DRILLING MOTOR HANDBOOK

Transcription

1 DRILLING MOTOR HANDBOOK GORILLA Drilling Motors TM rev

2 DRILLING MOTOR HANDBOOK The information contained in this handbook is for reference only. AXON Downhole Products Inc. does not warrant, nor guarantee the contents. The user assumes all liability and responsibility for use of the information contained herein.

3 Table of Contents Motor Description 1 Overview. 1 Top Sub 1 Power Sections.. 1 Adjustable Bend Housing.. 2 Bearing Section. 6 Drive Shaft.. 7 Running In.. 7 Drilling.. 8 Tripping Out. 8 Drilling Fluids. 8 Downhole Temperature. 9 Servicing... 9 Motor Specifications /4, 4/5, 3.5 Stages /4, 5/6, 5. Stages /4, 6/7, 3. Stages /4, 7/8, 2. Stages. 17 ii

4 3-3/4, 7/8, 2.3 Stages /4 Motor Tool Joint Torque Specifications 21 Fishing Diagram 3-3/4 Inch Motors /4, 4/5, 3.5 Stages /4, 4/5, 6. Stages /4, 4/5, 6.3 Stages /4, 5/6, 8.3 Stages /4, 7/8, 2. Stages /4, 7/8, 2.2 Stages /4, 7/8, 2.9 Stages /4, 7/8, 3.8 Stages /4 Motor Tool Joint Torque Specifications.. 39 Fishing Diagram 4-3/4 Inch Motors /4, 4/5, 4.8 Stages /4, 4/5, 7. Stages /4, 5/6, 5. Stages /4, 5/6, 6.8 Stages /4, 6/7, 5. Stages /4, 6/7, 6. Stages 51 iii

5 6-3/4, 7/8, 2. Stages /4, 7/8, 3. Stages /4, 7/8, 5. Stages /4, 7/8, 6.4 Stages /4 Motor Tool Joint Torque Specifications 61 Fishing Diagram 6-3/4 Inch Motors. 62 8, 4/5, 3.6 Stages 63 8, 4/5, 5.3 Stages 65 8, 5/6, 3. Stages , 5/6, 5. Stages 69 8, 6/7, 4. Stages 71 8, 6/7, 5. Stages 73 8, 7/8, 3. Stages 75 8, 7/8, 4. Stages 77 8 Motor Tool Joint Torque Specifications. 79 Fishing Diagram 8 Inch Motors /8, 5/6, 3. Stages /8, 5/6, 4. Stages /8, 6/7, 5. Stages.. 85 iv

6 9-5/8, 6/7, 6. Stages /8 Motor Tool Joint Torque Specifications.. 89 Fishing Diagram 9-5/8 Inch Motors /4,6/7, 5.5 Stages /4 Motor Tool Joint Torque Specifications.. 93 Fishing Diagram 11-1/4 Inch Motor 94 Coiled Tubing Motors /16, 5/6, 2.3 Stages /16, 5/6, 2.5 Stages /16, 5/6, 4.4 Stages /16 Motor Tool Joint Torque Specifications Fishing Diagram 1-11/16 Inch Motors /8, 5/6, 2.5 Stages /8 Motor Tool Joint Torque Specifications.. 15 Fishing Diagram 2-3/8 Inch Motor /8, 5/6, 3.3 Stages /8, 5/6, 7. Stages /8, 7/8, 2.5 Stages /8 Motor Tool Joint Torque Specifications v

7 Fishing Diagram 2-7/8 Inch Motors 114 Useful Conversion Factors. 115 vi

8 Directional Drilling Motors Overview As shown in Figure 1, downhole motors are comprised of a top sub, power section, adjustable bend housing, bearing pack assembly and bit box. Internally, the power section rotor is normally supplied with a rotor catch on top, a CV-type flex coupling on the bottom that converts the eccentric rotation of the rotor to pure rotary, a stackable arrangement of radial and thrust bearings to take side loads and on-bottom/off-bottom axial loads, a drive shaft and various seals. Top Sub: The top sub box thread is available in several options for each motor size. These options are listed in the motor performance section. Please specify the top sub connection when ordering. Power Sections: The function of the power section is to convert a portion of the hydraulic energy of the drilling motor (in the form of pressure and flow) into mechanical power in the form of rotation and torque. The power section consists of a fluted rotor and a rubber lined stator where the stator has one more lobe than the rotor. All directional drilling motors are offered in a wide range of rotor/stator lobe configurations and stage lengths allowing matching the motor torque, speed and pressure differential characteristics to the specific drilling application. AXON Downhole Products offers directional motors from 3-3/4 inched to 11-1/4 inches and coiled tubing motors from 1-11/16 to 2-7/8 inches. The coiled tubing motors are included in the last portion of the Motor Specifications section. The upper end of the rotor is fitted with a fishing neck to prevent Figure 1 1

9 component loss in the event of a failure. Rotors are normally provided solid but can be gunned drilled to accept a bypass nozzle upon request. The lower end of the rotor is threaded onto a CV-type coupling which converts the eccentric motion into pure rotary motor. The Downhole end of the CV-type coupling connects to the drive shaft. Drilling torque is transmitted through a multi-ball and socket arrangement. Adjustable Bend Housing: All GORILLA S directional drilling motors feature a 2-step, 3 degree adjustable bend housing which can be set in the shop or on the rig floor. [Motors can also be provided with fixed bend housings on request.] By setting this housing to various degree settings, it is possible to achieve a wide range of build rates. Build rates for each motor combination can be found in the Motor Specification sheets starting on page 11. The predicted build rates are based on the 3-point arc defined by the drill bit, the bit-to-bend distance and size of the kick pad (or stabilizer size) and the overall motor length as shown below. Realistic bit lengths have been used in these calculations. Figure 2. Actual build rates can vary from the predicted rates. Build rate is dictated by a number of factors including (1) drill bit characteristics especially gauge length and side cutting ability, (2) weight on bit where higher weights generally increase build rates ; (3) overall motor length; (4) bit-to-bend distance; (5) location and outer dimensions of the wear pad and/or stabilizers and (5) formation ansiotrophy. 2

10 When running slick stabilizers, the build rate for a given motor decreases with increasing hole size. For stabilized motors. The build rate increases with increasing hole size. The build rates in this manual assume the stabilizer is 1/8 inch under-gauge. Care must be shown regarding rotating bent housing motors in the hole. In general, motors set with bends above 1.83 degrees should not be rotated in the hole. RPM should be limited to no more than 6 rpm if possible. The procedure for setting the adjustable bend housing is described in the figures below. ABH Upper Mandrel 1. TONG HERE ABH Lock Sleeve 1. TONG HERE 2 3 Figure 3 - Step A 1. Place Tongs on the ABH Upper Mandrel. 2. Loosen the ABH Lock Sleeve Approximately 1 Turn. 3. Raise the ABH Pad Sleeve to Disengage Alignment Teeth. 3

11 ABH Upper Mandrel 1. TONG HERE - HOLD Align Bend Indicator With Desired Angle ABH Lower Housing 2. TONG HERE - TURN 2 Figure 4 - Step B 1. Hold ABH Upper Mandrel. 2. Place Tongs and Turn ABH Lower Housing (Clockwise or Counterclockwise) to Align Desired Angle (Stamped On ABH Lower Housing) with Bend Indicator (Stamped On ABH Pad Sleeve). 4

12 ABH Upper Mandrel 3. TONG HERE ABH Upper Mandrel 3. TONG HERE 2 1 Figure 5 - Step C 1. Lower ABH Pad Sleeve to Reengage Alignment Teeth. 2. Turn the ABH Lock Sleeve to contact face of ABH Pad Sleeve. 3. Place Tongs on ABH Upper Mandrel and ABH Lock Sleeve and Apply Specified Torque. Motor Size ABH Lock Sleeve Make-Up Torque 3-3/4 3,5 Lbs-Ft (4745 N-m) 5 /4-3/4 9, Lbs-Ft (12,22 N-m) 6-3/4 25, Lbs-Ft (33,895 N-m) 8 4, Lbs-Ft (54,233 N-m) 9-5/8 6, Lbs-Ft (81,349 N-m) 11-1/4 75, Lbs-Ft (11,687 N-m) 5

