65 GPH HP In-line Fuel Pump
SKU
HTPD-12-600
List price
$539.94
Price
$449.95
Description
Street/Strip Carb or EFI Applications
Supports up to 600 EFI or 730 Carb HP
Compatible with Pump or Race gas
Features
- Billet aluminum construction for durability & good looks
- -10 an O-ring inlet and -8 an O-ring outlet for high flow and superior sealing
- Excellent for use with carbureted or EFI applications
- Fully submersible in-tank for custom applications, space savings and less plumbing
- Compatible with 12v to 18.5v systems for street or race use
- Compact (7.5” long x 3” wide x 2.75” tall) for easy installation on frame rails or other tight areas
- Proven durability beyond 3,000 hours in gasoline
- Weighs only 3.1 lbs.
- 10 AMP maximum amp draw
- Not designed for use on aircraft of any type.
Specs
Brand
HOLLEY
Category
Electric Fuel Pump
Specs
Brand: Holley
Voltage: 12-18.5
Warning: California Proposition 65
Category: Air and Fuel Delivery
GPH@8PSI: 65
LPH@8PSI: 230
Material: Aluminum
Warranty: Manufacturer's Limited 90 Day Warranty
Fuel Type: Gasoline
GPH@43PSI: 48
GPH@60PSI: 41
LPH@43PSI: 181
LPH@60PSI: 155
part type: Electric Fuel Pump
Grade Type: Performance
Inlet Size: 10 AN O-Ring - 7/8-14 SAE
Inlet Type: 10 AN ORB
Application: Universal
Fuel System: EFI
Outlet Size: 8 AN O-Ring - 3/4-16 SAE
Outlet Type: 8 AN ORB
Product Type: Fuel Pump
Sub Category: Fuel Pumps and Related Components
Emission Code: 5
Free Flow GPH: 67
Wire Quantity: 2
Negative Ground: Yes
Outlet Quantity: 1
Pump Body Color: Black Anodized
Maximum Pressure: 80
Fuel Delivery Type: Carburetor
Regulator Included: No
Maximum Flow Rating: 65
Internal Or External: Internal External
Maximum Amperage Draw: 10
Gasket Or Seal Included: No
Forced Induction HP@43PSI: 450
Forced Induction HP@60PSI: 380
Inlet Fitting Thread Size: 7/8-14
Universal Or Specific Fit: Universal
Fuel Sending Unit Included: No
Outlet Fitting Thread Size: 3/4-16
Naturally Aspirated HP@8PSI: 730
Naturally Aspirated HP@43PSI: 600
Naturally Aspirated HP@60PSI: 500
PDFs
PDFs
68b1abd65f2da.pdf
(927.47 KB)
