[Stoves] Re: stoves and credits again


Andrew,    (and to Crispin and others)

Thanks for bringing the Subject back to the TLUD issue about charcoal.   Therefore, this is NOT about making charcoal by other means, whether by stove or not.  This is only about TLUD charcoal.

A.  The realities (presented as generalities) about TLUD energy release and char include:
1.  Pyrolysis is around the 550 to 650 C range (unless burning very hot with much forced air)
2.  The char yield is about 20% of the dry weight of the biomass fuel (mainly think of wood).
3.  That char contains about 30%  (NOT 50%) of the ENERGY of the biomass.  
4.  And that char contains almost 50% of the carbon atoms.   (The “extra” energy came from the hydrogen in the carbohydrates.)  

If writers wish to continue to say 50% of the ENERGY remains in TLUD-type charcoal, then let’s resolve that here and now.   Otherwise there can  be no true discussion about the value of the TLUD char.

B.  Fuel effeciencies ARE compared with the baseline fuel consumption figures of the 3-stone fire and other horribly inefficient very simple stoves.     TLUD stoves in the carbon credit program in India save about 60% of the fuel, but basically I say “more than half”.   That can be compared with the “Save 80” stove which is named for saving 80%.   And well made Rocket stoves generally claim to save 75 to 85% of the fuel compared to the  baseline stoves.   (Correct me if I am  wrong about any of this.)

C.  So, compared with Rocket stoves, TLUDs have inputs of more fuel.  How much?   Not well  studied because so few of the well funded research studies have bothered to  include TLUD stoves.   But in general, the raw fuel differences (compared to baseline stoves) are: 
about 55% for TLUD and about 80% for Rocket, being a difference of  25%.   Plus or minus how much?    5%  difference would give a difference between 20% or 30% of the FUEL usage, with the  advantage for Rocket stoves. 

D.  Well, if there is 30% of the original energy still in the created TLUD charcoal, that means TLUDs could be equated with Rockets about ENERGY efficiency (not talking about FUEL efficiency), OR that the TLUDs are actually 10% BETTER about energy efficiency than  are the Rocket stoves.   Maybe just call it “even”.    But stop implying inferiority of TLUD stoves regarding ENERGY. 

E.  I do not have the time, funds or equipment to quantify or verify  what is stated (“claimed”) in  the above paragraphs.   But unless someone does that measurement (and then it is subject to laboratory error and human factors such as micro-control of the placement of the Rocket wood pieces), the issues of char production and energy efficiency and fuel effeciency are as is stated above.  

F.  Note that this discussion is NOT about heat transfer efficiency.  Simply placing a pot too high above the combustion configuration can make major shifts in heat captured by the pot.  There is nothing inherently better or worse about TLUD-ND heat transfer compared with Rocket stove heat transfer.   Correct position, shielding, etc. for both types.   [[ Note:  I do expect to show someday within 6 months that TLUD-FA (Fan Assisted) will have an improvement of the heat transfer, but leave that for later.]]

G.  And the financial value of the charcoal from TLUDs can  then  be discussed, with all  of the cultural and environmental factors that raise or lower the dollar values.   Of note:

1.  where fuel (wood or other accepted biomass fuel) is plentify (or even needs to be “removed” because of space or fire hazzard or cropland issues), there are reasons to FAVOR the TLUD stoves to consume more fuel (not more energy) over Rocket and other ICS stoves which have measurably higher harmful emissions.

2.  Where there are established (or strongly potential) needs and uses of charcoal of the type from TLUD stoves, the financial value of the char can far exceed what an additional release of 30% of the raw-fuel energy could bring.  Charcoal has many uses.

3.  The value of carbon credits is VARIABLE, even at the same moment in time.  Cookstove carbon credits have consistently been purchased at higher values than carbon  credits from wind turbines, etc,   But that is IF the carbon credits have been identified (and verified) as having come from cookstove projects.  If they are simply lumped in  with all the other carbon credits, their value will have been “averaged” lower.  [[ I will be saying more about this in coming weeks..]]