13 Bearing Section: All AXON Directional Drilling Motors (DDM) feature sealed, pressure compensated bearing sections. State of the art rotary seals are employed at each end of the bearing section to prevent drilling mud from entering the bearing housing while sealing in lubricating oil. Upper and lower seals have equivalent sealing diameters. Pressure compensation is achieved through a sealed floating ring located just above the bit box on the pilot diameter of the drive shaft. This piston prevents high differential pressure across the rotary seals as well as compensates for increases in oil volume when high temperatures are encountered. The compensator piston rotates with the drive shaft and bearing shaft transition ring thereby avoiding the need for a rotary seal on the compensator piston. Weep holes located at the lower end of the drive shaft allows bit pressure exposure to one side of the compensator piston providing a positive pressure inside the bearing housing - further discouraging mud invasion into the bearing section. Each bearing section utilizes high capacity roller thrust bearings. For all but the 3-3/4 motors, the thrust bearings are stackable in either a 4:2 or 3:3 on bottom/off bottom arrangements to optimize load capacities to expected drilling conditions. Each thrust bearing is backed with a Belleville style spring washer which serves to evenly distribute the load over multiple bearings and provide shock load cushioning created while drilling. All bearing components are held in compression within the assembly to prevent rotation. Rotating and stationary sleeves are pre-machined to length to provide proper Belleville spring preloading. This stackable bearing arrangement serves to minimize diametric step changes along the shaft length thus reducing stress concentrations produced by shoulders and grooves. Each bearing section utilizes high capacity roller radial bearings. Radial bearing sets are spaced apart with sleeves to provide higher radial load carrying capacities. Bearing sets, top and bottom provide radial support to the drive shaft as well as the rotary seal preventing wear and extending seal life. A drive shaft lock nut is located between the thrust bearing stack and the lower radial bearing. The lock nut ring is threaded (left hand thread) onto the drive shaft, and once installed, serves to compress the inner races of the lower radial bearing and the lower transition ring to prevent rotation relative to the drive shaft. The lower lock nut will not pass through the lower seal sub 6

14 so in case of a failure in the upper area of the drive shaft the lock nut will prevent component loss from the bearing assembly. A drive shaft cap threads to the upper part of the drive shaft and serves to compress all rotating components preventing rotation relative to the drive shaft. It also serves to divert mud flow into the drive shaft bore. Diverter slots are optimized to minimize pressure loss at higher mud flow rates and case hardened to minimize erosion from the mud flow turbulence. The outer diameter of the drive shaft cap is hard chrome plated to provide a hardened and ground running surface for the rotary seal. The bearing section outer housing is upset and threaded to accept replaceable centralizer sleeves of any size. A centralizer blank sleeve is available in cases where centralizers are not used. Drive Shaft The drive shafts are forged for high strength with a 14 KSI MYS. The drive shafts cross-sections have been made as large as possible within available design constraints. The end of the drive shaft has an API regular box connection for connecting the drill bit. Running In Care should always be exercised regarding tripping speeds when running in the hole to prevent striking BOP components, casing shoes, bridges or shelves which may be in the borehole. Tight spots should be addressed by operating the mud pumps and slowly reaming through the restrictions. In addition, the motor should be started by circulating off bottom to prevent possible plugging of the drill bit nozzles. Errors in pipe tallying or cuttings backfill in the bottom of the hole always dictate slow tripping speeds when approaching bottom. It is important to record circulating off-bottom standpipe pressure at a known flow rate. The pressure difference above the off-bottom pressure is a measure of the torque being demanded from the motor while it is drilling. In fact, motor pressure differential is proportional to bit torque. It is not recommended to exceed maximum differential pressure in the motor curves provided in this handbook as this will reduce stator life. 7

15 Drilling Start the mud pumps and slowly bring up the flow until the desired flow rate has been achieved and is stabilized. Slowly lower the motor to bottom. On bottom will be evidence by an increase in standpipe pressure. Gradually increase weight on bit to achieve optimal rate of penetration. Continue to monitor motor pressure differential, ROP and adjust WOB accordingly. As the bit drills off, WOB and standpipe pressure will decrease until WOB is readjusted. Application of too high of bit weight can cause the mud motor to stall. When stalled, the rotor is no longer turning and fluid is trying to be forced back up the drill pipe. This creates a deadhead type condition which can cause damage to the power section. Therefore stalling should be avoided. The following actions should be taken when the motor is in a stalled condition: 1. Stop drill string rotation 2. Reduce pump strokes 3. Do not pick up off bottom until the lock-up torque of the motor has been dissipated using the rotary table break to minimize the possibility of connection back offs. 4. Pick up off bottom and re-establish drilling parameters. Tripping Out Prior to tripping out, circulate bottoms up. Tripping speeds should be controlled to prevent hole swabbing. Speeds should also be slowed when approaching known tight spots, high build rate intervals and casing points, etc. Extended back-reaming should be avoided as it shortens motor life. At the surface, visually inspect the motor to check for external damage prior to re-run. Drilling Fluid The directional drilling motors can be operated with both water- and oil-based drilling fluids. The aniline point for oil-based muds is the temperature at which the stator s nitrile or HSN rubber swells. The lower the aniline point the greater the swelling. Aniline points should generally be kept above 16 to prevent swelling. 8

16 Highly saturated brines can shorten rotor life due to corrosion. Chloride content should not exceed 3, ppm when using hard chrome rotors. Motors run in these conditions (> 3, ppm chloride) should be immediately flushed with clean water after pulling out of the hole and serviced as soon as practical to minimize corrosion impacts. It is recommended that sand content not exceed 3% and total solids not exceed 5%. Mud weights in excess of 16 ppg will shorten power section life. If flow rates higher than the maximum recommended flow rate for a given power section are required, the rotor can be gun-drilled and fitted with a bypass nozzle. Please contact your AXON representative to assist you in nozzle sizing. Gun-drilled rotors can be blocked by installing a blanked nozzle. Downhole Temperature Standard fit rotor/stators are normally used when hole temperatures are less than 25 F degrees (12 C). For higher temperatures, standard practice is to reduce the rotor/stator fit to compensate for the rubber swelling. Be aware that reduced fit rotor/stator combinations require the rubber be hot to produce the desired horsepower and will have degraded performance if run in cooler hole sections. Servicing Motors should be disassembled, cleaned and thoroughly inspected upon return from the field. The majority of items can be re-run providing they are still in specification. Please consult your maintenance and assembly manual provided with your purchase. O-rings used in the multi-ball socket arrangement on both ends of the coupling should be replaced each time the motor returns from the field and the joints should be repacked with grease. In addition, the rotary seals located on both ends of the sealed bearing pack should be replaced. 9

17 MOTOR SPECIFICATIONS The following section contains important information for each motor operation. Motors should not be operated above the pressure differential at maximum torque provided in the tables. 1

18 3-3/4 Motor, 4/5 Lobe Configuration, 3.5 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 4/5 3.5 Stages 215 inches (5.46 meters) inches (1.98 meters) 2-7/8 Reg., 2-3/8 IF 4-1/2 5-7/8 (114.3 mm mm) 16 GPM (66 LPM) 1 GPM (378 LPM) 1.5 Revs/Gallon (.4 Revs/Liter) 675 Lbs-Ft (915 N-m) 5 PSI (3447 KPa) 27.5 HP (2.5 KW) HP (9.3 KW) 46,8 Lbs (28.18 kn) Dynamic 192,3 Lbs ( kn) Static 128,2 Lbs (57.26 kn) 18, Lbs (8.68 kn) 35 Lbs-Ft (4745 N-m) 35 Lbs-Ft (4745 N-m) Torque Lbs-Ft Min Flow Max Flow

