Results To Date
Lots of them, and very good so far.
The setup has been in place on one vehicle since late 2018, and another since mid-2019.
- E-85 gasoline is running well, in two non-E-85-rated engines, my Bertha, and pioneered by Fritz (a friend), who has the second engine of which we are aware to run with air chargers. Fritz is using just two at this writing. He has been running E-85 in his '99 Dodge truck for about a year, with minor hiccups and transmission (probably compression/vacuum) response issues. Both run very nicely on E-85 with air chargers in. We have found that the common advice for many E-85-explicit vehicles is recommended, which is to run common fuel after every three or four or five tanks of pure E-85; there appears to be a sensor or something which gets confused a bit if you don't, you'll see a bit of roughness.
Cooler running overall !!! Fritz first recognized this; he keeps a sharp eye on his temperature gauge, and he saw it, he's running consistently cooler, possibly 20 degrees F if his gauge is sufficiently linear. My Bertha has never tended to heat more than 1/4 on its temperature gauge, but Fritz is right: just after a 20-minute freeway run I opened the hood, and lo and behold, no wave of warm-hot air. In other words, like wow. I never dreamed this was possible.
Better behavior in extreme cold. Starts quick, runs with clearly less struggle. It can get cold in Kansas!
- More power overall. Much smoother.
- When the engine is hot and the environment is over 80 F, much much quieter.
- 2.8% better gas mileage, as measured on Bertha with three Alanchi air chargers installed. Will be remeasuring, she now having 12 of those, and two more of a different variety.
- Absolutely zero corrosion / adverse chemistry observed so far. This has been a floating question, and recently, one commentator suggested that the negative ions could damage the moly coating on piston rings. But I have kept some homeowner-grade chrome-plated non-stainless steel in the very brunt of the negative ion flow, pre-filter, about two years now, and it's just as shiny and smooth as it was originally. No sign of rising oil usage, no sign of spark plug issues. It is thought that ozone -- a known major corrosive -- might produce very different results than the negative ion generation in use.
Gas mileage test, 2019-04-05, with three air chargers installed:
This was two road-trips from Topeka to Lawrence, in immediate succession, engine hot both times, from exactly the same gas-pump in Topeka to exactly the same destination in Lawrence. Here are the results:
Gallons Into Tank
Miles per Gallon
Air Charger turned off at start of run
First Run, w/2 min idle at Lawrence
Air Charger turned on at start of run
Second Run, w/2 min idle at Lawrence
The difference is 0.5 gallons, or 2.8%.
Detail, in chronological order:
The first air charger was installed in the dead of a very cold winter, ranging from -5 to +35 F (-21 to +2 C) or so. The first set of results came using just one consumer-grade Alanchi 12VDC negative ionizer component
- Cold running. In the extremer cold, Bertha used to sound a bit strained until warm, like other big engines I’ve heard. Not anymore. Even stone cold, at minus five, the gas pedal seemed to have about as much juice as warm. She seemed to burn a tad more gas doing it (until she heated up), but was much happier to run than without.
- Starting. Bertha has never had real trouble starting once I gave her a really good (and pricey) battery and new starter, just normal behavior. But now it’s not normal. Hot or dead cold, she takes off very quickly.
- Idle had an interesting sound change (she does have glasspacks…), very very regular, and when hot quite a bit less in volume, apparently doing more with less.
After about two months, I put in two more ionizer elements, for a total of three. Just one of the electronic widgets are visible in the pic,
there is actually some good space down there, underneath the switch.
- Definitely more power at all times. My sweet Lori, who is not often very impressed with my occasional forays into unusual creative [some might say bizarre] engineering, actually commented on this as we hit the freeway together for the first time after the third went in.
- Sweet Lori and I did two careful fillups at the same pump at the same station and exactly the same route and approximate speeds, and ran two there-and-backs to Lawrence, Kansas, about 30 miles away. There was about 3% (half a gallon) of gas less used with the widgets on, than off. I won’t say that’s clear and present advantage, because 3% isn’t huge, and you’d really want to do testing on a dyno. But it’s not nothing, and it was a rainy day with very wet air, the very condition most likely to hinder the air chargers. Am quite interested in more testing, and more of this!
- I was actually surprised at how little immediate change there was when the air chargers were turned off, given the initial experiences of three. I am theorizing that some of the overall effects at this point, may be due to a simple general cleaning effect of having the charged air running through it all.
Some months later, I installed air chargers four, five, and six ☺ A cute little harness developed, connecting them all to the switch.
- Improvement in horsepower was immediate and noteworthy. Ponderworthy had a gig a few days after, about thirty miles away, which was a great first long-ride test; I was amazed at how interesting it was holding Bertha down to the speed limits ☺
- Overall engine smoothness, and idle tonality, is improved also.
- Now it being August, we finally have had 70’s and 80’s and the occasional 100’s in air temperature; and so far, the warmer it’s been, the better the behavior. Idling became a quiet murmur once hot. Amazing.
- Have installed air chargers #7 through 9. One more notch of performance, and hot idle has become frankly unreasonable in its quietude. Does not seem possible for glasspacks, but here it is. And radical RPM changes are very quick to occur, never driven anything like this before. After a few minutes on the road, the gas pedal has lots of juice behind it, cruising at 40 takes just a feather of gas, and you can hear Bertha smiling at 65 or 70!
- Starting is now just a tiny and very brief momentary turn of the key! This is quite a nice thing for a big engine in a Kansas winter.
- Sweet Lori noticed these too.
- Installed #10, 11, and 12. It's near the end of October, and getting colder, below freezing at night. Not quiet murmur now, but a beautiful gentle and ever so regular sound when not putting on the power. And that power just rose again by another notch.
- Studied several options for next steps over many months, because I'm clearly running out of room on the air cleaner! Eventually I found a different make of air charger which reportedly puts out a whole lot more than my twelve Alanchis, and set them up. Details are at "Further".
- There has been, on and off, a bit of rough idle when stone-cold. Hasn't happened at all since the bigger #13 and #14 went in, about three months ago. There could conceivably be a minimum amount of charging needed for this computer to see things consistently. Or something!
- The most important next steps, appear to be testing, to get much harder numbers for all results. Next will be another repetitive distance driving test, to see how the current 14 compares with the 3.
The result most shocking in general, to me, has to be Fritz' observation of running cooler. We have only begun to think about this, and neither of us are chemists, I plan to ask questions here and there. But it's quite a thing to reduce waste heat of an engine.
One of these days I'm likely to get Bertha dyno-tested. Most current the observations have been clearly subjective. But the nearest equipment appears to be about 85 miles away, tests are not inexpensive, and I don't have piles of money! On the other hand, some very excellent suggestions have just been made by one friend, including ECU sensor readouts and other creativities, so we will have harder numbers soon.
Do drop me a line
if you have questions, are interested, or try it!!!