0115603 JET NEEDLE, 3.3 model JOHNSON
BJ2REDE, BJ2REUD, BJ3ROEDE, BJ3ROEUD, HJ2DRETC, HJ3REIC, HJ3RENR, HJ3RETC, J2RECS, J2REEC, J2ROEOB, J2RTSIA, J2RTSSR, J2WREES, J2WRSIR, J2WRSSC, J3REEC, J3ROECS, J3ROEOB, J3RSNF, J3RSTB, J3RTLSIA, J3RTLSSR, J3WREES, J3WRSIR, J3WRSSC
JET
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Kimpex Metallic Brake Pad Metal - N/A
Kimpex Brake Type: Brake pads || Compatible Brand: Fits Arctic cat || Material: Metal || Position: N/A || Brake number: 05-152-32FMSintered metal pads are ideal replacement where braking performance and durability are the prime requirements. All pads are not susceptible to resonance, which reduces squeaking brakes and gives superb braking control without lockup. Extensively tested to meet or exceed OEM specifications. Refer to the chart to find your model in order to know the exact position of every brake pads.
Kimpex Brake Type: Brake pads || Compatible Brand: Fits Arctic cat || Material: Metal || Position: N/A || Brake number: 05-152-32FMSintered metal pads are ideal replacement where braking performance and durability are the prime requirements. All pads are not susceptible to resonance, which reduces squeaking brakes and gives superb braking control without lockup. Extensively tested to meet or exceed OEM specifications. Refer to the chart to find your model in order to know the exact position of every brake pads.
$29.03
12-04-2023
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Deewin Brake Pad Arctic Made W/Kevlar Carbon Letigre Bearcat 0115-603
Part_Number: 0115-603,05-152-32K,K05-152-32K || Condition: 100% new in package. Never be installed or used. || Built to strict quality control standards || Made of materials
Part_Number: 0115-603,05-152-32K,K05-152-32K || Condition: 100% new in package. Never be installed or used. || Built to strict quality control standards || Made of materials
Compatible models:
BRP JOHNSON entire parts catalog list:
- CARBURETOR » 0115603
BJ3ROEDE, HJ3ROEDE, HJ3RSA, J3ROEDE, SJ3ROEDE 1996
BJ3ROEUD, HJ3ROEUD, HJ3RSK, J3ROEUD, SJ3ROEUD 1997
HJ2DRERM, HJ2DRETC 1993,1994
HJ3REIC 1991
HJ3RENR 1992
HJ3RERM, HJ3RETC 1993,1994
J2RECS, J2RSS 1998
J2REEC 1999
J2ROEOB 1995
J2RTSIA, J2RTVSIA 2001
J2RTSSR 2000
J2WREES 1999
J2WRSIR 2001
J2WRSSC 2000
J3REEC, J3RLEEC 1999
J3ROECS, J3ROLECS, J3RSS 1998
J3ROEOB 1995
J3RSNF 2002
J3RSTB, J3RSTF 2003
J3RTLSIA, J3RTSIA, J3RTVSIA 2001
J3RTLSSR, J3RTSSR 2000
J3WREES 1999
J3WRSIR 2001
J3WRSSC 2000
Information:
Air Compressors:
BHP = 1/4 × cu. ft. per minute at 100 psi Increase BHP 10% for 125 psiDecrease BHP 10% for 80 psiAMA HP for U.S.A. Tax Purposes:
Where: N = No. of Cylinders D = Piston Diameter in inchesBrake Mean Effective Pressure:
Conveyors: 15 to 20° incline.