19 RPM GPM 16 GPM Predicted Build Rate in Degrees per 1 Ft. Bend Angle Slick Assembly Stabilized 4-3/4 5-7/8 4-3/4 5-7/

20 3-3/4 Motor, 5/6 Lobe Configuration, 5. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 5/6 5. Stages 254 inches (6.45 meters) inches (1.98 meters) 2-7/8 Reg., 2-3/8 IF 4-1/2 5-7/8 (114.3 mm mm) 16 GPM (66 LPM) 1 GPM (378 LPM) 1.21 Revs/Gallon (.32 Revs/Liter) 1281 Lbs-Ft (1737 N-m) 825 PSI (5688 KPa) 5 HP (37.3 KW) 3 HP (22.4 KW) 46,8 Lbs (28.18 kn) Dynamic 192,3 Lbs ( kn) Static 128,2 Lbs (57.26 kn) 18, Lbs (8.68 kn) 35 Lbs-Ft (4745 N-m) 35 Lbs-Ft (4745 N-m) Torque Lbs-Ft Min Flow Max Flow

21 RPM GPM 14 GPM 16 GPM Predicted Build Rate in Degrees per 1 Ft. Bend Angle ( ) Slick Assembly Stabilized 4-3/4 5-7/8 4-3/4 5-7/

22 3-3/4 Motor, 6/7 Lobe Configuration, 3. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 6/7 3. Stages 234 inches (5.94 meters) inches (1.98 meters) 2-7/8 Reg., 2-3/8 IF 4-1/2 5-7/8 (114.3 mm mm) 2 GPM (757 LPM) 8 GPM (33 LPM).8 Revs/Gallon (.21 Revs/Liter) 125 Lbs-Ft (1695 N-m) 58 PSI (3999 KPa) HP (17.7 KW) HP (9.3 KW) 46,8 Lbs (28.18 kn) Dynamic 192,3 Lbs ( kn) Static 128,2 Lbs (57.26 kn) 18, Lbs (8.68 kn) 35 Lbs-Ft (4745 N-m) 35 Lbs-Ft (4745 N-m) Torque Lbs-Ft Min Flow Max Flow Differential Pressure 15

23 RPM GPM 14 GPM 2 GPM Predicted Build Rate in Degrees per 1 Ft. Bend Angle ( ) Slick Assembly Stabilized 4-3/4 5-7/8 4-3/4 5-7/ ,

24 3-3/4 Motor, 7/8 Lobe Configuration, 2. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 2. Stages 234 inches (5.94 meters) inches (1.98 meters) 2-7/8 Reg., 2-3/8 IF 4-1/2 5-7/8 (114.3 mm mm) 16 GPM (66 LPM) 1 GPM (378 LPM).58 Revs/Gallon (.15 Revs/Liter) 155 Lbs-Ft (212 N-m) 438 PSI (32 kpa) 15.5 HP (11.55 kw) 46,8 Lbs (28.18 kn) Dynamic 192,3 Lbs ( kn) Static 128,2 Lbs (57.26 kn) 18, Lbs (8.68 kn) 35 Lbs-Ft (4745 N-m) 35 Lbs-Ft (4745 N-m) Torque Lbs-Ft Min Flow Max Flow 17

25 RPM GPM 13 GPM 16 GPM Predicted Build Rate in Degrees per 1 Ft. Bend Angle ( ) Slick Assembly Stabilized 4-3/4 5-7/8 4-3/4 5-7/ , /4 Motor, 7/8 Lobe Configuration, 2.3 Stages 18

26 Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 2.3 Stages 215 inches (5.46 meters) inches (1.98 meters) 2-7/8 Reg., 2-3/8 IF 4-1/2 5-7/8 (114.3 mm mm) 16 GPM (66 LPM) 1 GPM (378 LPM).78 Revs/Gallon (.21 Revs/Liter) 1115 Lbs-Ft (1512 N-m) 455 PSI (3137 kpa) 14.3 HP (1.66 kw) 46,8 Lbs (28.18 kn) Dynamic 192,3 Lbs ( kn) Static 128,2 Lbs (57.26 kn) 18, Lbs (8.68 kn) 35 Lbs-Ft (4745 N-m) 35 Lbs-Ft (4745 N-m) 12 1 Torque Lbs-Ft GPM 16 GPM

27 RPM GPM 13 GPM 16 GPM Predicted Build Rate in Degrees per 1 Ft. Bend Angle ( ) Slick Assembly Stabilized 4-3/4 5-7/8 4-3/4 5-7/

28 3-3/4 Motor Tool Joint Torque Specifications Motor Size Top Sub Box Up 3.75 Inch Thread Torque Lbs-Ft Torque N-m 2 3/8 IF /8 REG Pin Down 3 1/8 ADHP Stator Tube ABH/Stator X-Over Adjustable Bend Housing Sub- Assembly Bearing Pack Housing Box Up 3 1/8 ADHP Box Down 3 1/8 ADHP Pin Up 3 1/8 ADHP Pin Down 3 1/8 ADHP Box Up 3 1/8 ADHP Pin Down 3 1/8 ADHP Box Up 3 1/8 ADHP SA-LEFT Box Down HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down 2 3/8 IF /8 Reg

29 Fishing diagram 3-3/4 Inch Motor 22

30 4-3/4 Motor, 4/5 Lobe Configuration, 3.5 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 4/5 3.5 Stages 23.5 inches (5.17 meters) inches (1.16 meters) 3-1/2 Reg., 3-1/2 IF 5-3/4 6-3/4 (146 mm mm) 25 GPM (946 LPM) 1 GPM (378 LPM) 1.2 Revs/Gallon (.27 Revs/Liter) 171 Lbs-Ft (1452 N-m) 49 PSI (3378 KPa) 47 HP (35 KW) 18 HP (13.4 KW) 77,6 Lbs (345.2 kn) Dynamic 31,4 Lbs (138.7 kn) Static 58,2 Lbs (258.9 kn) Dynamic 232,8 Lbs (135.5 kn) Static 155,2 Lbs (69.4 kn) for 4:2 Configuration 232,2 Lbs (132.9 kn) for 3:3 Configuration 35, Lbs ( kn) 9 Lbs-Ft (12,22 N-m) 6 Lbs-Ft ( 8,135 N-m) Torque (Lbs-Ft) Min Flow Max Flow

31 3 25 RPM GPM 15 GPM 2 GPM 25 GPM Bend Angle ( ) Predicted Build Rates in Degrees per 1 Ft SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

32 4-3/4 Motor, 4/5 Lobe Configuration, 6. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 4/5 6. Stages inches (6.77 meters) inches (1.16 meters) 3-1/2 Reg., 3-1/2 IF 5-3/4 6-3/4 (146 mm mm) 25 GPM (946 LPM) 1 GPM (378 LPM).98 Revs/Gallon (.26 Revs/Liter) 1775 Lbs-Ft (247 N-m) 85 PSI (5861 KPa) 6.5 HP (45.1 KW) 12.8 HP (9.5 KW) 77,6 Lbs (345.2 kn) Dynamic 31,4 Lbs (138.7 kn) Static 58,2 Lbs (258.9 kn) Dynamic 232,8 Lbs (135.5 kn) Static 155,2 Lbs (69.4 kn) for 4:2 Configuration 232,2 Lbs (132.9 kn) for 3:3 Configuration 35, Lbs ( kn) 9 Lbs-Ft (12,22 N-m) 6 Lbs-Ft ( 8,135 N-m) Torque Lbs-Ft Min Flow Max Flow 25

33 RPM GPM 175 GPM 1 GPM Bend Angle ( ) Predicted Build Rates in Degrees per 1 Ft SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

34 4-3/4 Motor, 4/5 Lobe Configuration, 6.3 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 4/5 6.3 Stages inches (7.28 meters) inches (1.16 meters) 3-1/2 Reg., 3=1/2 IF 5-3/4 6-3/4 (146 mm mm) 25 GPM (946 LPM) 1 GPM (378 LPM).98 Revs/Gallon (.26 Revs/Liter) 1961 Lbs-Ft (2659 N-m) 887 PSI (6116 KPa) 8 HP (59.7 KW) 26 HP (19.4 KW) 77,6 Lbs (345.2 kn) Dynamic 31,4 Lbs (138.7 kn) Static 58,2 Lbs (258.9 kn) Dynamic 232,8 Lbs (135.5 kn) Static 155,2 Lbs (69.4 kn) for 4:2 Configuration 232,2 Lbs (132.9 kn) for 3:3 Configuration 35, Lbs ( kn) 9 Lbs-Ft (12,22 N-m) 6 Lbs-Ft ( 8,135 N-m) Torque Lbs-Ft Min Flow Max Flow 27

