I received a handful of thermostats today for various toyota engines and years - based on the ideas in this thread and others I picked up the stock 2LTE stat (most of us are probably running), a later 2LTE/5L version, and what I thought would be two 3rzfe variations. Unfortunately the 9091603101 isn't available in a red TEQ box that I could find, and the Taiho brand I ordered is identical to a Toyota 9091603120. I also grabbed a 2TRFE unit that would have come from a 2nd gen taco, and just for the hell of it a 2UZFE one as well.
Here are the initial measurements from the collection of thermostats. You can see the stock flange diameter is 52mm but I found the 56mm diameter thermostats to fit in the housing very snuggly without modification. Based on orifice diameter alone the 2TRFE stat looks the most promising, I was worried the additional height on the 3rz stat would keep it from opening fully compared to the 5LE part, but upon closer inspection the bypass block off plate on the 3RZ and 2LTE parts is stepped (so it nests in the bypass hole) vs the flat plate on the 2TRFE part - so the 3RZ stat actually extends a similar amount as the 2TRFE. Hard to tell from the photo but the 5LE and 2LTE thermostats are visually identical. Its interesting that the 5LE part was the only one to come with a rubber grommet around the flange - I did an informal test of leak rate without the grommet installed on a closed thermostat and there is a slow trickle of water out of the outlet, but not enough to keep the engine from warming up normally (I assume).
| | | | | | |
| PARTS SUMMARY | | | | | | |
| Part Number | Engine | Chassis | temp (C) | Flange dia (mm) | orifice (mm) | height (mm) |
| 163405010 | 5L/5LE | LN1205 | 88 | 52 | 32 | 60 |
| 9091603099 | 2lte/3L | LN106 | 88 | 52 | 32 | 60 |
| 9091603120 | 3rzfe | RZN200 | 82 | 56 | 34 | 65.5 |
| 9091603093 | 2trfe | TGN11 | 82 | 56 | 36 | 60 |
| 9091603100 | 2uzfe | UZN210 | 82 | 64 | 42 | 69 |
I got this water outlet housing in a box of 2LTE parts I picked up when I did the oil cooler swap on my 3L. I plugged it up the best I could with old hose and misc bolts and plugs.
Then I bolted the housing to the bottom of a 5 gal bucket. There is a hole in the bottom of the bucket that roughly matches the housing port where it bolts to the cylinder head. I did not include the bypass in this hole.
The test stand is far from perfect, but I made an effort to keep everything equal between tests. Leak rate from the misc housing holes and where it bolts to the bucket are pretty minor, and nothing to worry about since the rate should be consistent the whole time. The goal was to establish a baseline using the empty housing (simulating running the engine without a thermostat and with no radiator bypass). Then the baseline can be used to compare flows between thermostat part numbers - specific volumetric flowrates are not of interest here since we really only care about how good one thermostat is compared to another.
The crux of the thing was figuring out how to run cold water through a thermostat that's only supposed to be open at boiling temp. It took some trial and error but I finally found a suitable method of shimming the thermostat with some cross sections of PVC. I used a butane torch to heat the stats since I can't get water to boil above 93 C here. A couple interesting conclusions already cropping up here:
- Too much heat and the thermostat won't want to close fully again when cold, I think due to spring deformation. So be warned about heating them up this way for testing and then using them
- Every one I heated with a torch got far more open than the physical housing geometry would allow, making me wonder why toyota wouldn't design a deeper housing to increase flow range? Might be possible to drill out the bypass hole deeper to allow for more movement.
- The 3RZ part responded far faster than any other I heated. Note that I didn't control the heating process and just held the stat just out of the flame of my torch. The 2TRFE was the slowest to respond.
Messing with the shim to get the height of the thermostat just right - you can see here what I mean when I say they will open much wider than the housing will allow:
Alright, so that's all fine and great but it really means nothing without some data, so here you go:
| FLOW TESTS | | | | | |
| Empty housing | 2LTE | 5LE | 3RZFE | 2TRFE |
| Test 1 | 19.15 | 28.36 | 28.65 | 28.88 | 32.9 |
| Test 2 | 18.85 | 28.5 | 28.03 | 28.03 | 32.6 |
| Test 3 | 18.65 | 28.53 | 28 | 28.09 | 32.56 |
| Test 4 | 18.75 | 27.9 | 28.13 | 27.5 | 34.43 |
| Test 5 | 18.6 | 28.72 | 27.99 | 27.63 | 34.32 |
| Avg | 18.8 | 28.402 | 28.16 | 28.026 | 33.362 |
| Normalized | 1 | 0.66 | 0.67 | 0.67 | 0.56 |
I ran each test 5 times and averaged the results. The values are representing the seconds it takes for the housing to discharge a given amount of water out of the bucket. I filled the bucket to the same point each time before pulling the cap off the outlet and starting the timer. I stopped the timer when the water reached another, lower level. Volume is arbitrary as long as it is the same each time. I filled the bucket most of the way up for my starting mark and let it drain almost completely for my ending mark, in an attempt to add as much resolution to the results as possible. I normalized the average time in seconds using the empty housing as a baseline, so flow through the housing becomes 1 and each thermostat tested is a fraction between 0 and 1, where the closer the thermostat's value is to 1 the closer it is to being "perfect". Needless to say but the 2UZFE thermostat will not fit without significant mods to the stat and the housing, and even then I doubt it would even be able to open once bolted down inside.
Well it's not hard to see that I really didn't discover anything groundbreaking. The 2LTE, 5LE, and 3RZ stats all performed close enough as to make no difference. The 2TRFE, which looked so good based on initial measurements, didn't perform nearly as well as the others (though I'd still venture a bet that it doesn't make a noticeable difference in the truck). In reality the cylinder head is full of small passages and constrictions that surely limit flow well beyond what an empty thermostat housing is capable of - and I imagine the toyota engineers knew this.However I am anxiously awaiting any testing others do with the thermostat removed entirely - I'd love to be proved wrong!
At the end of it all I will most likely run the 3RZFE stat like the one
@GTSSportCoupe has already installed and tested, if only to get an 82 instead of an 88 opening temp. And because I believe the temperature response to be quicker than others I tested.