Cooling:
Heat Exchanger Flow Rate Raw water to jacket water 1:1 to 2:1Submerged Pipe Cooling 1/2 Sq. ft. surface area per HPWith 85°F flowing raw waterElectricity:
Generator Capacity Required: Motors:1 kW per nameplate HP (motor running cool or warm to touch)11/4 kW per nameplate HP (motor running hot to touch)Horsepower Requirements: 11/2 BHP per kW of load or Electric Sets:
Motor Starting Requirements: Inrush kVa (Code F motor) = 5.5 × BHPInrush Current (Code F motor)= 6.2 × Full load rated current1 kVa per HP at full loadGenerator full load rated current capacity: Generator Cooling Requirements: Air Flow - 150°CFM per kW loss × efficiencyCircuit Breaker Trip Selection: 1.15 to 1.25 × full load generator amp ratingSingle Phase Rating of 3-Phase Generator: 60% of 3-phase ratingGenerator Temperature Rise: Increase 1°C for each 330 feet above 3300 feetFuel Consumption
Gas Compressor:
BHP = 22 RcVSWhere: Rc = Stage Compression RatioV = Million cu. ft./dayS = Number of StagesHeat Rejection
% of Fuel Energy Consumed Jacket Water Prechambered engines BTU/min = 36 × BHPDirect injection engines BTU/min = 27 × BHP Hours Per:
Year = 8760 (365 Days)Week = 168 (7 Days)Month = 720 (30 Days)Oilfield Drilling:
Hoisting Mud Pumps Rotary Table On Site Power Requirements:
Based on 100,000 sq. ft. of office bldg., etc., and 40°N. latitudes Electric Requirements: 600 kW continuous load(air conditioning is absorption)Use three - 300 kW units (2 prime and 1 standby)Air Conditioning Compressor 400 tons prime loadUse two - 200 HP engines (No standby)Pumps:
Pipe Line BHP = Barrels per hour × psi × 0.00053 *Efficiency Refrigeration
One ton refrigeration = 200 BTU/Min. = 12,000 BTU/Hr.One boiler HP = 33,475 BTU/Hr.One ton compressor rating = One Engine HPAuxiliary air conditioning equipment requires 1/4 HP per ton of compressor ratingIce Plant: Complete power requires 4-5 HP per daily ton capacitySawmill:
11/2 BHP per inch of saw diameter at 500 RPM Increase or decrease in proportion to RPMSwing Cut-Off Saw Table Trimmer 71/2 to 10 BHPBlower Fan 12-foot sawdust 3 to 5 BHPPlaner Mill 2 to 4 BHP per 100 board feet per hour 24 to 30-inch planers 15 to 25 BHPEdgers Approximate fuel consumption: Softwood 1 gal. per 1000 board feetHardwood 1 gal. per 750 board feetPropellor Shaft Size Selection:
For intermediate shaft and tailshaft in marine installations Where: D = Diameter in inchesHP = HorsepowerS = Torsional stress in PSI (usually 5000)Shovels and Draglines:
Use manufacturer's recommendations. Torque: (4 cycle only) Torque Converters:
Peak output shaft horsepower: Normally 80% of input horsepower for either single or three-stage converterOutput shaft speed at peak output horsepower: Single-stage - 0.7 to 0.85 engine full load speedThree-stage - 0.5 to 0.6 engine full load speedTorque multiplication at or near stall: Single-stage - 2.2 to 3.4 times engine torqueThree-stage - 3.6 to 5.4 times engine torqueVentilation:
Natural 1/2 net square inch for each BHPBlown 1/3 net square inch for each BHPMetric Units
Air Compressors:
110 kW = 1 m3/min @ 850 kPa100 kW = 1 m3/min @ 675 kPa90 kW = 1 m3/min @ 550 kPaAMA Power for U.S.A. Tax Purposes:
Where: N = No. of CylindersD = Piston Diameter in millimetersBrake Mean Effective Pressure:
Conveyors: 15 to 20° incline. Cooling:
Heat Exchanger Flow Rate Raw water to jacket water 1:1 to 2:1Submerged Pipe Cooling 1 m2 surface area per 16 kW with 30°C flowing raw waterElectricity:
Generator Capacity Required: Motors:11/3 kW per nameplate kW (motor running cool or warm to touch)12/3 kW per nameplate kW (motor running hot to touch)Engine Power Requirements: Electric Sets:
Motor Starting Requirements: Inrush kVa (Code F motor) = 41/8 × nameplate kWInrush Current (Code F motor) = 6.2 × full load rated current11/3 kVa per kW at full loadGenerator full load rated current capacity: Generator Cooling Requirements: Air Flow = 41/4 m3 per kW loss × efficiencyCircuit Breaker Trip Selection: 1.15 to 1.25 × full load generator amp ratingSingle Phase Rating of 3-Phase Generator: 60% of 3-Phase ratingGenerator Temperature Rise: Increase 1°C for each 100 meters above 1000 metersFuel Consumption
3*33 720 kJ/mGas Compressor:
kW = 777 Rc VSWhere : Rc = Stage Compression RatioV = Millions cubic meters per dayS = Number of Stages
BHP = 1/4 × cu. ft. per minute at 100 psi Increase BHP 10% for 125 psiDecrease BHP 10% for 80 psiAMA HP for U.S.A. Tax Purposes:
Where: N = No. of Cylinders D = Piston Diameter in inchesBrake Mean Effective Pressure:
Conveyors: 15 to 20° incline.