35 3 25 RPM GPM 15 GPM 2 GPM 25 GPM Differential Preesure - PSI Bend Angle ( ) Predicted Build Rates in Degrees per 1 Ft SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

36 4-3/4 Motor, 5/6 Lobe Configuration, 8.3 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 5/6 8.3 Stages inches (8.21 meters) inches (1.16 meters 3-1/2 Reg., 3-1/2 IF 5-3/4 6-3/4 (146 mm mm) 3 GPM (1136 LPM) 15 GPM (568 LPM).87 Revs/Gallon (.23 Revs/Liter) 2763 Lbs-Ft (3746 N-m) 124 PSI (8549 KPa) 13 HP (96.9 KW) 56 HP (41.8 KW) 77,6 Lbs (345.2 kn) Dynamic 31,4 Lbs (138.7 kn) Static 58,2 Lbs (258.9 kn) Dynamic 232,8 Lbs (135.5 kn) Static 155,2 Lbs (69.4 kn) for 4:2 Configuration 232,2 Lbs(132.9 kn) for 3:3 Configuration 35, Lbs ( kn) 9 Lbs-Ft (12,22 N-m) 6 Lbs-Ft ( 8,135 N-m) Torque Lbs-Ft Min Flow Max Flow

37 RPM GPM 2 GPM 25 GPM 3 GPM Bend Angle ( ) Predicted Build Rates in Degrees per 1 Ft SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

38 4-3/4 Motor, 7/8 Lobe Configuration, 2. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 2. Stages inches (6.64 meters) inches (1.16 meters 3-1/2 Reg., 3-1/2 IF 5-3/4 6-3/4 (146 mm mm) 25 GPM (946 LPM) 1 GPM (378 LPM).3 Revs/Gallon (.79 Revs/Liter) 2781 Lbs-Ft (3771 N-m) 374 PSI (2579 KPa) 24 HP (17.9 KW) 14 HP (1.4 KW) 77,6 Lbs (345.2 kn) Dynamic 31,4 Lbs (138.7 kn) Static 58,2 Lbs (258.9 kn) Dynamic 232,8 Lbs (135.5 kn) Static 155,2 Lbs (69.4 kn) for 4:2 Configuration 232,2 Lbs (132.9 kn)for 3:3 Configuration 35, Lbs ( kn) 9 Lbs-Ft (12,22 N-m) 6 Lbs-FT ( 8,135 N-m) Torque Lbs-Ft Min Flow Max Flow

39 9 8 7 RPM GPM 15 GPM 2 GPM 25 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle ( ) SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

40 4-3/4 Motor, 7/8 Lobe Configuration, 2.2 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 2.2 Stages inches (5.17 meters) inches (1.16 meters 3-1/2 Reg., 3-1/2 IF 5-3/4 6-3/4 (146 mm mm) 25 GPM (946 LPM) 1 GPM (378 LPM).54 Revs/Gallon (.143 Revs/Liter) 1764 Lbs-Ft (2392 N-m) 4 PSI (2758 KPa) 27 HP (2.1 KW) 17 HP (12.7 KW) 77,6 Lbs (345.2 kn) Dynamic 31,4 Lbs (138.7 kn) Static 58,2 Lbs (258.9 kn) Dynamic 232,8 Lbs (135.5 kn) Static 155,2 Lbs (69.4 kn) for 4:2 Configuration 232,2 Lbs (132.9 kn) for 3:3 Configuration 35, Lbs ( kn) 9 Lbs-Ft (12,22 N-m) 6 Lbs-Ft ( 8,135 N-m) Torque Lbs-Ft Min Flow Max Flow 33

41 RPM GPM 15 GPM 2 GPM 25 GPM Bend Angle ( ) Predicted Build Rates in Degrees per 1 Ft SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

42 4-3/4 Motor, 7/8 Lobe Configuration, 2.9 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 2.9 Stages inches (8.41 meters) inches (1.16 meters) 3-1/2 Reg., 3-1/2 IF 5-3/4 6-3/4 (146 mm mm) 25 GPM (946 LPM) 1 GPM (378 LPM).3 Revs/Gallon (.79 Revs/Liter) 414 Lbs-Ft (5442 N-m) 525 PSI (362 KPa) 37 HP (27.6 KW) 16 HP (11.9 KW) 77,6 Lbs Dynamic 31,4 Lbs Static 58,2 Lbs Dynamic 232,8 Lbs Static 155,2 Lbs for 4:2 Configuration Lbs for 3:3 Configuration 35, Lbs 9 Lbs-Ft (12,22 N-m) 6 Lbs-Ft ( 8,135 N-m) Torque Lbs-Ft Min Flow Max Flow 35

43 9 8 7 RPM GPM 15 GPM 2 GPM 25 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle ( ) SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

44 4-3/4 Motor, 7/8 Lobe Configuration, 3.8 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommend Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 3.8 Stages inches (6.77 meters) inches (1.16 meters 3-1/2 Reg., 3-1/2 IF 5-3/4 6-3/4 (146 mm mm) 25 GPM (946 LPM) 1 GPM (378 LPM).52 Revs/Gallon (.137 Revs/Liter) 275 Lbs-Ft (3728 N-m) 615 PSI (424 KPa) 46 HP (34.3 KW) 19 HP (14.2 KW) 77,6 Lbs (345.2 kn) Dynamic 31,4 Lbs (138.7 kn) Static 58,2 Lbs (258.9 kn) Dynamic 232,8 Lbs (135.5 kn) Static 155,2 Lbs (69.4 kn) for 4:2 Configuration 232,2 Lbs (132.9 kn) for 3:3 Configuration 35, Lbs ( kn) 9 Lbs-Ft (12,22 N-m) 6 Lbs-Ft ( 8,135 N-m) Torque Lbs-Ft Min Flow Max Flow

45 RPM GPM 15 GPM 2 GPM 25 GPM Bend Angle ( ) Predicted Build Rates in Degrees per 1 Ft SLICK STABILZED 6 6-1/4 6-3/ /4 6-3/

46 4-3/4 Motor Tool Joint Torque Specifications Motor Size 4.75 Thread Torque Lbs-Ft Torque N-m 3 1/2 IF /2 REG Box Up Top Sub Pin Down 3 15/16 ADHP Stator Tube Box Up 3 15/16 ADHP Box Down 3 15/16 ADHP ABH/Stator X-Over Pin Up 3 15/16 ADHP Pin Down 3 15/16 ADHP Adjustable Bend Housing Sub- Assembly Box Up 3 15/16 ADHP Pin Down 3 15/16 ADHP Bearing Pack Housing Box Up 3 15/16 ADHP Box Down SA-LEFT HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down 3 1/2 IF /2 REG

47 Fishing Diagram 4-3/4 Inch Motor 4

48 6-3/4 Motor, 4/5 Lobe Configuration, 4.8 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 4/5 4.8 Stages inches ( 7.11 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 3 GPM (1136 LPM).49 Revs/Gallon (.13 Revs/Liter) 2929 Lbs-Ft (3971 N-m) 674 PSI (4647 KPa) 148 HP (11.4 kw) 73 HP (54.4 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft Min Flow Max Flow

49 RPM GPM 4 GPM 5 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

50 6-3/4 Motor, 4/5 Lobe Configuration, 7. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 4/5 7. Stages inches (8.66 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 3 GPM (1136 LPM).48 Revs/Gallon (.13 Revs/Liter) 435 Lbs-Ft (5898 N-m) 994 PSI (6853 KPa) 28 HP (155.1 KW) 93 HP (69.4 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft Min Flow Max Flow 43

51 RPM GPM 4 GPM 5 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

52 6-3/4 Motor, 5/6 Lobe Configuration, 5. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque 5/6 5. Stages inches (8.2 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H /2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 25 GPM (1136 LPM).38 Revs/Gallon (.1 Revs/Liter) 669 Lbs-Ft (97 N-m) 643 PSI (4433 kpa) Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft

