0.1518 0.1548 0.1579 0.161 ft/bbl 10.2946 10.042 9.7985 9.5638 9.3375 9.1191 8.9082 8.7046 8.5079 8.3178 8.134 7.9562 7.7842 7.6177 7.4565 7.3003 7.149 7.0024 6.8602 6.7223 6.5885 6.4587 6.3327 6.2103 gal/ft 4.0798 4.1824 4.2864 4.3915 4.498 4.6057 4.7147 4.825 4.9366 5.0494 5.1635 5.2789 5.3956 5.5135 5.6327 5.7532 5.8749 5.998 6.1223 6.2479 6.3747 6.5028 6.6323 6.7629 ft/gal 0.2451 0.2391 0.2333 0.2277 0.2223 0.2171 0.2121 0.2073 0.2026 0.198 0.1937 0.1894 0.1853 0.1814 0.1775 0.1738 0.1702 0.1667 0.1633 0.1601 0.1569 0.1538 0.1508 0.1479

C A P A C I T Y

13.24

13.25 DISPLACEMENT & CAPACITY

OD (in) 2 3/8 2 7/8 3 1/2 3 1/2 4 4 1/2 4 1/2 5 5 ID (in) 1.815 2.151 2.764 2.602 3.340 3.826 3.640 4.276 4.000 NOMINAL STEEL WEIGHT DISPLACEMENT CAPACITY (gal/ft) (lb/ft) (gal/ft) 6.65 10.40 13.30 15.50 14.00 16.60 20.00 19.50 25.60 0.10542 0.16674 0.21084 0.24486 0.23100 0.27510 0.32676 0.31500 0.39144 0.13440 0.18858 0.31164 0.27636 0.45528 0.59724 0.54054 0.74592 0.65268

D R I L L P I P E

STANDARD HEAVY-WALL DRILLPIPE PROPERTIES

Nominal Size (in.) 3 1/2 4 4 1/2 5 Pipe ID (in.) 2.063 2.563 2.750 3.000 Nominal Weight (lb./ft.) 25.3 29.7 39.9 48.5 Tool Joint Connection 3 1/2 IF or NC 38 4 FH or NC 40 4 IF or NC 46 4 1/2 IF or NC 50

SPIRAL-WATETM HEAVY-WALL DRILLPIPE PROPERTIES

Nominal Size (in.) 3 1/2 4 4 1/2 5 5 1/2 6 5/8 Pipe ID (in.) 2.125 2.563 2.750 3.000 3.250 5.000 Nominal Weight (lb./ft.) 28.3 33.8 44.0 55.3 63.0 57.0 Tool Joint Connection 3 1/2 IF or NC 38 4 FH or NC 40 4 IF or NC 46 4 1/2 IF or NC 50 5 FH 6 5/8 FH

D R I L L P I P E

13.26

13.27

NOZZLE FLOW AREAS (IN2) Nozzle Size (32nds) 7 8 9 10 11 12 13 14 15 16 1 .038 .049 .062 .077 .093 .110 .130 .150 .172 .196 2 .076 .098 .124 .154 .186 .220 .260 .300 .344 .392 3 .114 .147 .186 .231 .279 .330 .390 .450 .516 .588 4 .152 .196 .248 .308 .372 .440 .520 .600 .688 .784 5 .190 .245 .310 .385 .465 .550 .650 .750 .860 .980 6 .228 .294 .372 .462 .558 .660 .780 .900 1.032 1.176 7 .266 .343 .434 .539 .651 .770 .910 1.050 1.204 1.372 8 .304 .392 .496 .616 .744 .880 1.040 1.200 1.376 1.568 9 .342 .441 .558 .693 .837 .990 1.170 1.350 1.548 1.764 10 .380 .490 .620 .770 .930 1.100 1.300 1.500 1.720 -

N O Z Z L E F L O W

NOZZLE FLOW AREAS (IN2) Nozzle Size (32nds) 17 18 20 22 24 26 28 30 1" 1 1/8" 1 1/4" 1 .221 .249 .307 .371 .441 .519 .601 .690 .785 .994 1.227 2 .442 .498 .614 .742 .882 1.038 1.202 1.380 1.570 3 .663 .747 .921 1.113 1.323 1.557 4 .884 .996 1.228 1.484 1.764 5 1.105 1.245 1.535 6 1.326 1.494 7 1.547 1.743 8 1.768 9 10 -