Cooling:
Heat Exchanger Flow Rate Raw water to jacket water 1:1 to 2:1Submerged Pipe Cooling 1/2 Sq. ft. surface area per HPWith 85°F flowing raw waterElectricity:
Generator Capacity Required: Motors:1 kW per nameplate HP (motor running cool or warm to touch)11/4 kW per nameplate HP (motor running hot to touch)Horsepower Requirements: 11/2 BHP per kW of load or Electric Sets:
Motor Starting Requirements: Inrush kVa (Code F motor) = 5.5 × BHPInrush Current (Code F motor)= 6.2 × Full load rated current1 kVa per HP at full loadGenerator full load rated current capacity: Generator Cooling Requirements: Air Flow - 150°CFM per kW loss × efficiencyCircuit Breaker Trip Selection: 1.15 to 1.25 × full load generator amp ratingSingle Phase Rating of 3-Phase Generator: 60% of 3-phase ratingGenerator Temperature Rise: Increase 1°C for each 330 feet above 3300 feetFuel Consumption
Gas Compressor:
BHP = 22 RcVSWhere: Rc = Stage Compression RatioV = Million cu. ft./dayS = Number of StagesHeat Rejection
% of Fuel Energy Consumed Jacket Water Prechambered engines BTU/min = 36 × BHPDirect injection engines BTU/min = 27 × BHP Hours Per:
Year = 8760 (365 Days)Week = 168 (7 Days)Month = 720 (30 Days)Oilfield Drilling:
Hoisting Mud Pumps Rotary Table On Site Power Requirements:
Based on 100,000 sq. ft. of office bldg., etc., and 40°N. latitudes Electric Requirements: 600 kW continuous load(air conditioning is absorption)Use three - 300 kW units (2 prime and 1 standby)Air Conditioning Compressor 400 tons prime loadUse two - 200 HP engines (No standby)Pumps:
Pipe Line BHP = Barrels per hour × psi × 0.00053 *Efficiency Refrigeration
One ton refrigeration = 200 BTU/Min. = 12,000 BTU/Hr.One boiler HP = 33,475 BTU/Hr.One ton compressor rating = One Engine HPAuxiliary air conditioning equipment requires 1/4 HP per ton of compressor ratingIce Plant: Complete power requires 4-5 HP per daily ton capacitySawmill:
11/2 BHP per inch of saw diameter at 500 RPM Increase or decrease in proportion to RPMSwing Cut-Off Saw Table Trimmer 71/2 to 10 BHPBlower Fan 12-foot sawdust 3 to 5 BHPPlaner Mill 2 to 4 BHP per 100 board feet per hour 24 to 30-inch planers 15 to 25 BHPEdgers Approximate fuel consumption: Softwood 1 gal. per 1000 board feetHardwood 1 gal. per 750 board feetPropellor Shaft Size Selection:
For intermediate shaft and tailshaft in marine installations Where: D = Diameter in inchesHP = HorsepowerS = Torsional stress in PSI (usually 5000)Shovels and Draglines:
Use manufacturer's recommendations. Torque: (4 cycle only) Torque Converters:
Peak output shaft horsepower: Normally 80% of input horsepower for either single or three-stage converterOutput shaft speed at peak output horsepower: Single-stage - 0.7 to 0.85 engine full load speedThree-stage - 0.5 to 0.6 engine full load speedTorque multiplication at or near stall: Single-stage - 2.2 to 3.4 times engine torqueThree-stage - 3.6 to 5.4 times engine torqueVentilation:
Natural 1/2 net square inch for each BHPBlown 1/3 net square inch for each BHPMetric Units
Air Compressors:
110 kW = 1 m3/min @ 850 kPa100 kW = 1 m3/min @ 675 kPa90 kW = 1 m3/min @ 550 kPaAMA Power for U.S.A. Tax Purposes:
Where: N = No. of CylindersD = Piston Diameter in millimetersBrake Mean Effective Pressure:
Conveyors: 15 to 20° incline. Cooling:
Heat Exchanger Flow Rate Raw water to jacket water 1:1 to 2:1Submerged Pipe Cooling 1 m2 surface area per 16 kW with 30°C flowing raw waterElectricity:
Generator Capacity Required: Motors:11/3 kW per nameplate kW (motor running cool or warm to touch)12/3 kW per nameplate kW (motor running hot to touch)Engine Power Requirements: Electric Sets:
Motor Starting Requirements: Inrush kVa (Code F motor) = 41/8 × nameplate kWInrush Current (Code F motor) = 6.2 × full load rated current11/3 kVa per kW at full loadGenerator full load rated current capacity: Generator Cooling Requirements: Air Flow = 41/4 m3 per kW loss × efficiencyCircuit Breaker Trip Selection: 1.15 to 1.25 × full load generator amp ratingSingle Phase Rating of 3-Phase Generator: 60% of 3-Phase ratingGenerator Temperature Rise: Increase 1°C for each 100 meters above 1000 metersFuel Consumption
3*33 720 kJ/mGas Compressor:
kW = 777 Rc VSWhere : Rc = Stage Compression RatioV = Millions cubic meters per dayS = Number of Stages