53 25 2 RPM Flow Rate (GPM) Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

54 6-3/4 Motor, 5/6 Lobe Configuration, 6.8 Stages Lobe Configuration 5/6 6.8 Stages Overall Length inches (8.97 meters) Bit-to-Bend 68. inches (1.72 meters) Common Box Connections 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- Bit Size 7-7/8 9-7/8 (2 mm 25.8 mm) Maximum Flow Rate 6 GPM (2271 LPM) Minimum Flow Rate 3 GPM (1136 LPM) RPM per Unit No Load.38 Revs/Gallon (.1 Revs/Liter) Maximum Operating Torque 55 Lbs-Ft (7457 N-m) Differential Pressure at Max. Operating Torque 946 PSI (6522 kpa) ) Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 14,4 Lbs (624.5 kn) Dynamic 568. Lbs( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft

55 25 2 RPM Flow Rate - GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

56 6-3/4 Motor, 6/7 Lobe Configuration, 5. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 6/7 5. Stages inches (8.29 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 3 GPM (1136 LPM).29 Revs/Gallon (.77 Revs/Liter) 5849 Lbs-Ft (793 N-m) 775 PSI (5343 KPa) 156 HP (116.3 KW) 75 HP (55.9 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) 7 6 Torque Lbs-Ft Min Flow Max Flow

57 RPM GPM 4 GPM 5 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

58 6-3/4 Motor, 6/7 Lobe Configuration, 6. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 6/7 6. Stages inches (9.56 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 3 GPM (1136 LPM).29 Revs/Gallon (.77 Revs/Gallon) 7875 Lbs-Ft (1677 N-m) 11 PSI (7584 KPa) HP (169.9 KW) HP (85.2 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft Min Flow Max Flow 51

59 RPM GPM 45 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/ /4 Motor, 7/8 Lobe Configuration, 2. Stages 52

60 Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 2. Stages inches (7.11 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 2 GPM (757 LPM).14 Revs/Gallon (.32 Revs/Liter) 5321 Lbs-Ft (7214 N-m) 374 PSI (2579 KPa) 6 HP (44.7 KW) 28 HP (2.9 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft Min Flow Max Flow

61 12 1 RPM GPM 4 GPM 5 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

62 6-3/4 Motor, 7/8 Lobe Configuration, 3. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Maker-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 3. Stages inches (6.53 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 3 GPM (1136 LPM).27 Revs/Gallon (.71 Revs/Liter) 4435 Lbs-Ft (613 N-m) 562 PSI (3875 KPa) 13 HP (76.8 KW) 61 HP (45.5 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft Min Flow Max Flow 55

63 RPM GPM 4 GPM 5 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

64 6-3/4 Motor, 7/8 Lobe Configuration, 5. Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 5. Stages inches (8.13 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 3 GPM (1136 LPM).28 Revs/Gallon (.74 Revs/Liter) 6561 Lbs-Ft (8896 N-m) 82 PSI (5654 KPa) 157 HP (117.1 KW) 78 HP (58.2 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) 7 6 Torque Lbs-Ft Min Flow Max Flow

65 RPM GPM 4 GPM 5 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

66 6-3/4 Motor, 7/8 Lobe Configuration, 6.4 Stages Lobe Configuration Overall Length Bit-to-Bend Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit 4:2 Bearing Configuration 3:3 Bearing Configuration Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 7/8 6.4 Stages inches (9.56 meters) 68. inches (1.72 meters) 4-1/2 Reg., 4-1/2 IF, 4-1/2 H-9, 4-1/2 X- 7-7/8 9-7/8 (2 mm 25.8 mm) 6 GPM (2271 LPM) 3 GPM (1136 LPM).31 Revs/Gallon (.82 Revs/Liter) 698 Lbs-Ft (9366 N-m) 995 PSI (686 KPa) 175 HP (13.5 KW) 8 HP (59.7 KW) 14,4 Lbs (624.5 kn) Dynamic 568. Lbs ( kn) Static 15,2 Lbs (467.9 kn) Dynamic 426, Lbs ( kn) Static 284, Lbs ( kn) for 4:2 Configuration 426, Lbs ( kn) for 3:3 Configuration 75, Lbs ( kn) 25, Lbs-Ft (33,895 N-m) 13, Lbs-Ft (17,626 N-m) Torque Lbs-Ft Min Flow Max Flow 59

67 RPM GPM 4 GPM 5 GPM 6 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 8-1/2 8-3/4 9-7/8 8-1/2 8-3/4 9-7/

68 6-3/4 Motor Tool Joint Torque Specifications Motor Size 6.75 Thread Torque Lbs-Ft Torque N-m 4 1/2 IF /2 REG Box Up Top Sub 4 1/2 H /2 XH Pin Down 5 1/2 ADHP Stator Tube ABH/Stator X-Over Adjustable Bend Housing Sub- Assembly Bearing Pack Housing Box Up 5 1/2 ADHP Box Down 5 1/2 ADHP Pin Up 5 1/2 ADHP Pin Down 5 1/2 ADHP Box Up 5 1/2 ADHP Pin Down 5 1/2 ADHP Box Up 5 1/2 ADHP SA-LEFT Box Down HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down 4 1/2 IF /2 REG /2 H /2 XH

69 Fishing Diagram 6-3/4 Inch Motor 62

70 8 Motor, 4/5 Lobe Configuration, 3.6 Stages Lobe Configuration 4/5 3.6 Stages Overall Length inches (7.86 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 4 GPM (1514 LPM) RPM per Unit No Load.25 Revs/Gallon (.66 Revs/Liter) Maximum Operating Torque 4294 Lbs-Ft (5822 N-m) Differential Pressure at Max. Operating Torque 497 PSI (3427 KPa) Horsepower at Maximum Flow 158 HP (117.8 KW) Horsepower at Minimum Flow 73 HP (54.4 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs ( kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended Make-Up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) Torque Lbs-Ft Min Flow Max Flow 63

71 25 2 RPM GPM 6 GPM 8 GPM 9 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/

72 8 Motor, 4/5 Lobe Configuration, 5.3 Stages Lobe Configuration 4/5 5.3 Stages Overall Length inches (9.38 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 4 GPM (1514 LPM) RPM per Unit No Load.25 Revs/Gallon (.66 Revs/Liter) Maximum Operating Torque 5858 Lbs-Ft (7942 N-m) Differential Pressure at Max. Operating Torque 675 PSI (4654 KPa) Horsepower at Maximum Flow 214 HP (159.6 KW) Horsepower at Minimum Flow 9 HP (67.1 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs ( kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended Make-Up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) 6 5 Torque Lbs-Ft Min Flow Max Flow

73 25 2 RPM GPM 6 GPM 8 GPM 9 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/ ,

74 8 Motor, 5/6 Lobe Configuration, 3. Stages Lobe Configuration 5/6 3. Stages Overall Length inches (6.43 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 4 GPM (1514 LPM) RPM per Unit No Load.29 Revs/Gallon (.77 Revs/Liter) Maximum Operating Torque 55 Lbs-Ft (7457 N-m) Differential Pressure at Max. Operating Torque 62 PSI (4275 KPa) Horsepower at Maximum Flow 186 HP (138.7 KW) Horsepower at Minimum Flow 83 HP (61.9 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs ( kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended Make-Up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) Torque Lbs-Ft

75 RPM Flow Rtae - GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/

76 8 Motor, 5/6 Lobe Configuration, 5. Stages Lobe Configuration 5/6 5. Stages Overall Length inches (7.86 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 5 GPM (1893 LPM) RPM per Unit No Load.29 Revs/Gallon (.77 Revs/Liter) Maximum Operating Torque 6133 Lbs-Ft (8315 N-m) Differential Pressure at Max. Operating Torque 8 PSI (5516 KPa) Horsepower at Maximum Flow 244 HP (182 kw) Horsepower at Minimum Flow 131 HP (97.7 kw) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs ( kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended make-up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) 7 6 Torque Lbs-Ft Min Flow Max Flow

