Hey Hydrazine!
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Hey Hydrazine!
I was looking at some of the some of the test data on the site in your sig. I noticed a common dip around the 5K range for almost everyone. Is the a product of the intake runner lengths? I know from tuned ports on the early Chevies, runner lengtht was a compromize. Since I'm real particular about that range, has any one addressed it?
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Runner length can effect the performace curve in many ways and if you understood that you might have followed along. When the intake valve closes, what happens to the mass of air that was flowing in, does it just stop? NO, it hits the intake valve and bounces back and heads its way back up the runner. As it does this, it creates a low area of pressure behind it. So after it gets a certian distance back up the runner, it'll tend to turn itself around and go back towards the intake valve. We'll call these, harmonics for the sake of explaining.
Car manufactures realized this many, many years ago and started putting this to use. I want to say the third harmonic is the one they shoot for. So when the pulse is returning on the third bounce, if they can open the intake valve, they can capture the pressure and movement of the charge to increase the volume of the intake charge. So any mods to the intake length will effect the way these pulses act and the timing at which they return.
Before you try and wiggle out and say just another old man that doesn't know how to use the computer, it might help you to understand that I've been programming computers since the 70's, back when a 1K hard drive was as big as a trash can. I had a 286 12mhz machine controling dedicated functions of my house back in the 80's. Built the interface using the parallel port and talked to it using fortran.
I do process controls for a living, 35 years worth. Every thing from a small food processing plant to 500 Mega Watt utility boilers and everything inbetween. I'm currently in two plants, one which is the largest of it's type in the world. At last count, we had over 40 thousand tagnames and over 16 thousand wired devices in the field. I've been involved in every aspect of the design/commisioning and start-up of the both plants.
So that little ECU in your car, my work is tuning these, but the scale of my ECU takes up whole buildings and that doesn't even get near all the other interfaces we have to build to make the system work. Your one dash, we have thousands of windows, enough so that we have a dedicated building for operators to sit in and watch screens all day long.
So yeah, my question might have seemed dumb to you, but understand, my simple little mind can't comprehend as well as yours. Maybe, just maybe, some day I'll be as wise as you.
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Picture the pulse hitting the valve while its still closed. This is right after the peak. The timing gets a little worse as we go, that is the pulse arrives sooner and sooner before the intake valve opens, so it has actually bounced off the valve and moved further back up the runner. Then we hit this spot on the curve where the intake pulse is further down the runner and has begun to make it's turn around, but it's way up the runner so the natural charge we were using before is coming back to us, but it's not close enough to the valve to make good use of.
Engine speed and air speed are going to effect how this all works. The setup maybe for using the forth harmonic at lower engine speeds and then moving towards the third at higher speeds.
Valve timing can help to control some of this and since the introduction of variable valve timing, I'm scratching the dirt to see if any one is playing with the two together, valve timing and runner design.
#12
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Yep, I've heard of a PM, but I'm not looking for a personal answer. See I've built and modified engines on cars and bike since I was 13, this week I turned 51, you do the math. Hydrazine seems to know what he talking about so I asked about the runner length.
Runner length can effect the performace curve in many ways and if you understood that you might have followed along. When the intake valve closes, what happens to the mass of air that was flowing in, does it just stop? NO, it hits the intake valve and bounces back and heads its way back up the runner. As it does this, it creates a low area of pressure behind it. So after it gets a certian distance back up the runner, it'll tend to turn itself around and go back towards the intake valve. We'll call these, harmonics for the sake of explaining.
Car manufactures realized this many, many years ago and started putting this to use. I want to say the third harmonic is the one they shoot for. So when the pulse is returning on the third bounce, if they can open the intake valve, they can capture the pressure and movement of the charge to increase the volume of the intake charge. So any mods to the intake length will effect the way these pulses act and the timing at which they return.
Before you try and wiggle out and say just another old man that doesn't know how to use the computer, it might help you to understand that I've been programming computers since the 70's, back when a 1K hard drive was as big as a trash can. I had a 286 12mhz machine controling dedicated functions of my house back in the 80's. Built the interface using the parallel port and talked to it using fortran.
I do process controls for a living, 35 years worth. Every thing from a small food processing plant to 500 Mega Watt utility boilers and everything inbetween. I'm currently in two plants, one which is the largest of it's type in the world. At last count, we had over 40 thousand tagnames and over 16 thousand wired devices in the field. I've been involved in every aspect of the design/commisioning and start-up of the both plants.
So that little ECU in your car, my work is tuning these, but the scale of my ECU takes up whole buildings and that doesn't even get near all the other interfaces we have to build to make the system work. Your one dash, we have thousands of windows, enough so that we have a dedicated building for operators to sit in and watch screens all day long.
So yeah, my question might have seemed dumb to you, but understand, my simple little mind can't comprehend as well as yours. Maybe, just maybe, some day I'll be as wise as you.
Runner length can effect the performace curve in many ways and if you understood that you might have followed along. When the intake valve closes, what happens to the mass of air that was flowing in, does it just stop? NO, it hits the intake valve and bounces back and heads its way back up the runner. As it does this, it creates a low area of pressure behind it. So after it gets a certian distance back up the runner, it'll tend to turn itself around and go back towards the intake valve. We'll call these, harmonics for the sake of explaining.
Car manufactures realized this many, many years ago and started putting this to use. I want to say the third harmonic is the one they shoot for. So when the pulse is returning on the third bounce, if they can open the intake valve, they can capture the pressure and movement of the charge to increase the volume of the intake charge. So any mods to the intake length will effect the way these pulses act and the timing at which they return.
Before you try and wiggle out and say just another old man that doesn't know how to use the computer, it might help you to understand that I've been programming computers since the 70's, back when a 1K hard drive was as big as a trash can. I had a 286 12mhz machine controling dedicated functions of my house back in the 80's. Built the interface using the parallel port and talked to it using fortran.
I do process controls for a living, 35 years worth. Every thing from a small food processing plant to 500 Mega Watt utility boilers and everything inbetween. I'm currently in two plants, one which is the largest of it's type in the world. At last count, we had over 40 thousand tagnames and over 16 thousand wired devices in the field. I've been involved in every aspect of the design/commisioning and start-up of the both plants.
So that little ECU in your car, my work is tuning these, but the scale of my ECU takes up whole buildings and that doesn't even get near all the other interfaces we have to build to make the system work. Your one dash, we have thousands of windows, enough so that we have a dedicated building for operators to sit in and watch screens all day long.
So yeah, my question might have seemed dumb to you, but understand, my simple little mind can't comprehend as well as yours. Maybe, just maybe, some day I'll be as wise as you.
Last edited by Changvi; 11-29-2008 at 09:53 AM.
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This thread is evidence that we could have some extremely intelligent, and contributing members on this board if it weren't' for f@ckheads running them off at the first chance. I'm sure many have left in the past who did not have the patience to put up with such inconsiderate adolescence.
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This thread is evidence that we could have some extremely intelligent, and contributing members on this board if it weren't' for f@ckheads running them off at the first chance. I'm sure many have left in the past who did not have the patience to put up with such inconsiderate adolescence.
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On this board, I see more insults than I do contributions. There's an opportunity to build a good forum, but the childish ways do run people off. Then you say fine for them and what you have left is a forum full of children spouting off back and forth at each other. Hardly what I would call a forum to exchange ideas and learn more about the car we all seem to have an interest in.
The way I look at it Abe Lincoln said it best. "Better to remain silent and be thought a fool than to speak out and remove all doubt."