N O Z Z L E F L O W

13.28

Note: See Section 4.2 for buoyancy factor formula

13.29

lb/ft3 kg/m3 Specific Gravity Gradient Depth (psi/ft) Gradient Depth (kPa/m)

lb/gal

lb/ft3

kg/m3

Specific Gravity

Gradient Depth (psi/ft)

Gradient Depth (kPa/m)

lb/gal

8.34 8.5 8.6 8.7 8.8 8.9 9 9.1 9.2 9.3 9.4 9.5 9.6 9.7 9.8 9.9 10 10.1 10.2 10.3

62.38 63.58 64.32 65.07 65.82 66.57 67.31 68.06 68.81 69.56 70.31 71.05 71.8 72.55 73.3 74.05 74.79 75.54 76.29 77.04

999.3 1018.5 1030.5 1042.4 1054.4 1066.4 1078.4 1090.4 1102.3 1114.3 1126.3 1138.3 1150.3 1162.3 1174.2 1186.2 1198.2 1210.2 1222.2 1234.2

1 1.02 1.03 1.04 1.05 1.07 1.08 1.09 1.1 1.12 1.13 1.14 1.15 1.16 1.18 1.19 1.2 1.21 1.22 1.24

0.434 0.442 0.447 0.452 0.458 0.463 0.468 0.473 0.478 0.484 0.489 0.494 0.499 0.504 0.51 0.515 0.52 0.525 0.53 0.536

9.8 10 10.1 10.2 10.4 10.5 10.6 10.7 10.8 10.9 11.1 11.2 11.3 11.4 11.5 11.6 11.8 11.9 12 12.1

10.4 10.5 10.6 10.7 10.8 10.9 11 11.1 11.2 11.3 11.4 11.5 11.6 11.7 11.8 11.9 12 12.1 12.2 12.3

77.79 78.53 79.28 80.03 80.78 81.53 82.27 83.02 83.77 84.52 85.27 86.01 86.76 87.51 88.26 89.01 89.75 90.5 91.25 92

1246.1 1258.1 1270.1 1282.1 1294.1 1306 1318 1330 1342 1354 1366 1377.9 1389.9 1401.9 1413.9 1425.9 1437.8 1449.8 1461.8 1473.8

1.25 1.26 1.27 1.28 1.29 1.31 1.32 1.33 1.34 1.36 1.37 1.38 1.39 1.4 1.41 1.43 1.44 1.45 1.46 1.48

0.541 0.546 0.551 0.556 0.562 0.567 0.572 0.577 0.582 0.588 0.593 0.598 0.603 0.608 0.614 0.619 0.624 0.629 0.634 0.64

12.2 12.4 12.5 12.6 12.7 12.8 12.9 13.1 13.2 13.3 13.4 13.5 13.6 13.8 13.9 14 14.1 14.2 14.4 14.5

M U D W E I G H T

lb/gal

lb/ft3

kg/m3

Specific Gravity

Gradient Depth (psi/ft)

Gradient Depth (kPa/m)

lb/gal

lb/ft3

kg/m3

Specific Gravity

Gradient Depth (psi/ft)

Gradient Depth (kPa/m)

12.4 12.5 12.6 12.7 12.8 12.9 13 13.1 13.2 13.3 13.4 13.5 13.6 13.7 13.8 13.9 14 14.1 14.2 14.3

92.74 93.49 94.24 94.99 95.74 96.48 97.23 97.98 98.73 99.48 100.22 100.97 101.72 102.47 103.22 103.96 104.71 105.46 106.21 106.96

1485.8 1497.8 1509.7 1521.7 1533.7 1545.7 1557.7 1569.6 1581.6 1593.6 1605.6 1617.6 1629.6 1641.5 1653.5 1665.5 1677.5 1689.5 1701.5 1713.4

1.49 1.5 1.51 1.52 1.53 1.55 1.56 1.57 1.58 1.6 1.61 1.62 1.63 1.64 1.65 1.67 1.68 1.69 1.7 1.72

0.645 0.65 0.655 0.66 0.666 0.671 0.676 0.681 0.686 0.692 0.697 0.702 0.707 0.712 0.718 0.723 0.728 0.733 0.738 0.744