77 RPM Series1 Series2 Series Differential Presssure - PSI Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/

78 8 Motor, 6/7 Lobe Configuration, 4. Stages Lobe Configuration 6/7 4. Stages Overall Length inches (8.82 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 3 GPM (1136 LPM) RPM per Unit No Load.17 Revs/Gallon (.45 Revs/Liter) Maximum Operating Torque 8165 Lbs-Ft (117 N-m) Differential Pressure at Max. Operating Torque 62 PSI (4275 KPa) Horsepower at Maximum Flow 173 HP (129 KW) Horsepower at Minimum Flow 58 HP (43.3 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs ( kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended Make-Up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) Torque Lbs-Ft Min Flow Max Flow 71

79 RPM GPM 5 GPM 7 GPM 9 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/

80 8 Motor, 6/7 Lobe Configuration, 5. Stages Lobe Configuration 6/7 5. Stages Overall Length inches (9.94 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 3 GPM (1136 LPM) RPM per Unit No Load.17 Revs/Gallon (.45 Revs/Liter) Maximum Operating Torque Lbs-Ft (1512 N-m) Differential Pressure at Max. Operating Torque 84 PSI (5792 KPa) Horsepower at Maximum Flow 242 HP (18.5 KW) Horsepower at Minimum Flow 61 HP (45.5 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs ( kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended Make-Up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) Torque Lbs-Ft Min Flow Max Flow

81 RPM GPM 5 GPM 7 GPM 9 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/

82 8 Motor, 7/8 Lobe Configuration, 3. Stages Lobe Configuration 7/8 3. Stages Overall Length inches (7.86 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 3 GPM (1136 LPM) RPM per Unit No Load.16 Revs/Gallon (.42 Revs/Liter) Maximum Operating Torque 886 Lbs-Ft (1963 N-m) Differential Pressure at Max. Operating Torque 562 PSI (3875 KPa) Horsepower at Maximum Flow 136 HP (11.4 KW) Horsepower at Minimum Flow 6 HP (44.7 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs ( kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended Make-Up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) Torque Lbs-Ft Min Flow Max Flow 75

83 RPM GPM 5 GPM 7 GPM 9 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/

84 8 Motor, 7/8 Lobe Configuration, 4. Stages Lobe Configuration 7/8 4. Stages Overall Length inches (8.87 meters) Bit-to-Bend 86 inches (2.18 meters) Common Box Connections 6-5/8 Reg., 7 H-9 Bit Size 9-1/2 12-1/4 (241.3 mm mm) Maximum Flow Rate 9 GPM (347 LPM) Minimum Flow Rate 3 GPM (1136 LPM) RPM per Unit No Load.16 Revs/Gallon (.42 Revs/Liter) Maximum Operating Torque 9,358 Lbs-Ft (12,688 N-m) Differential Pressure at Max. Operating Torque 65 PSI (4482 KPa) Horsepower at Maximum Flow 165 HP (123. KW) Horsepower at Minimum Flow 63 HP (47 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 242,4 Lbs (178.2 kn) Dynamic 988, Lbs ( kn) Static 3:3 Bearing Configuration 494, Lbs ( kn) Dynamic 741, Lbs kn) Static Maximum Overpull (Re-Run) 494, Lbs ( kn) for 4:2 Configuration 741, Lbs ( kn) for 3:3 Configuration Motor Yield 9, Lbs (43.3 kn) ABH Sleeve Recommended Make-Up Torque 4, Lbs-Ft (54,233 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 2, Lbs-Ft (27,116 N-m) Torque Lbs-Ft Min Flow Max Flow 77

85 RPM GPM 5 GPM 7 GPM 9 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 9-7/8 1-5/8 12-1/4 9-7/8 1-5/8 12-1/

86 8 Motor Tool Joint Torque Specifications Motor Size 8. Thread Torque Lbs-Ft Torque N-m Top Sub Box Up 6 5/8 REG H Pin Down 6 1/2 ADHP Stator Tube ABH/Stator X-Over Adjustable Bend Housing Sub- Assembly Bearing Pack Housing Box Up 6 1/2 ADHP Box Down 6 1/2 ADHP Pin Up 6 1/2 ADHP Pin Down 6 1/2 ADHP Box Up 6 1/2 ADHP Pin Down 6 1/2 ADHP Box Up 6 1/2 ADHP SA-LEFT Box Down HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down 6 5/8 REG H

87 Fishing Diagram 8 Inch Motor 8

88 9-5/8 Motor, 5/6 Lobe Configuration, 3. Stages Lobe Configuration 5/6 3. Stages Overall Length 333 inches (8.46 meters) Bit-to-Bend 15 inches (2.67 meters) Common Box Connections 6-5/8 Reg., 7-5/8 Reg., 7 H-9 Bit Size 11-1/4 26 ( mm 66.4 mm) Maximum Flow Rate 12 GPM (4542 LPM) Minimum Flow Rate 6 GPM (2271 LPM) RPM per Unit No Load.11 Revs/Gallon (.29 Revs/Liter) Maximum Operating Torque 8,85 Lbs-Ft (11,999 N-m) Differential Pressure at Max. Operating Torque 473 PSI (3261 KPa) Horsepower at Maximum Flow 158 HP (117.8 kw) Horsepower at Minimum Flow 72 HP (53.7 kw) Maximum Weight-on-Bit 4:2 Bearing Configuration 323, Lbs ( kn) Dynamic 1,26. Lbs (564.8 kn) Static 3:3 Bearing Configuration 242,7 Lbs (179.6 kn) Dynamic 945, Lbs (423.6 kn) Static Maximum Overpull (Re-Run) 63, Lbs (282.4 kn) for 4:2 Configuration 945, Lbs (423,6 kn) for 3:3 Configuration Motor Yield 1,3, Lbs (5782.7) ABH Sleeve Recommended Make-Up Torque 6, Lbs-Ft (81,349 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 55. Lbs-Ft (74,57 N-m) RPM GPM 9 GPM 12 GPM

89 Torque Lbs-Ft GPM 12 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 12-1/ /2 12-1/ /

90 9-5/8 Motor, 5/6 Lobe Configuration, 4. Stages Lobe Configuration 5/6 3. Stages Overall Length 383 inches (9.73 meters) Bit-to-Bend 15 inches (2.67 meters) Common Box Connections 6-5/8 Reg., 7-5/8 Reg., 7 H-9 Bit Size 11-1/4 26 ( mm 66.4 mm) Maximum Flow Rate 12 GPM (4542 LPM) Minimum Flow Rate 6 GPM (2271 LPM) RPM per Unit No Load.11 Revs/Gallon (.29 Revs/Liter) Maximum Operating Torque 11,25 Lbs-Ft (15253 N-m) Differential Pressure at Max. Operating Torque 6 PSI (4137 KPa) Horsepower at Maximum Flow 232 HP (173 KW) Horsepower at Minimum Flow 11 HP (82 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 323, Lbs ( kn) Dynamic 1,26. Lbs (564.8 kn) Static 3:3 Bearing Configuration 242,7 Lbs (179.6 kn) Dynamic 945, Lbs (423.6 kn) Static Maximum Overpull (Re-Run) 63, Lbs (282.4 kn) for 4:2 Configuration 945, Lbs (423.6 kn) for 3:3 Configuration Motor Yield 1,3, Lbs ( kn) ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 6, Lbs-Ft (81,349 N-m) 55. Lbs-Ft (74,57 N-m) 12 1 Torque Lbs-Ft Min Flow Max Flow

