Re: [Gasification] Drying fuel with IC exhause and other pleasures...

[sabbadess]

Hi Guys and Gals,
 
I decided to tackle the relative humidity of exhaust question.  The answer I 
got is that GASOLINE burning IC exhaust is 100% relative humidity at 120F.  At 
140F it is 60% relative humidity.  My analysis is at:
 
http://groups.yahoo.com/group/WoodGas/photos/album/118107394/pic/2025686540/view?picmode=&mode=tn&order=ordinal&start=41&count=20&dir=asc
 
for everyone to critique/inspect/laugh at.  I will try to do the woodgas 
equivalent tommorow.  If you don't have access to this yahoo group, email me 
and I will send the .jpg image of the writeup.  Enjoy.
 
Stephen
-----Original Message-----
From: Ken Calvert <renert...@xtra.co.nz>
To: Discussion of biomass pyrolysis and gasification 
<gasification@listserv.repp.org>
Sent: Sat, Dec 18, 2010 8:39 pm
Subject: Re: [Gasification] Drying fuel with IC exhause and other pleasures...


-----Original Message-----
From: Ken Calvert <renert...@xtra.co.nz>
To: Discussion of biomass pyrolysis and gasification 
<gasification@listserv.repp.org>
Sent: Sat, Dec 18, 2010 8:39 pm
Subject: Re: [Gasification] Drying fuel with IC exhause and other pleasures...



Heh!  How often do us old timers have to come back on and say, forget about 
your 
heorising, and will it or won't it?  We have done it!
  At Onesua Mission High School in the Pacific Isllands of Vanuatu, in the 
iddleof the first Oil Shock in 1978, we had the boys cutting green Leucaena 
rush as thick as your wrist  and filling a hopper which had the exhaust of a 
onverted Toyota FJ ute engine  driving a 25kva generator piped into the bottom 
ith more than a couple of flame traps in the exhaust line.  Even at 30ft down 
n insulated exhaust pipe the gas is RED HOT.  Dull red, but still hot.  It took 
s three fires to learn that lesson!   And there is such a thing as 
countercurrent' flow!  The dryest wood comes out the bottom were the hottest 
as with the lowest relative humidity is going in!   Psychometric charts only 
nto vogue in the last foot or so near the top of the hopper. And then the main 
ction is heating the wood, not driving out moisture.
   
     50mm x 50mm Wood blocks dripping-sap and moisture went in the top of the 
opper and three days later they came out the bottom so dry and so shrunken and 
racked and shattered that you could pull them apart with your fingers.   And 
hey were so dry that you could light them with a match.  Didn't have any 
oisture meters, or what have you then, but they were dry!   If you have read 
ny of the old literature,  during the boom time in producer gas firing, during 
he second World War,
ou will know that with dry fuels there is very little hydrogen around to 
roduce water vapour with.  Burning charcoal alone, the gas is so dry that the 
as will lick all the oil off the cylinder walls and unless you take extra 
pecial measures with lubrication you will sieze up your engine very rapidly 
ndeed.  When it comes to wood, there is just the right stoichiometrical  amount 
f water vapour available as the cellulose and other carbohydrates  break down 
rom C6H1206  to CO2 and H20 carbon and water vapour. You do need to add extra 
ater as steam  for coal coke and charcoal, but not for wood, even if it has 
bsolutely zero water content.  But don't let me stop you! Keep talking!  Listen 
o Doug Williams.  Hes not as old as me, but he's been there and done that!   
en C.
--- Original Message ----- 
rom: "Mark Ludlow" <m...@ludlow.com>
o: "'doug.williams'" <doug.willi...@orcon.net.nz>; "'Discussion of biomass 
yrolysis and gasification'" <gasification@listserv.repp.org>
ent: Sunday, December 19, 2010 8:07 AM
ubject: [Gasification] Drying fuel with IC exhause and other pleasures...

