Bentley Tuning Tips and Modifications
Maximise your Bentleys driving pleasure
Thank you so much for visiting TorqueCars, we love Bentley’s and see quite a few interesting projects.
If you are looking to build the ultimate Bentley then you’ve found the right place.
Our tuning tips and articles for the Bentley cover all the best mods and latest tuning methods to help you build a great modified Bentley.
With the help of our forum members, industry professionals and seasoned car modders we present a best practice guide to modding your Bentley.
Please join us in our forums, we love to hear what members are up to and it helps us spot trends so that we can ensure the site is always covering the latest and greatest tuning topics.
Feel free to drop a tip or suggestion on the comments box at the bottom of each and every article, this feedback is greatly valued and helps us refine our articles.
Stage 2 Tune
We look at the best mods to take your car tuning project to stage 2, and discuss the best mods for stage two upgrades. With most people asking about mods to make the most power we thought we would look at what it takes to fully release your cars potential and dissect the pros and cons of stage 2 mods.
Spoiler aerodymics rear spoiler design and constructionWe look at how spoilers work? We also explain the difference between a spoiler and a wing. Spoilers are generally closer to the body of the car and help diffuse the air.
Wings are mounted much higher up and have an aerodynamic effect of creating downforce
Big valve kits – larger intake valves.The heads primary job is the mixing of fuel and air and delivering this to the combustion chamber.
Any turbulence or drag can restrict the air flow into the engine starving you of power. So this TorqueCars article will focus on the intake valves and how they can be improved.
The aim of head tuning is both to maximise the amount of air and fuel that gets into the engine, and to improve the mixture.
Principles of porting an engine and big valve conversionsThe inlet and outlet ports on the engine block are usually larger than those of the manifolds that connect to them.
This allows for scope in the manufacturing process to allow for mismatched alignment.
Generally the engine ports are larger in the upstream flow direction avoiding turbulance but power gains can be made by matching these up.