91 RPM GPM 9 GPM 12 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 12-1/ /2 12-1/ /

92 9-5/8 Motor, 6/7 Lobe Configuration, 5. Stages Lobe Configuration 6/7 5. Stages Overall Length 363 inches (9.22 meters) Bit-to-Bend 15 inches (2.67 meters) Common Box Connections 6-5/8 Reg., 7-5/8 Reg., 7 H-9 Bit Size 11-1/4 26 ( mm 66.4 mm) Maximum Flow Rate 12 GPM (4542 LPM) Minimum Flow Rate 6 GPM (2271 LPM) RPM per Unit No Load.13 Revs/Gallon (.34 Revs/Liter) Maximum Operating Torque 12,998 Lbs-Ft (17623 N-m) Differential Pressure at Max. Operating Torque 775 PSI (5343 KPa) Horsepower at Maximum Flow 299 HP (223 KW) Horsepower at Minimum Flow 135 HP (1.7 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 323, Lbs ( kn) Dynamic 1,26. Lbs (564.8 kn) Static 3:3 Bearing Configuration 242,7 Lbs (179.6 kn) Dynamic 945, Lbs (423.6 kn) Static Maximum Overpull (Re-Run) 63, Lbs (282.4 kn) for 4:2 Configuration 945, Lbs (423.6 kn) for 3:3 Configuration Motor Yield 1,3, Lbs ( kn) ABH Sleeve Recommended Make-Up Torque 6, Lbs-Ft (81,349 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 55. Lbs-Ft (74,57 N-m) Torque Lbs-Ft Min Flow Max Flow

93 RPM GPM 8 GPM 1 GPM 12 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 12-1/ /2 12-1/ /

94 9-5/8 Motor, 6/7 Lobe Configuration, 6. Stages Lobe Configuration 6/7 6. Stages Overall Length 45 inches (1.29 meters) Common Box Connections 6-5/8 reg., 7-5/8 Reg., 7 H-9 Bit Size 11-1/4 26 ( mm 66.4 mm) Maximum Flow Rate 12 GPM (4542 LPM) Minimum Flow Rate 6 GPM (2271 LPM) RPM per Unit No Load.13 Revs/Gallon (.34 Revs/Liter) Maximum Operating Torque 17,697 Lbs-Ft (23994 N-m) Differential Pressure at Max. Operating Torque 14 PSI (7171 KPa) Horsepower at Maximum Flow 382 HP (284.9 KW) Horsepower at Minimum Flow 143 HP (16.6 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 323, Lbs ( kn) Dynamic 1,26. Lbs (564.8 kn) Static 3:3 Bearing Configuration 242,7 Lbs (179.6 kn) Dynamic 945, Lbs (423.6 kn) Static Maximum Overpull (Re-Run) 63, Lbs (282.4 kn) for 4:2 Configuration 945, Lbs (423.6 kn) for 3:3 Configuration Motor Yield 1,3, Lbs ( kn) ABH Sleeve Recommended Make-Up Torque 6, Lbs-Ft (81,349 N-m) Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 55. Lbs-Ft (74,57 N-m) Torque Lbs-Ft Min Flow Max Flow 87

95 RPM GPM 8 GPM 1 GPM 12 GPM Predicted Build Rates in Degrees per 1 Ft Bend Angle SLICK STABILZED ( ) 12-1/ /2 12-1/ /

96 9-5/8 Motor Tool Joint Torque Specifications motor Size 9.63 Thread Torque Lbs-Ft Torque N-m Top Sub Box Up 7 5/8 REG /8 REG H Pin Down 8 1/16 ADHP Stator Tube Box Up 8 1/16 ADHP Box Down 8 1/16 ADHP ABH/Stator X-Over Pin Up 8 1/16 ADHP Pin Down 8 1/16 ADHP Adjustable Bend Housing Sub-Assembly Box Up 8 1/16 ADHP Pin Down 8 1/16 ADHP Bearing Pack Housing Box Up 8 1/16 ADHP SA-LEFT Box Down HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down 7 5/8 REG /8 REG H

97 Fishing Diagram 9-5/8 Inch Motor 9

98 11-1/4 Motor, 6/7 Lobe Configuration, 5.5 Stages Lobe Configuration 6/7 5.5 Stages Overall Length 411 inches (1.44 meters) Common Box Connections 7-5/8 Reg., 8-5/8 Reg Bit Size 14-3/4 26 ( mm 66.4 mm) Maximum Flow Rate 18 GPM (6813 LPM) Minimum Flow Rate 1 GPM (3785 LPM) RPM per Unit No Load.88 Revs/Gallon (.23 Revs/Liter) Maximum Operating Torque Lbs-Ft (31177 N-m) Differential Pressure at Max. Operating Torque 95 PSI (655 KPa) Horsepower at Maximum Flow 529 HP ( KW) Horsepower at Minimum Flow 221 HP (164.8 KW) Maximum Weight-on-Bit 4:2 Bearing Configuration 484, Lbs ( kn) Dynamic 2,52, Lbs ( kn) Static Maximum Overpull (Re-Run) Motor Yield ABH Sleeve Recommended Make-Up Torque Near-Bit Stabilizer/Slick Sleeve Make-Up Torque 1,26, Lbs ( kn) for 4:2 Configuration 2,5, Lbs (11,12.5 kn) 75, Lbs-Ft (11,687 N-m) 6, Lbs-Ft (81,35 N-m) 2 Torque Lbs-Ft Min Flow Max Flow

99 RPM GPM 12 GPM 15 GPM 18 GPM Bend Angle ( ) SLICK STABILZED / /

100 11-1/4 Motor Tool Joint Torque Specifications Motor Size Thread Torque Lbs-Ft Torque N-m 7 5/8 REG Box Up 8 5/8 REG Top Sub 2743 Pin Down 9 11/16 ADHP Stator Tube ABH/Stator X-Over Adjustable Bend Housing Sub- Assembly Bearing Pack Housing Box Up 9 11/16 ADHP Box Down 9 11/16 ADHP Pin Up 9 11/16 ADHP Pin Down 9 11/16 ADHP Box Up 9 11/16 ADHP Pin Down 9 11/16 ADHP Box Up 9 11/16 ADHP Box Down SA-LEFT HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down 7 5/8 REG /8 REG

101 Fishing Diagram 11-1/4 Inch Motor 94

102 Lobe Configuration Overall Length Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Maximum Weight-on-Bit COILED TUBING MOTORS 1-11/16, 5/6 Lobe Configuration, 2.3 Stages 5/6 Lobe 2.3 Stages 87 inches (2.21 meters) NC12, AW Rod, 1-1/4 Reg, 1-1/4 AMMT 1-7/8 2-3/4 (47.63 mm 69.9mm) 4 GPM (151.4 LPM) 2 GPM (75.7 LPM) 9.25 Rev/Gallon (2.44 Rev/Liter) 8 Lbs-Ft (18.5 N-m) 27 PSI ( kpa) 5 HP (3.72 kw) 8,36 Lbs (37,187 N) Dynamic 21,6 Lbs (96,82 N) Static Maximum Overpull (Re-Run) 1.8 Lbs (48,41 N) Motor Yield 15, Lbs (66,723 N) Torque Lbs-Ft

103 RPM GPM 3 GPM 4 GPM

104 Lobe Configuration Overall Length Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Maximum Weight-on-Bit 1-11/16, 5/6 Lobe Configuration, 2.5 Stages 5/6 Lobe 2.5 Stages 87 inches (2.21 meters) NC12, AW Rod, 1-1/4 Reg, 1-1/4 AMMT 1-7/8 2-3/4 (47.63 mm 69.9mm) 4 GPM (151.4 LPM) 2 GPM (75.7 LPM) Rev/Gallon (4.7 Rev/Liter) 28.5 Lbs-Ft (38.64 N-m) 175 PSI (126.6 kpa) 2.71 HP (2.2 kw) 8,36 Lbs (37,187 N) Dynamic 21,6 Lbs (96,82 N) Static Maximum Overpull (Re-Run) 1.8 Lbs (48,41 N) Motor Yield 15, Lbs (66,723 N) Torque Lbs-Ft

105 7 6 5 RPM GPM 3 GPM 4 GPM

106 Lobe Configuration Overall Length Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Maximum Weight-on-Bit 1-11/16, 5/6 Lobe Configuration, 4.4 Stages 5/6 Lobe 4.4 Stages inches (2.91 meters) NC12, AW Rod, 1-1/4 Reg, 1-1/4 AMMT 1-7/8 2-3/4 (47.63 mm 69.9mm) 55 GPM 25 GPM 11 Rev. Gallon (2.91 Rev/Liter) 18 Lbs-Ft (244. N-m) 66 PSI (455.5 kpa) 33 HP (25 kw) 8,36 Lbs (37,187 N) Dynamic 21,6 Lbs (96,82 N) Static Maximum Overpull (Re-Run) 1.8 Lbs (48,41 N) Motor Yield 15, Lbs (66,723 N) Torque Lbs-Ft Series1 99

