Search Northern Tool

Looking for Answers about "Dynamic Gear Pump - .97 Cu. In., Model# GP-F20-16-P-C"?

"Automotive(Q:517 A:721)
"Construction(Q:6 A:8)
"Fans(Q:229 A:311)
"Farm + Acreage(Q:39 A:54)
"Food Processing(Q:60 A:80)
"Hand Tools(Q:4 A:4)
"Lawn + Garden(Q:67 A:109)
"Material Handling(Q:342 A:405)
"Power Tools(Q:143 A:201)
"Trailers + Towing(Q:21 A:29)
"Welding(Q:69 A:84)
Air Tools + Compressors(Q:1487 A:2084)
Automotive(Q:1886 A:2440)
Clothing + Footwear(Q:143 A:183)
Construction(Q:706 A:945)
Electrical(Q:258 A:349)
Engines(Q:375 A:450)
Fans(Q:574 A:689)
Farm + Acreage(Q:899 A:1063)
Food Processing(Q:249 A:376)
Generators(Q:1594 A:2292)
Hand Tools(Q:413 A:500)
Lawn + Garden(Q:2623 A:3613)
Lighting(Q:227 A:324)
Logging(Q:456 A:735)
Material Handling(Q:743 A:937)
Metal Fabrication(Q:671 A:797)
Power Tools(Q:609 A:1061)
Pressure Washers(Q:1126 A:1534)
Safety(Q:138 A:206)
Seats(Q:375 A:549)
Security Equipment(Q:303 A:456)
Snow + Ice Removal(Q:310 A:415)
Sporting Goods + Toys(Q:534 A:719)
Storage + Organizers(Q:763 A:1060)
Tires + Wheels(Q:690 A:919)
Trailers + Towing(Q:1547 A:2011)
Water Pumps(Q:1271 A:1559)
Welding(Q:674 A:1063)
Winches(Q:446 A:575)

Customer Questions & Answers for
"Dynamic Gear Pump - .97 Cu. In., Model# GP-F20-16-P-C"

Item# 1029
"All-aluminum high-pressure hydraulic gear pump. Rotations Per Minute 3,000, Weight lbs. 6.27, Max. PSI 2,900, Material Aluminum, GPM 12.59, Shaft Diameter in. 5/8. Displacement size 97 cu. in./revolution GPM 12.59 @ 3000 RPM PSI 2900 Rotation CW Standard mounting flange SAE A-2 2-bolt Standard ports SAE-12 inlet and SAE-10 outlet Standard drive shaft 5/8in. dia. straight with 5/32 straight key Max. RPM 3000 7/8in.-14 outlet"
Customer Questions & Answers:
1 Question
 | 
1 Answer
Product Details

Questions & Answers for "Dynamic Gear Pump - .97 Cu. In., Model# GP-F20-16-P-C"

Question

What is the required hp to operate this pump

asked 4 years, 7 months ago
by
Anonymous
on "Dynamic Gear Pump - .97 Cu. In., Model# GP-F20-16-P-C"
0points
0out of 0found this question helpful.
1 answer
Answers
answer 1
Staff Answer
There are other variable to determine the Hp required to operate this pump. Here is the formula to figure it out:

HP Required = Flow Rate (GPM) x System Pressure (PSI) / 1714 x % Pump Efficiency
answered 4 years, 7 months ago
by
ProductExpert27
-8points
0out of 8found this answer helpful.
1 of 1