orx626 wrote:Two obvious items that need to be designed and manufactured are the oil filter pedestal and the oil filler neck. The necessity to replace the oil filter pedestal is only an issue on this kit as the supercharger is larger than the supercharger being used on the road-going RX-8 kits.
Hi all, time for a quick update....the oil filter pedestal/block has been designed (refer below solidworks images)and sent out for machining. The block has provision for the the oil supply from the oil cooler and remote filter, an oil temperature sender, an oil pressure sender, and the supercharger oil supply line. It replaces the standard oil filter pedestal shown here.
The custom oil filler neck is currently a WIP
.As mentioned previously, I'm also installing the road version of this kit on my RX-8. Prior to doing this I wanted to check the health of the 13B as it is nearing the 100,000km milestone. There's no point sticking 10 psi in it if it's needing some TLC
. I recently acquired for work the current special service tool that Australian Mazda Dealers are using to measure rotary engine compression. The fact that there are effectively three combustion chambers being ignited per leading and trailing spark plugs means that a traditional compression testing tool will only measure the highest compression number of the three combustion chambers. The tool is basically a pressure sender that has been calibrated to work in a 0 - 200 psi range and works with datalogging software that you just install on any PC/laptop.Well after 98,200 km the 13B MSP in my RX-8 yielded the following results (the below graph is for the front rotor):
Front Rotor : 110.9 psi, 109.7 psi & 116.7 psi @ a cranking speed of 216 rpm
Rear Rotor : 110.7 psi, 115.0 psi & 114.9 psi @ a cranking speed of 219 rpm
To put this in perspective, Mazda advises that a brand new 13B MSP should have a standard compression reading of 120 psi at a cranking speed of 250 rpm, and the minimum as 98.6 psi also at 250 rpm. Standard difference in chambers should be within 21.8 psi, and the difference between rotors within 14.5 psi. If your cranking speed during the test is close to 250 rpm, you can use the readings as recorded. However, if engine cranking speed deviates significantly from the Mazda criteria, you may want to proceed with normalisation of the recorded readings. Essentially, slower engine cranking RPM during the test will result in readings lower than the Mazda standard. I haven't normalised the data...but all that's going to show is an increase the compression readings!!!
In summary, after almost 100,000km the engine is showing excellent health and will respond favourably to a bit of forced induction 
.Cheers,
Danny
