1990 Ford F-250 Pickup Performance Engine Water Pumps

Your 1990 Ford F-250 Pickup might be the best vehicle you’ve ever owned. Or you may just be struggling to keep it highway-approved. No matter the situation, Advance Auto Parts has the Performance Engine Water Pumps you desperately need.

We currently carry 1 Performance Engine Water Pumps to choose from for your 1990 Ford F-250 Pickup, and our inventory prices range from as little as $526.99.

On top of low prices, Advance Auto Parts offers 1 different trusted brands of Performance Engine Water Pumps for the 1990 Ford F-250 Pickup. We only sell parts from trusted brands like Edelbrock so that you can find quality parts you can count on.

Have parts delivered straight to your home, or find the nearest Advance Auto Parts store to check out our Performance Engine Water Pumps stock in-person!

Performance Engine Water Pumps for Your 1990 Ford F-250 Pickup

Edelbrock – Water Pump for Ford 429/460 in Polished Finish (Part No.8876)

Water Pump for Ford 429/460 in Polished Finish

from

$526.99
Maximum cooling for street and racing engines. Internal passages are balanced for maximum flow. Impeller is larger than others for maximum pressure. Impeller vanes dramatically increase flow rates. Equal distribution to both sides of block. Only flows in one direction for optimum efficiency. In the early days of the automotive performance industry, you either ran what was available, or you fabricated something you thought met your needs. Such needs were the building blocks of this industry, and it was through the efforts of many that we have the automotive aftermarket, but it was through the work of one name in particular to which many in the industry owe a great debt, and that name is Edelbrock.

Product Features:
  • Maximum Cooling for Street and Racing Engines
  • Internal Passages Are Balanced for Maximum Flow
  • Impeller is Larger than Others For Max Pressure
  • Impeller Vanes Dramatically Increase Flow Rates
  • Equal Distribution to Both Sides of Block
  • Only Flows in One-Direction for Optimum Efficiency
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