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'''This page describes a method to build wood-gasifier, or gas producer. It's better than anything we've seen under 1MWe. We also explain our understanding of why it works so well''' Related page: MembersPage/MarcellGal/WoodGasifierEngine '''We built about 15 downdraft gasifiers and run several experiments.''' The target of this page is to save you from spending lotsof resources, time and grief while learning the hard way. If you're not familiar with the technology (yet) you can look up keywords (FEMA, De-La-Cotte, Imbert, monorator, etc...) elsewhere. It's very hard to grab the concept for first reading. Reread repeatedly, carefully. Also, check out these [http://ideje.hu/video/Energy/WoodGas/CombinedDraftGasifier/ Slides made for a lecture explaining the combined draft gasifier] ---- '''How NOT to do it ? FEMA tarmaker!!!''' FEMA is what we started with. We built several devices, and ran engines with them. FEMA design is probably the worst design (among the ones that produces flammable gas). Besides the fuel moisture and fuel-size sensitivity it produces a LOT of tar. The FEMA docs clearly states that it's ment for emergency. But even for emergency, the extreme amount of filtering (because of the tar-laden gases out of a FEMA) makes it worse choice than an Imbert. No surprise vedbil.se guys are so black when using FEMA (read their diary). Why is FEMA so tar-laden? In short, the zones in the '''FEMA-tarmaker''' wander up and down, cooling the oxidation zone and creating a HUGE amount of tar (tar is somewhat like mineral oil: good in some places, but not good when sticking the intake valve to its seat). ---- '''Imbert: better than FEMA''' '''Imbert was the most widely used design in WWII: a reasonable one-stage gasifier design.''' Usually used for 2-50 kWe but it's very easy to make it bigger. It's quite a challenge to make a good gasifier under 5kWe, because of heat-losses (bigger A/V ratio) and fuel-bridging problems in the small throat. One embodiment guides air in tangentially, swirling in a toroid at a certain location, keeping temperature up and tar-forming down: http://www.ideje.hu/images/Energy/WoodGasifier/Ford/Ford.jpg http://www.ideje.hu/images/Energy/WoodGasifier/Ford/Ford_sizing.jpg See also [http://gekgasifier.pbworks.com/Triple-Hips-Downdraft-Reactor GEK idea] somewhat similar to this. ---- '''Big 2-stage gasifiers''' Note that for 100-1000 kWe (typical powerplant cost is 800-1000 USD / kW, so the 1000 kWe is ~ 1 million dollar) the trickier 2-stage gasifier (an updraft and a downdraft or crossdraft combined) seems to be a better idea. It can burn fuel with higher moisture content, and bigger or smaller pieces as well. There are some reasonably good 2-stage gasifiers in Gussing, Austria, reaching up to 92% gasification efficiency (that might be a record). Read about the De-La-Cotte tar-burning gasifier elsewhere. ---- '''Internal Tar Burning''' The idea is to burn the relatively small amount of incoming air (only 1.6 kg for 1kg wood, giving 2.6kg woodgas) with tar-gases coming from the distillation of wood (not with "clean" char). Also, do this oxidation at a relatively high temp (1200C or higher). It's impossible to burn all the chars (that would be way too much air, resulting in CO2), but cracking most of them is possible. Most of the cranking happens in the oxidation chamber. Do not expect to crack a lot of tars in the reduction area. This tar-burning idea is not ours. Besides the De-La-Cotte gasifier that has separate tar-burning chamber, some designs maintain an airflow that helps react the O2 of incoming air with tarry gases. The monorator is one such. ---- '''A good example for small gasifier''' - marching towards the wholy grail ? The holy grail of gasifiers * can burn bigger chunks of wood (so chipping not needed) ** eg. 8"-12" long, 1-5" diameter * can burn relatively moist biomass (not only wood of course - even waste) * can be operated with low flowrate ** Because of the hopper it will never be really small. We do not claim to reach all these simultaneously. But it seems that the first 2 targets can be achieved down to at least 2.4 kg/hour wood consumption. Note that the gasifier was designed for 30-40kg/hour biomass, and mostly for a demo unit (we left improvements for later revision). It is not even completed: heat-recuperation is minimalistic (an external heat-recuperator is planned). And insulation is not particularly good. We actually did not expect that it operates at 1/13 of the designed peak load (with less tar than a FEMA near design load), so we were a bit surprised. http://www.vems.hu/producergas/images/gasifier_guts_0067_m.jpg * A relatively big rectangular hopper, appr 450x650mm * V at the bottom to allow char to flow down * d=114mm horizontal auger (with thick shaft) reduction section at the bottom of the V * many-many nozzles at the circumference at the top of the V http://www.vems.hu/producergas/images/lightinghole_0118_m.jpg '''Operation''' (as far as we understand), apparently '''similar to the monorator''': * some of the high-temperature gases from oxidation zone flow into the auger * some of the high-temperature gases from oxidation zone (from the bottom of the V) flow up * than distill more fuel and turn down * flow down at the sides * mixes with incoming air, oxidizes and travels inwards to the bottom of the V * the above repeats '''Comparison with FEMA:''' * in FEMA the tube is small dia. The monorator is the opposite: big diameter, therefore allowing the above gas-currents (up in the middle, down at the sides) * FEMA has no nozzles. Monorator has nozzles to optimize the point where air comes in * similarity: both are co-flow. Co-flow is often called downdraft, but in the monorator up-draft currents are also important. And in this implementation the reduction tube is actually horizontal http://www.vems.hu/producergas/images/genset20kW_0149_m.jpg
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