IPD 992 Carrera Plenum
The IPD 992 Carrera plenum is a great upgrade to reduce turbo lag and gain some power through a more efficient, optimized design of the plenum.
The efficiencies of the Plenum dramatically reduce initial turbo lag down low helping access the power and torque sooner, but the bulk of the power and torque gains are realized from 4000 rpm to redline, where it is needed and enjoy most. The HP and TQ gains continue to grow and outperform the factory air distributor as you climb through the revs. Peak gains of 30+ wheel HP and 25+ wheel TQ are achieved at 6200 rpm.
From IPD Plenums:
The new 992 Carrera engine is another modern marvel from Porsche. Although displacement remains unchanged at 3.0L, there are a plethora of upgrades that elevate this new 9A2 Evo engine head and shoulders above the previous 991.2 model engine. We were fortunate enough to have unlimited access to a 992 Carrera S during our extensive development and testing program. This unrestricted time frame proved to be invaluable, allowing IPD to scrutinize every engineering and design aspect in an effort to deliver the best-performing Plenum possible.
Like all IPD Plenums, the 992 Plenum is a product of efficiency that produces substantial HP and TQ gains through a superior and patented “Y” design that manages and delivers optimized airflow for enhanced engine performance. The Plenum has been proven to deliver substantial net performance gains across both power bands and is guaranteed to elevate the driving experience of any Carrera.
Development started with a 1D simulation to optimize the treatment of pulse peaks in the intake tract using different pipe geometry and known engine parameters of the 992. We then graduated to optimizing 2D slices of the plenum in CFD, paying special attention to places where adverse pressure gradients that might cause separation. This allowed us to adjust curvatures on the plenum faces and build up our understanding of what was happening inside the pipe at full throttle.
After we were happy with the 2D slices we graduated to 3D adding in all the geometry to make this a plug-and-play bolt-on part with optimal performance characteristics. After hundreds of geometrical and CFD iterations, we were pleased with not only the increase in mass flow compared to the stock intake but also the uniformity of the charge pressure and velocity across the 2 branches.