14.6 14.7 14.8 14.9 15.1 15.2 15.3 15.4 15.5 15.6 15.8 15.9 16 16.1 16.2 16.4 16.5 16.6 16.7 16.8

14.4 14.5 14.6 14.7 14.8 14.9 15 15.1 15.2 15.3 15.4 15.5 15.6 15.7 15.8 15.9 16 16.1 16.2 16.3

107.7 108.45 109.2 109.95 110.7 111.44 112.19 112.94 113.69 114.44 115.18 115.93 116.68 117.43 118.18 118.92 119.67 120.42 121.17 121.91

1725.4 1737.4 1749.4 1761.4 1773.3 1785.3 1797.3 1809.3 1821.3 1833.3 1845.2 1857.2 1869.2 1881.2 1893.2 1905.1 1917.1 1929.1 1941.1 1953.1

1.73 1.74 1.75 1.76 1.78 1.79 1.8 1.81 1.82 1.84 1.85 1.86 1.87 1.88 1.9 1.91 1.92 1.93 1.94 1.96

0.749 0.754 0.759 0.764 0.77 0.775 0.78 0.785 0.79 0.796 0.801 0.806 0.811 0.816 0.822 0.827 0.832 0.837 0.842 0.848

16.9 17.1 17.2 17.3 17.4 17.5 17.6 17.8 17.9 18 18.1 18.2 18.3 18.5 18.6 18.7 18.8 18.9 19.1 19.2

M U D W E I G H T

13.30

13.31

lb/gal lb/ft3 kg/m3 Specific Gravity Gradient Depth (psi/ft) Gradient Depth (kPa/m) lb/gal lb/ft3 kg/m3 Specific Gravity Gradient Depth (psi/ft) Gradient Depth (kPa/m)

16.4 16.5 16.6 16.7 16.8 16.9 17 17.1 17.2 17.3 17.4 17.5 17.6 17.7 17.8 17.9 18 18.1 18.2

122.66 123.41 124.16 124.91 125.65 126.4 127.15 127.9 128.65 129.39 130.14 130.89 131.64 132.39 133.13 133.88 134.63 135.38 136.13

1965.1 1977 1989 2001 2013 2025 2036.9 2048.9 2060.9 2072.9 2084.9 2096.9 2108.8 2120.8 2132.8 2144.8 2156.8 2168.8 2180.7

1.97 1.98 2 2.01 2.02 2.03 2.04 2.05 2.06 2.08 2.09 2.1 2.11 2.12 2.14 2.15 2.16 2.17 2.18

0.853 0.858 0.863 0.868 0.874 0.879 0.884 0.889 0.894 0.9 0.905 0.91 0.915 0.92 0.926 0.931 0.936 0.941 0.946

19.3 19.4 19.5 19.6 19.8 19.9 20 20.1 20.2 20.3 20.5 20.6 20.7 20.8 20.9 21.1 21.2 21.3 21.4

18.3 18.4 18.5 18.6 18.7 18.8 18.9 19 19.1 19.2 19.3 19.4 19.5 19.6 19.7 19.8 19.9 20

136.87 137.62 138.37 139.12 139.87 140.61 141.36 142.11 142.86 143.61 144.35 145.1 145.85 146.6 147.34 148.09 148.84 149.59

2192.7 2204.7 2216.7 2228.7 2240.6 2252.6 2264.6 2276.6 2288.6 2300.6 2312.5 2324.5 2336.5 2348.5 2360.5 2372.4 2384.4 2396.4

2.2 2.21 2.22 2.23 2.24 2.26 2.27 2.28 2.29 2.3 2.32 2.33 2.34 2.35 2.36 2.38 2.39 2.4

0.952 0.957 0.962 0.967 0.972 0.978 0.983 0.988 0.993 0.998 1.004 1.009 1.014 1.019 1.024 1.03 1.035 1.04

21.5 21.6 21.8 21.9 22 22.1 22.2 22.3 22.5 22.6 22.7 22.8 22.9 23.1 23.2 23.3 23.4 23.5

M U D W E I G H T

Multiplying Factor 1 000 000 = 1 000 = 103 100 = 102 10 = 101 0.1 = 10-1 0.01 = 10-2 0.001 = 10-3 0.000 001 =

