mos68x
Automotive
- Aug 27, 2005
- 7
Hello, I'm new to the forum so please forgive me if I am killing a dead horse.
I'm working a project that seems to keep changing every 5 min. I have a 1.8 motor that I have previously done bottom-end work and head work to exceed $3500 and I need help in finding that elusive formulea to find the perfect setup for a "new" fuel for the engine, hydrogen. Among many other things to change in my projected setup, one is the boosting method and the other is static compression ratio.
I have run across a NACA survey file that goes into great detail on the flame temps, propogation, and limits of hydrogen being used in an ICE.
What I want to do is use 12:1 static compression to take full advantage of hydrogen's high octane effect and supercharge it as well, so say only 8 psi to start with for equation's sake.
The problem that I am having is that I cannot find one single formula that averyone seems to agree on for calutating tempurature increase for given pressure increase. I have to keep the intake charge less than 515C so that I do not have auto-ignition before spark ignition, besides trying to avoid detonation from cyl temps.
I have been using a formula similar to the following to get an idea where to start from at least:
dT = T1 * [((P2/P1)^.285)-1]
I cannot find the exact post I found this on since I'm a little tired, but I did put it into my Excel beforehand.
I have used it to find a generalization of temp after supercharging, but I am not sure if I can use the same formula to calc the temp increase from the static CR.
I have used the ECR formula to find cyl PSI numbers so that I can start with some sort of numbers.
((boost psi / 14.7) + 1) x static compression = effective compression
SCR: 12:1
boost PSI: 8
ECR: 18.53:1
chamber PSI: 420.6
pressure ratio: (8+14.7)/14.7)
temp ratio: ((8+14.7)/14.7)^(0.4/1.4)=1.132
tempR: 1.132*529.6R(70F)=599.6R(140F)
And to continue to the chamber after the supercharger temp I get 1095F(590.6C) with the same formula and without any cooling at all.
Can someone confirm/deny this work for me? I'm tired so please forgive any incoherent thought.
I'm working a project that seems to keep changing every 5 min. I have a 1.8 motor that I have previously done bottom-end work and head work to exceed $3500 and I need help in finding that elusive formulea to find the perfect setup for a "new" fuel for the engine, hydrogen. Among many other things to change in my projected setup, one is the boosting method and the other is static compression ratio.
I have run across a NACA survey file that goes into great detail on the flame temps, propogation, and limits of hydrogen being used in an ICE.
What I want to do is use 12:1 static compression to take full advantage of hydrogen's high octane effect and supercharge it as well, so say only 8 psi to start with for equation's sake.
The problem that I am having is that I cannot find one single formula that averyone seems to agree on for calutating tempurature increase for given pressure increase. I have to keep the intake charge less than 515C so that I do not have auto-ignition before spark ignition, besides trying to avoid detonation from cyl temps.
I have been using a formula similar to the following to get an idea where to start from at least:
dT = T1 * [((P2/P1)^.285)-1]
I cannot find the exact post I found this on since I'm a little tired, but I did put it into my Excel beforehand.
I have used it to find a generalization of temp after supercharging, but I am not sure if I can use the same formula to calc the temp increase from the static CR.
I have used the ECR formula to find cyl PSI numbers so that I can start with some sort of numbers.
((boost psi / 14.7) + 1) x static compression = effective compression
SCR: 12:1
boost PSI: 8
ECR: 18.53:1
chamber PSI: 420.6
pressure ratio: (8+14.7)/14.7)
temp ratio: ((8+14.7)/14.7)^(0.4/1.4)=1.132
tempR: 1.132*529.6R(70F)=599.6R(140F)
And to continue to the chamber after the supercharger temp I get 1095F(590.6C) with the same formula and without any cooling at all.
Can someone confirm/deny this work for me? I'm tired so please forgive any incoherent thought.
