CVF Cold-side Aluminum Intercooler Pipe (2020-2023 3.0L Ford Explorer ST)
ESTIMATED SHIP DATE: IN STOCK AND SHIPS WITHIN 24 HOURS
Direct bolt-on replacement
3" to 2.25" cold side intercooler pipe in wrinkle black finish
Eliminates the crumpled section of the OEM intercooler pipe which restricts airflow from the intercooler to the throttle body
Mandrel-bent aluminum construction features significantly improved thermal capacity and 1/3 of the weight when compared to stainless steel alternatives
Includes 2x NPT bungs for direct injection (meth)
Includes CVF-branded 4-ply coupler and 2x T-bolt clamps
Designed for use with all aftermarket or stock intercoolers
CVF Lifetime Warranty
The Cold-side Aluminum Intercooler Pipe eliminates the crumpled section of the connection from the intercooler to the throttle body to maximize airflow from the intercooler (and help reduce charge air temps.).
The mandrel bends on the 3" to 2.25" aluminum pipe allows for smooth air flow where the OEM version falls short. The pipe is available in wrinkle black finish.
Designed to install easily with basic hand tools, this pipe requires no extra modifications or parts and should only take you about 30 minutes to swap out.
This part installs on the following vehicles:
2020-2023 Ford Explorer ST
- JBJordan b.Verified BuyerI recommend this productRated 5 out of 5 stars1 hour agoGreat fit
Fit great definitely will improve air flow getting rid of the factory pipe that flattens out and cuts flow
- STstephen t.Verified ReviewerI recommend this productRated 5 out of 5 stars4 months agoAnother quality product
Thanks to the team at CV Fab for allowing me to test fit their upcoming cold side piping. First version had fitment issues but their customer service is top notch! Had an opportunity to test fit their version 2 and I can honestly say it fits perfect in between the left intake pipe and coolant tank with no rubbing. They also added additional meth ports for those who want to add meth injection. Design is far better than stock as stock has restricted flow around the bends.