Paul

On 9/21/2017 10:47 AM, Andrew Heggie wrote:
I've changed the title to move back to the idea of what value can be  added to TLUD use:    On 18 September 2017 at 20:21, Crispin Pemberton-Pigott  <crispinpigott@outlook.com>; wrote:    
As pointed out here years ago, the challenge for pyrolytic stoves to have a  heat transfer efficiency that more than makes up for the additional fuel  requirement. If you look back far enough I provided a formula for  calculating the requirement.  
  Which to me is an impossible challenge so not worthy of discussion,  the simple fact is that if 50% of the energy remains bound up in the  char then it is not available for cooking. The heat exchange  efficiency will not differ much between a TLUD flame and any other  stove using a flame. There might be a slight case for saying a  gasifier stove can achieve  a lower massflow (particularly lower N2)  because the primary combustion doesn't go to completion so less  primary air is used,  the corollary may be that the secondary flame  also can be burned with less excess air because the offgas has a  higher calorific value but not enough to make up for using 50% less  energy..  
      As whole-wood burning cooking stoves have reached the 33-35% efficiency  range, the efficiency of a gasifier has to be high enough to compensate for  the additional fuel, if the fuel savings matters to the project, which in  the case of CDM and GS it does. If the char retention is 25% of dry mass,  and that fraction contains 50% of the original energy in the fuel (at  least), then the stove will have to be twice as efficient as the wood  burner, i.e. 66-70% heat transfer efficiency. In theory it is possible, in  practice I haven’t seen it. All pyrolytic gasifiers consume more fuel than  the best wood burner available at the time.  
  I agree all that but cannot see why the heat transfer efficiency  between the two types should differ.    
Your stoves might compare favourably with an open fire or a declared 10 or  15% efficient baseline, but they will not be as fuel efficient as a stove  that burns wood completely.  
  In my view this is only true if you are going to argue that the  remaining char is a heat loss to the system, I argue that it is a co  product  which contains unused potential chemical energy. If Kevin and  Paul get their spreadsheet terms right the value of carbon credit can  be calculated. Apart from being put off examining Kevin's spreadsheet,  because it uses imperial units and thus not checking the calculation,  he is entirely right that the carbon credit payable to the stove user  must exceed the fuel value remaining in the char.  
      A stove that burns wood completely paralleled with a small charcoal making  operation in the same community might use less total wood and produce more  total char because both technologies can be optimised to their function.  
  I really cannot see this, see above. To make charcoal in a dedicated  device still requires that the offgas is used for it to be efficient  as there is an excess over that necessary to raise the raw material to  pyrolysis temperature, unless it is exceptionally wet.      
If  the purpose is to create the most char and the most cooking from a given  source of biomass, so at least, a pyrolytic gasifier is not the best option.  
    ...and this depends on what sort of char you require. For smoke free  cooking it needs to be made at sufficiently high a temperature that it  burns without evolving a tarry offgas. As a soil amendment the lower  temperature char will contain the same minerals plus some  hydrocarbons which bugs will feed on for a while but it won't have the  higher cation exchange capacity which growers want nor the level of  adsorptivity to hold organic compounds (in order to prevent leaching  or oxidation of soil organic matter) which growers desire. As a result  the fixed carbon retention is also less than char made above 600C.      
It is an option but it is not yet out-competing other technology  combinations. The cleanest wood burning stoves are as clean-burning as an  LPG stove, or there is not enough between them to find a meaningful  difference.  
  Good it's nice to see that reiterated, it means it remains a goal, to  aim for the dissemination of better solid fuel cook stoves.  
      If one can sift through a biomass source and take out everything ideal for a  wood burner, and pyrolyse the rest into char, that is a reasonable thing to  do if the char has a use or value.  
  Of course that is what we did in UK but in that instance the logs and  firewood were luxury goods and not necessities.  
      I proposed two years ago that in Hebei, which has a serious problem with air  pollution caused by the in-field burning of crop residue, that they put a  small price on the material making it worth collecting it to a central  point. This could be charred while making wood gas that can be piped into  the local distribution network. The remaining char would go into the input  line of local fertiliser factories that are making organic fertiliser, of  which char is one component. There are multiple factories making these  products, almost of all of which is sold outside the province to others  which subsidise organic fertiliser products (Hebei doesn’t).  
  There appears to be a win win situation here and I gather there is  still a vast part of equatorial Africa where annual burning  takes  place. However it brings me to another reason I like the idea, though  not the practicalities, of a householder-subsistance farmer being paid  a subsidy funded by the developed world. The trouble is I have a  parochial view and not a good worldview of what types of persons  depend on biomass fuelled stoves. Are they also predominantly growers?    Please bear with this preamble:    When biomass burning  came to the fore in UK it was largely from  forestry residues which typically had mineral ash of about 1% of the  dry matter, less if left to lose their needles prior to harvesting.  Then a firm had a simple  steam turbine design , taken from a naval  design, and their raw material was agricultural waste including the  litter from chicken houses. The chicken litter was for free, apart  from haulage, but straw from OSR, wheat, barley and oats had to be  bought and it wasn't long before farmers realised the price being  offered was less than the cost of the mineral fertilisers that had to  be replaced before another cereal crop could be grown. Combine  harvesters were modified to chop the straw rather than bale it for  sale, so the straw could be incorporated into the soil for the next  season's growth.    Nothing is ever black or white so there remain both baling and carting  and straw chopping and incorporation depending on local variations in  costs and returns.    A bit long-winded but to my point: we are, on this list, addressing  relative poverty. If it were not so everyone could have gas and  electricity for cooking. So I am happy to see these carbon credits and  CDM?? neither of which I am familiar with, used to subsidise improved  stoves. I like the idea of paying a near subsistence farmer to put a  char  soil amendment in the soil because it becomes a cash crop that  she/he does not have to go to the trouble of exporting away from the  locality with the aforesaid loss of mineral fertility which I suspect  in many cases is not being replaced.    Here in UK we have a very benign, if cold and occasionally miserable,  climate but we do have a history of soil deterioration from  overgrazing and export of minerals on the hoof in some lighter soils  which were the ones initially cleared from the wild-wood that covered  much of southern Britain. We also know when European farming practises  were exported to the American midwest that the climate there was less  forgiving of old world practices.    So my contention is that apart from the carbon credit there is a value  to the land in not having to export a cash crop.      Andrew    _______________________________________________  Stoves mailing list    to Send a Message to the list, use the email address  stoves@lists.bioenergylists.org    to UNSUBSCRIBE or Change your List Settings use the web page  http://lists.bioenergylists.org/mailman/listinfo/stoves_lists.bioenergylists.org    for more Biomass Cooking Stoves,  News and Information see our web site:  http://stoves.bioenergylists.org/