6 6

Prefix mega kilo hecto deca deci centi milli micro

Symbol M k h da d c m µ

UNITS ac ac ac atm atm atm atm bbl (British, dry) bbl (British, dry) bbl (British, dry) bbl, cement bbl, cement bbl, oil bbl (U.S., liquid) bbl (U.S., liquid) bbl (U.S., liquid) bbl/min bbl/day cm3 daN

MULTIPLY BY 43560 4047 0.001562 33.94 14.7 1.013 x 105 1.033 5.78 0.1637 36 170.6 376 42 4.211 0.1192 31.5 42 0.02917 3.531 x 10-5 2.2467

TO OBTAIN ft2 m2 mi2 ft of water lb/in2 pascals kg/cm2 ft3 m3 gal (British) kg lb (cement) gal (U.S.) ft3 m3 gal (U.S.) gal/min gal/min ft3 lbs

OILFIELD QUICK REFERENCE 1 daN 1 Cubic Meter 1 Cubic Meter 1 Cubic Meter 1 Cubic Meter 1 Cubic Meter PSI x 6.89 100 PSI X6.89 2200 Ibs 1000 Liters 264.2 US Gallons 220 Imperial Gallons 6.28 US Barrels 5.0 Imperial Barrels = KPA =6890 KPA

C O N V E R S I O N S

14.1

14.2

UNITS MULTIPLY BY TO OBTAIN min rad s rpm rev/s in m mi m in m gal (U.S.) liters lb m /s gal/s liters/s gal/min ft-lb Btu Kg-m N-m

2 3 3 3

UNITS ft/min ft/min ft/min ft/min ft/min ft-lb/min ft-lb/min ft-lb/s ft-lb/s g gal (British) gal gal gal gal gal/min gal/min g-cm2 hp in in2 in2

MULTIPLY BY 0.508 0.01667 0.01829 0.3048 0.01136 0.01667 2.26 x 10-5 1.356 x 10-3 1.818 x 10-3 0.001 1.20094 3785 0.1337 231 3.785 2.228 x 10-3 3.785 3.4172 x 10-4 0.7457 25.4 645.2 6.452

TO OBTAIN cm/s ft/s km/hr m/min mi/hr ft-lb/s KW KW hp kg gal (U.S.) cm3 ft3 in3 liters ft3/s liters/min lb-in2 kW mm mm2 cm2

deg (angle) 60 deg (angle) 0.01745 deg (angle) 3600 deg/s 0.1667 deg/s 2.778 x 10-3 ft 12 ft 0.3048 ft 1.89394 x 10-4 ft2 0.0929 ft3 1728 ft3 0.02832 ft3 7.481 ft3 28.32 ft3 of water (60 deg. F) 62.37 ft3/min 4.72 x 10-4 3 ft /min 0.1247 ft3/min 0.472 ft3/s 448.83 ft3- atm 2116.3 ft-lb 1.286 x 10-3 ft-lb 0.1383 ft-lb 1.355818

C O N V E R S I O N S

UNITS in2 in3 in3 in3 in3 kg kg-m kg/m3 kg/m kW kW-hr lb lb lb lb/ft3 lb/ft3 lb/ft2 lb/ft2 lb/gal lb/gal lb/gal

MULTIPLY BY 6.944 x 10-3 -5 1.639 x 10 -4 5.787 x 10 4.329 x 10-3 0.01639 2.2046 7.233 0.06243 0.672 44250 2.655 x 106 4.45 x 105 4.448 4.535 x 10-4 16.02 5.787 x 10-4 4.882 6.945 x 10-3 7.48 .12 .1198

TO OBTAIN ft2 m3 3 ft gal liters lb ft-lb lb/ft3 lb/ft ft-lb/min ft-lb dynes newtons tons (metric) kg/m3 lb/in3 2 kg/m 2 lb/in lb/ft3 specific grav. g/cm3

UNITS

liter

MULTIPLY BY 6.894757 0.03531 0.001 0.2642 0.001 0.2642 3.2808 10.764 264.2 15850 60000 2.788 x 107 2.59 57.3 0.1592 9.549 1.8 (°C)+32 (°F - 32) 5/9 1000 0.7376 1.341 x 10-3 3 0.9144

