So I got exhaust done, posted about it in this thread http://www.fiestastforum.com/forum/threads/17016-Any-thoughts-on-interesting-sounding-mufflers/
There was some drone I wasn't satisfied with, so rather than just throw parts at it (i.e. add a muffler, etc.) I figured I would determine the frequencies I need to cancel out and work out a helmholtz or 1/4 wave resonator to clean it up a bit. The first step is to record audio of the process and do a spectral analysis. A screenshot of the spectral analysis is below.
-- edit/update --
(Apologies if I ramble, on pain meds!)
mission accomplished! First is an analysis of my car just idling before installing my quarter wave resonator
Then is my car idling in the exact same place, but after the installation of my "math-ed" resonator
(yes the pictures are 2 different programs, both programs showed the same thing, but one was done on my computer one was done live while sitting in the car).
The head splitting drone between 3000-3400 rpm is gone while driving, and resonance while idling is gone. I like very much.
In the end, I targeted 3200 rpm, it wasn't the *worst* resonance, but it was right in the middle of the resonant range. I drove around with my Zoom sound recorder on a suction mount down by my tailpipe (@ 35% sensitivity) to get sound recordings and used spectrum analysis to find my drone frequency, and completely separately used resonant RPM to calculate the frequency, which wound up being identical numbers (validation!) So, I did the following to determine my overall length required (this is a rehash of some of the stuff above, though I adjusted numbers a bit as I learned).
Resonant RPM: 3200
Cycles: 2 (4 cylinder=2, 6 cylinder=3, 8 cylinder=4 (unless you have true duals with no crossover, then its 2 per side)
(RPM*Cycles)/60 = frequency
(3200*2)/60 = 106.67
Speed of sound(in FPS, changes w/ temp, I used 150 degrees F) / frequency = wavelength
1210/106.67 = 11.34 (feet)
wavelength/4 = quarter wave length (feet)
11.34/4 = 2.84
quarter wave length*12 = resonator length in inches
2.84*12=34.08 inches.
I have a 34" length of pipe looped where the muffler would normally go, and it worked absolutely fabulously. Make sure you branch in at a 90 degree angle, otherwise you could introduce turbulence into the exhaust flow.
Learnings: I didn't *really* save any money vs buying an mbrp or something, I could've just bought an exhaust system, but I had a *ton* of Amazon gift cards saved up over the years (and forgotten about!) and I couldn't spend Amazon cards @ whoosh, plus I kinda wanted to design my own system for fun because I am a nerd. There were MBRP and other systems on Amazon, but I didn't know the vendor and would rather spend money at Whoosh because Ron rocks. I guess if it came down to it, I could've gone with just a center resonator and my 1/4 wave pipe and called it a day, but I like the smoothness of the vibrant ultra quiet, so that was an extra hundred bucks (amazon, again, gift cards!). Another learning, doing the symposer delete got rid of some sound "oscillation" that made me want to barf once I got the exhaust installed, but it didn't cure the resonance, just an oscillation.
While researching exhausts it looks like many complain about the MBRP's drone - I'd bet if you bought an MBRP (or other exhaust) and used the above to calculate out the length of a side branch resonator, you could have a nearly drone-free MBRP exhaust that still sounded ridiculously visceral. If anyone was wondering, no, the side branch resonator will not affect performance, as it's not a path of travel for gases, just an acoustic wave, once the branch is pressurized it no longer affects gases in the pipe.
Update 08-21-2018 - I had the tailpipe extended 2” so it’s past the bumper to reduce bumper spot and the residual exhaust booming is gone now. So, if you can’t fully defeat your drone make sure your exhaust exits past the bumper. I *knew* this but got caught up in the resonator design and skipped a very basic step.
There was some drone I wasn't satisfied with, so rather than just throw parts at it (i.e. add a muffler, etc.) I figured I would determine the frequencies I need to cancel out and work out a helmholtz or 1/4 wave resonator to clean it up a bit. The first step is to record audio of the process and do a spectral analysis. A screenshot of the spectral analysis is below.
-- edit/update --
(Apologies if I ramble, on pain meds!)
mission accomplished! First is an analysis of my car just idling before installing my quarter wave resonator
Then is my car idling in the exact same place, but after the installation of my "math-ed" resonator
(yes the pictures are 2 different programs, both programs showed the same thing, but one was done on my computer one was done live while sitting in the car).
The head splitting drone between 3000-3400 rpm is gone while driving, and resonance while idling is gone. I like very much.
In the end, I targeted 3200 rpm, it wasn't the *worst* resonance, but it was right in the middle of the resonant range. I drove around with my Zoom sound recorder on a suction mount down by my tailpipe (@ 35% sensitivity) to get sound recordings and used spectrum analysis to find my drone frequency, and completely separately used resonant RPM to calculate the frequency, which wound up being identical numbers (validation!) So, I did the following to determine my overall length required (this is a rehash of some of the stuff above, though I adjusted numbers a bit as I learned).
Resonant RPM: 3200
Cycles: 2 (4 cylinder=2, 6 cylinder=3, 8 cylinder=4 (unless you have true duals with no crossover, then its 2 per side)
(RPM*Cycles)/60 = frequency
(3200*2)/60 = 106.67
Speed of sound(in FPS, changes w/ temp, I used 150 degrees F) / frequency = wavelength
1210/106.67 = 11.34 (feet)
wavelength/4 = quarter wave length (feet)
11.34/4 = 2.84
quarter wave length*12 = resonator length in inches
2.84*12=34.08 inches.
I have a 34" length of pipe looped where the muffler would normally go, and it worked absolutely fabulously. Make sure you branch in at a 90 degree angle, otherwise you could introduce turbulence into the exhaust flow.
Learnings: I didn't *really* save any money vs buying an mbrp or something, I could've just bought an exhaust system, but I had a *ton* of Amazon gift cards saved up over the years (and forgotten about!) and I couldn't spend Amazon cards @ whoosh, plus I kinda wanted to design my own system for fun because I am a nerd. There were MBRP and other systems on Amazon, but I didn't know the vendor and would rather spend money at Whoosh because Ron rocks. I guess if it came down to it, I could've gone with just a center resonator and my 1/4 wave pipe and called it a day, but I like the smoothness of the vibrant ultra quiet, so that was an extra hundred bucks (amazon, again, gift cards!). Another learning, doing the symposer delete got rid of some sound "oscillation" that made me want to barf once I got the exhaust installed, but it didn't cure the resonance, just an oscillation.
While researching exhausts it looks like many complain about the MBRP's drone - I'd bet if you bought an MBRP (or other exhaust) and used the above to calculate out the length of a side branch resonator, you could have a nearly drone-free MBRP exhaust that still sounded ridiculously visceral. If anyone was wondering, no, the side branch resonator will not affect performance, as it's not a path of travel for gases, just an acoustic wave, once the branch is pressurized it no longer affects gases in the pipe.
Update 08-21-2018 - I had the tailpipe extended 2” so it’s past the bumper to reduce bumper spot and the residual exhaust booming is gone now. So, if you can’t fully defeat your drone make sure your exhaust exits past the bumper. I *knew* this but got caught up in the resonator design and skipped a very basic step.
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