 If the IC exhaust is saturated at 100C, the best the wood can do is reach an
 equilibrium moisture content with respect to this environment. Best check a
 psychrometric chart to convince yourself. It's the partial pressure of water
 in the exhaust that will, ultimately, inhibit drying, even though if the
 feedstock is cooler that the I.C. exhaust, some heat may be transferred to
 it via condensation on its surface. One simply need to know the dewpoint of
 the exhaust gas to determine whether or not this is a fool's errand. Flush a
 Pyrex Erlenmeyer flask with exhaust and fit a stopper with a penetration for
 an RTD and observe the temperature of condensation, as a first
 approximation, and observe the water-carrying capacity along the line of
 constant water. This is not 100% accurate, of course, because the specific
 volume of the gas will change as it cools. Plus, if the dryer is "direct"
 the gas will quickly mix with surrounding air.
 
 What about home-made heat pipes? I use the commercial versions for sensible
 heat extraction on industrial heat pump systems.
 
 Best, Mark
 
 -----Original Message-----
 From: gasification-boun...@listserv.repp.org
 [mailto:gasification-boun...@listserv.repp.org] On Behalf Of doug.williams
 Sent: Saturday, December 18, 2010 10:29 AM
 To: Discussion of biomass pyrolysis and gasification
 Subject: Re: [Gasification] Gasifiers and greenhouses and CO2 augmentation.
 
 Hi Toby and Colleagues,
 
 You ask a couple of curly questions:
 
>We seem to have moved on from the direct heating (drying) of fuel without
 really answering the original question of water content in IC exhaust. I
 understand the indirect heating, like Doug's >nearly horizontal heat
 exchanger, but what about the direct introduction of engine exhaust gas for
 drying incoming fuel? Of course not all H2 is converted into H2O in an IC
 engine, but one >would hope a significant portion is. Same with CO and CO2.
 If 15% is H2, is 15% of the exhaust water vapor? 
 
 I am sure there are equations that will confirm a "perfect" answer, other
 than mine, which is more H2, more water vapour. So long as the gas is hotter
 than 100C, wood can be dried down without any problems by direct contact.
 
>Has anyone tried putting a producer gas fired engine exhaust directly into
 a stock of wood fuel?
 
 You have possibly missed the exchanges of discussing direct exhaust heat
 into a fuel pile to make torrified wood.  Ken Calvert specifically used this
 to overcome the problems of gasification in the tropics, and I had to use it
 in Papua New Guinea just to get enough dry fuel to start a gasification
 project for the first time. We also used it on our first project back in
 1978 in New Zealand, resulting in the wood blocks catching fire as we learnt
 the hard way, gaining experience. It's as simple as a drum with a gas space
 in the bottom, connected to the exhaust as close to the engine as possible
 to reduce heat loss. It's best to try it and learn by experience if it is
 for you, but, I would not want to promote this type of direct drying, for
 anything commercial.
 
>One final thought on greenhouse. Engine exhaust would presumably make most
 of the CO into CO2 (but not all) and H2 into H2O, benefiting the plants.
 
 Without question, it has been already established, that using producer gas
 through an engine without first scrubbing the gas, could place the crop at
 risk. I do however see a lot of potential to used scrubbed and compressed
 CO2, used in a system of micro-porous support tubing to control white fly
 and aphids.
 
 >This would seem to be an argument for having not only a gasifier, but an
 engine or combustor in greenhouse application.
 
 That is how it might appear, but there is very little demonstrated and
 tested using producer gas to support any argument.
 
>But is there any way to assure a safe level of CO for direct exhaust into a
 greenhouse? Does it rise or fall in a collum or can one assure a complete
 reaction in some way?
 
 Issues of CO and human safety usually resort to badge monitoring for the
 individual. Plants however only thrive, I have been advised, in a 10% CO2
 atmosphere.  I cannot imagine it piling up as layered slug of inert gas, as
 the greenhouse should have a circulation capability if heated. Not sure what
 you mean by a complete reaction.
 
 Does this help or hinder?
 
 Doug Williams,
 Fluidyne.
 
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asificat...@bioenerglists.org - please update your email contacts to reflect 
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