[Digestion] Biogas yields for tropical energy crops
Björn Dahlroth
bjorn.dahlroth at telia.com
Tue Sep 11 12:58:17 EDT 2007
Yes
You are missing something. Namely agricultural politics.
Another important thing is of course the distribution/transportation/storage
of the product and how to make the fuel fit into an existing fuel
distribution system. In Sweden we import quite a lot of ethanol from Brazil
for city traffic and for mixing with gasoline but biogas is used here and
there for certain local traffic like city buses, trucks for waste collection
and some private cars. In those cases most of the gas comes from wastewater
treatment plants and old landfills but some is produced from mainly
industrial food waste, a little bit from restaurant food waste and source
separated household food waste and in one case from cultivated pasture crops
(again agricultural politcs).
Regards
Bjorn Dahlroth
-----Ursprungligt meddelande-----
Från: digestion-bounces at listserv.repp.org
[mailto:digestion-bounces at listserv.repp.org] För Lou Dobb
Skickat: den 11 september 2007 00:43
Till: Warren Weisman; Digestion at listserv.repp.org
Ämne: Re: [Digestion] Biogas yields for tropical energy crops
Warren, thanks so much for these data. They're a great help.
Meanwhile, I found the following on sugarcane, and it puts us in front of an
interesting question, I think:
=====================
English Title: Sugar cane (Saccharum sp.) juice energetic potential as
substrate in UASB reactor.
Personal Authors: Colen, F., Pasqual, A.
Author Affiliation: Aluno do Programa de Pós-Graduação em Agronomia,
Energia na Agricultura, FCA/UNESP, Botucatu/SP, Brazil.
Document Title: Energia na Agricultura, 2003 (Vol. 18) (No. 4) 58-71
http://www.cababstractsplus.org/google/abstract.asp?AcNo=20053101335
Abstract:
The energetic potential of sugarcane juice was studied in an upflow
anaerobic sludge blanket reactor (UASB) of 7.78 litres useful volume,
working at a temperature of 35°C±1°C. Before being added to the reactor,
the juice was naturally fermented for 24 hours, with addition of sodium
bicarbonate, urea and diacid potassium phosphate [potassium dihydrogen
phosphate?] to correct the pH (between 6.00 and 6.60) and carbon/nitrogen
and carbon/phosphorus relations respectively. In the reactor, 3 hydraulic
retention times (HRTs) were used: 20 days, 18.78 days and 15.30 days. For
the HRT of 20 days, the affluent chemical oxygen demand (COD) was 260 304
mg.litre-1 and the effluent COD was 16 991.40 mg.litre-1, an efficiency of
93.47%. The gas volume was 136.33 m3 of biogas.m-3 of juice, its average
composition including 72.43% methane. For the HRT of 18.78 days, the
affluent COD was 272 779 mg.litre-1 and the effluent COD was 8612
mg.litre-1, an efficiency of 96.84%. The gas volume
was 147.42 m3 of biogas.m-3 of juice, its average composition including
72.91% methane. For the HRT of 15.30 days, the COD was reduced by 71.49%.
The gas volume was 103.58 m3 of biogas.m-3 of juice, with an average methane
content of 63.30%. When calculating the energetic potential, the figures
from the HRT of 18.78 days were used, and the amount of energy produced was
found to be 2767.82 MJ (661.21 Mcal) per tonne of processed sugar cane. This
value was extrapolated using the average Brazilian cane productivity (69.50
tonnes per hectare) to give a figure of 192.36 GJ (45.95 Gcal) per hectare;
compared to anhydrous ethanol production, biogas production gave an
efficiency 35.33% higher than that of ethanol. When the energy from
sugarcane bagasse, which is used as energy for ethanol distillation, was
included in the calculations, the energy output increased to 4738.30 MJ.t-1
of processed sugar cane, compared with 2045.27 MJ.t-1 of ethanol, not
considering the bagasse input
in distillation, and the amount of energy obtained using biogas increased
to 131.67% more than the figure for ethanol.
Publisher: Faculdade de Ciências Agrono~circumflex~micas, Universidade
Estadual Paulista (UNESP)
===============
Apparently, digesting an entire sugarcane crop yields far more energy than
converting it into ethanol, even if you take into account that bagasse is
used as a power source for the ethanol plant. I assume that the same is true
for such species as sorghum and other high yielding tropical grass crops.