TO OBTAIN kPa ft3 m3 gal m3 gal ft ft2 gal gal/min liters/min ft2 km2 deg rev/s rpm temp. °F temp. °C kg ft-lb/s hp ft m

lb/in

2

liter liter liter liter m m2 m3 m3/s m3/s mi 2 mi 2 rad rad/s rad/s temp. (°C) temp. (°F) tons (metric) watts watts yds yds

C O N V E R S I O N S

14.3

Head Office 1507 - 4th Street Nisku, AB T9E 7M9 780-955-8828

Black Max Downhole Tools Calgary, Alberta, Canada T2P 3A8 Ph: 403 266-5861 Fx: 403 266-2225 Black Max Downhole Tools Calgary, Alberta, Canada T2E 6R4 Ph: 403 230-5300 Fx: 403 230-5302 Black Max Downhole Tools Estevan, Saskatchewan, Canada S4A 2A6 Ph: 306 634-8828 Fx: 306 634-7747 Black Max Downhole Tools Stafford, Texas, USA 77477-3111 Ph: 281 568-1336 Fx: 281 568-1405 Black Max Downhole Tools Odessa, Texas, USA 79763 Ph: 915 580-5346 Fx: 915 580-5481 Black Max Technologies Inc Houston, Texas, USA 77043 Ph: 713-827-8287 Fx: 713-827-8709 Black Max Downhole Tools Lafayette, Louisiana, USA 70592 Ph: 337 856-1060 Fx: 337 856-1070 Black Max Downhole Tools Casper, Wyoming, USA 82604 Ph: 307 237-9163 Fx: 307 237-9166 Black Max Downhole Tools Bakersfield, California, USA 93308 Ph: 661 327-0226 Fx: 661 588-2953 Black Max Downhole Tools Interlochen, Michigan, USA 49643 Ph: 231 275-7398 Fx: 231 275-7398 Black Max Downhole Tools Oklahoma City, Oklahoma, USA 73129 Ph: 405 619-7771 Fx: 405 619-7776 Black Max Downhole Tools Inc Denver, Colorado, USA 80202 Ph: 303-542-1950 Fx: 303-542-1948 Black Max Downhole Tools Mt. Carmel, Illinois, USA 62863 Ph: 618 262-5199 Fx: 618 262-4224 Black Max Downhole Tools Dubai, United Arab Emirates Ph: 011-9714-347-7719 Fx: 011-9714-347-7723 Black Max Argentina S.A Neuquen 8300, Argentina Ph: 011-54-299-443-7042 Fx: 011-54-299-443-7038 Black Max Bolivia S.R.L. Santa Cruz, Bolivia Ph: 011-591-3-55-8280 Fx: 011-591-3-55-8551 Ace Downhole Tools & Service v.o.f. Akersloot, The Netherlands Ph: 011-31-72-53-53-53-5 Fx: 011-31-72-53-20-26-8 Ace Drilling Compnay Osborne Park 6017, West Australia 6916, Ph: 011-618-9445-4020 Fx: 011-618-9445-4040 Ackerman International Mt. Carmel, Illinois, Usa 62863 Ph: 618-262-8656 Fx: 618-263-4182 Canfish Services Inc Nisku, Alberta T9e 7z2 Ph: 780 955-8998 Fx: 780 955-8944 P & T Servicios Petroleros, C.A. Cuidad Ojeda, Estado Zulia, Venezuela Ph: 011-58-265-6310983 Fx: 011-58-265-6314491 P & T Servicios Petroleros, C.A. Barinas, Estado Barinas, Venezuela Ph: 011-58-273-5330808 Fx: 011-58-273-5331284 P & T Servicios Petroleros, C.A. Anaco, Estado Anzoategul, Venezuela Ph: 011-58-282-4255478 Fx: 011-58-282-4255055 Rayco Oilfield Service & Engineering PTE Ltd. Loyang Crescent, Singapore 508988 Ph: 011-65-542-0824 Fx: 011-65-542-0827

O F F I C E L O C A T I O N S

www.nql.com

HEAD OFFICE

Black Max Downhole Tools Ltd. 1507-4 Street Nisku, Alberta, Canada T9E 7M9 Phone: 780-955-8828 Fax 780-955-3309 website: www.nql.com

© April, 2002 Black Max Downhole Tools Ltd.

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