107 7 6 5 RPM GPM 4 GPM 55 GPM

108 1-11/16 Motor Tool Joint Torque Specifications Motor Size 1.69 Thread Torque Lbs-Ft Torque N-m NC /4 REG Box Up Top Sub AW ROD /4 AMMT Pin Down 1 11/16 ADHP Stator Tube Box Up 1 11/16 ADHP Box Down 1 11/16 ADHP ABH/Stator X-Over Pin Up 1 11/16 ADHP Pin Down 1 11/16 ADHP Adjustable Bend Housing Sub- Assembly Box Up NA NA NA Pin Down NA NA NA Bearing Pack Housing Box Up 1 11/16 ADHP Box Down SA-LEFT HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down NC /4 REG AW ROD /4 AMMT

109 Fishing Diagram 1-11/16 Inch Motor 12

110 2-3/8 MOTOR, 5/6 Lobe Configuration, 2.5 Stages Lobe Configuration Overall Length Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield 5/6 2.5 Stages inches (2.47 meters) NC16, BW Rod, 1-1/2 Reg, 1-1/2 AMMT 2-1/2 3-1/4 (63.5 mm 82.6 mm) 5 GPM (189 LPM) 2 GPM ( 76 LPM) 7.41 Revs/Gallon (1.96 Revs/Liter) 16 Lbs-Ft (216 N-m) 38 PSI (262 KPa) 17 HP (12.68 kw) 12,14 Lbs (54. kn) Dynamic 35, Lbs (155.7 kn) Static 17,5 Lbs (77.8 kn 3, Lbs (133.4 kn) Torque Lbs-Ft

111 RPM GPM 35 GPM 5 GPM

112 2-3/8 Motor Tool Joint Torque Specifications Motor Size 2.38 Thread Torque Lbs-Ft Torque N-m NC /2 Reg Box Up Top Sub BW ROD /2 AMMT Pin Down 2 3/8 ADHP Stator Tube Box Up 2 3/8 ADHP Box Down 2 3/8 ADHP ABH/Stator X-Over Pin Up 2 3/8 ADHP Pin Down 2 3/8 ADHP Adjustable Bend Housing Sub- Assembly Box Up NA NA NA Pin Down NA NA NA Bearing Pack Housing Box Up 2 3/8 ADHP Box Down SA-LEFT HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down NC /2 Reg BW ROD /2 AMMT

113 Fishing Diagram 2-3/8 Inch Motor 16

114 2-7/8 5/6 Lobe Configuration, 3.3 Stages Lobe Configuration Overall Length Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield 5/6 3.3 Stages 6 Stator 2-3/8 Reg., NW Rod 3-1/2 4-1/2 (88.9 mm mm) 8 GPM ( 33 LPM) 2 GPM ( 76 LPM) 5.31 Revs/Gallon (1.4 Revs/Liter) 19 Lbs-Ft (258 N-m) 52 PSI (3585 KPa) 12.2 HP (9.1 kw) 2.2 HP (1.64 kw) 19,34 Lbs (86 kn) Dynamic 61,6 Lbs (274 kn) Static 3.8 Lbs (137 kn) 4, Lbs (177.9 kn) Torque Lbs-Ft Min Flow Max Flow 17

115 RPM GPM 5 GPM 8 GPM 18

116 2-7/8 5/6 Lobe Configuration, 7. Stages Lobe Configuration 5/6 7. Stages Overall Length 117 Stator Common Box Connections 2-3/8 Reg., NW Rod Bit Size 3-1/2 4-1/2 (88.9 mm mm) Maximum Flow Rate 8 GPM (393 LPM) Minimum Flow Rate 2 GPM (76 LPM) Maximum Operating Torque 477 Lbs-Ft (647 N-m) Differential Pressure at Max. Operating Torque 988 PSI (6812 KPa) Horsepower at Maximum Flow 36 HP (26.85) Maximum Weight-on-Bit 19,34 Lbs (86 kn) Dynamic 61,6 Lbs (274 kn) Static Maximum Overpull (Re-Run_ 3.8 Lbs (137 kn) Motor Yield 4, Lbs (177.9 kn) 6 5 Torque (Lbs-Ft

117 RPM GPM 5 GPM 8 GPM 11

118 2-7/8 Motor, 7/8 Lobe Configuration, 2.5 Stages Lobe Configuration Overall Length Common Box Connections Bit Size Maximum Flow Rate Minimum Flow Rate RPM per Unit No Load Maximum Operating Torque Differential Pressure at Max. Operating Torque Horsepower at Maximum Flow Horsepower at Minimum Flow Maximum Weight-on-Bit Maximum Overpull (Re-Run) Motor Yield 7/8 2.5 Stages 52 Stator 2-3/8 Reg., NW Rod 3-1/2 4-1/2 (88.9 mm mm) 11 GPM (416 LPM) 7 GPM (265 LPM) 3.75 Revs/Gallon (.99 Revs/Liter) 25 Lbs-Ft (339 N-m) 475 PSI (3275 KPa) 11.5 HP (8.57 kw) 8.8 HP (6.56 kw) 19,34 Lbs (86 kn) Dynamic 61,6 Lbs (274 kn) Static 3.8 Lbs (137 kn) 4, Lbs (177.9 kn) 3 25 Torque Lbs-Ft Min Flow Max Flow

119 RPM GPM 9 GPM 11 GPM

120 2-7/8 Motor Tool Joint Torque Specifications Motor Size 2.88 Thread Torque Lbs-FT Torque N-m Top Sub Box Up 2 3/8 REG NW ROD Pin Down 2 7/8 ADHP Stator Tube ABH/Stator X-Over Adjustable Bend Housing Sub- Assembly Bearing Pack Housing Box Up 2 7/8 ADHP Box Down 2 7/8 ADHP Pin Up 2 7/8 ADHP Pin Down 2 7/8 ADHP Box Up NA NA NA Pin Down NA NA NA Box Up 2 7/8 ADHP Box Down SA-LEFT HAND Lower Seal Sub Pin Up SA-LEFT HAND Bit Box Box Down 2 3/8 REG NW ROD

121 Fishing Diagram 2-7/8 Inch Motor 114

122 Useful Conversion Factors Length: 1 Foot = 12 Inches 1 inch =.833 Feet 1 Inch = 2.54 centimeters = 25.4 millimeters 1 centimeters = 1 millimeters = 1 Meter 1 Meter = Feet 1 Foot =.348 Meters Volume: 1 Oil Barrel = 42 Gallons 1 Oil Barrel = Liters 1 Gallon =.2381 Oil Barrels 1 Liter =.629 Oil Barrels 1 Gallon = Liters 1 Liter = Gallons Useful Formulas Hydraulic Horsepower = Pressure (psi) x Flow Rate (gpm)/1714 Mechanical Horsepower = Torque (lbs-ft) x rpm/5252 Annular Velocity = 24.5 x GPM/(Diameter (inches) 2 OD pipe (inches) 2 ) Where: psi = pounds per square inch gpm = gallons per minute rpm = revolutions per minute Force: 1 Pound Force = Newton 1 Newton = Pounds Force Pressure: 1 Pound/Square Inch = kilo-pascals 1 KPascal =.1454 Pound/Square Inch Temperature: Celsius = ( Fahrenheit 32)/1.8 Fahrenheit = 1.8 x Celsius

123 AXON Downhole Products 168 Tower Oaks Blvd. Houston, TX 777 P F SDS Erbil Facility Gazna Rd. Ainkawa, Erbil Kurdistan Region, Iraq P AXON Energy Products WORLD HEADQUARTERS 1343 Sam Houston Park Dr. Suite 21 Houston, TX 7764 P F Quoz Industrial Estate PO Box Dubai, UAE P F Visit axonep.com for more information