Now why don't we see big biogas plants all over the developing world? Why
ethanol when biogas would be so much more efficient? Are capital and O&M
costs for anaerobic digesters so much higher than for ethanol plants? I
don't think so. Is it because biogas cannot be transported as easily?
Why isn't anyone digesting tropical grass species on a large scale to ship
the biomethane out as an alternative to natural gas? CNG ships are already
here, so this should be possible.
Why isn't anyone in the (tropical) developing world building dedicated
biogas plants and energy plantations to fuel the poor's CNG-fleet? This must
become a possibility, certainly in remote regions.
I'm confused and very optimistic at the same time.
Deducing a bit: 4750MJ per ton of sugarcane at 80 ton/ha comes down to a
spectacular 10,000 cubic meters of methane per hectare (worth US$ 2300 at
current NG prices).
Common, with that much energy you can power all CNG cars/tricycles in a
typical small village in the developing world for an entire year.
Am I missing something?
Yours, Lou
[PS: sorry for sending this mail twice to you alone, Warren; forgot to check
"reply to all"].
Warren Weisman <weiswar at yahoo.com> wrote:
I think there's so little and so much conflicting data
is that digestion is not an exact science. A small,
well-maintained digester can out-perform a big, fancy
one. The second most important aspect of digestion,
after an airtight environment, is the proper carbon to
nitrogen ratio, which I did not see referred to in the
article.
Here's the volumes from "A Chinese Biogas Manual",
which I consider the best source of information on
digestion and biogas, since its empirical data
gathered from making MILLIONS of digesters...
volumes are per tonne of material:
General Stable Manure 260-280 cu.m. gas 50-60% CH4
Pig Manure 561 cu.m. gas
Horse Manure 200-300 cu.m. gas
Rice husks 615 cu.m. gas
Fresh grass 630 cu.m. gas 70% CH4
Flax stalks or hemp 359 cu.m. gas 59% CH4
Straw 342 cu.m. gas 59% CH4
Leaves from trees 210-294 cu.m. gas 58% CH4
Potato plant leaves & vine, etc. 260-280 cu.m.
Sunflower leaves & stalks 300 cu.m. 58% CH4
Sludge 640 cu.m. 50% CH4
Waste water from wine or spirits making 300-600 cu.m.
58% CH4
--- Lou Dobb wrote:
> Hi all, I'm new to this mailing list. Thanks for the
> very interesting resources and discussions.
>
> I have been trying to find some data on biogas
> yields for tropical energy crops (such as sugarcane,
> sweet sorghum, cassava, sweet potato, grass species,
> tropical sugar beet, etc...). But I can't find much.
>
> In my search I only found data on crops grown in
> temperate and even cold climates (Finland).
>
> E.g. Annimari Lehtom�ki: "Biogas production from
> energy crops and crop residues", Jyv�skyl� Studies
> in Biological and Environmental Sciences 163, PhD
> Dissertation, Faculty of Mathematics and Sciences,
> University of Jyv�skyl�, 2006.
>
> http://dissertations.jyu.fi/studbiol/9513925595.pdf
>
> Could anyone help me compile a list of yields for
> tropical crops?
>
> We could use the list for a wiki, as a basic
> reference.
>
>
> How come there are so little data on this? I don't
> understand.
>
> Best regards,
> Lou
>
>
> ---------------------------------
> Boardwalk for $500? In 2007? Ha!
> Play Monopoly Here and Now (it's updated for today's
> economy) at Yahoo! Games.
> _______________________________________________
> Digestion mailing list
> Digestion at listserv.repp.org
>
http://listserv.repp.org/mailman/listinfo/digestion_listserv.repp.org
> Beginner's Guide to Biogas
> http://www.adelaide.edu.au/biogas/
> http://info.bioenergylists.org
>
____________________________________________________________________________
________
Sick sense of humor? Visit Yahoo! TV's
Comedy with an Edge to see what's on, when.
http://tv.yahoo.com/collections/222
---------------------------------
Looking for a deal? Find great prices on flights and hotels with Yahoo!
FareChase.
_______________________________________________
Digestion mailing list
Digestion at listserv.repp.org
http://listserv.repp.org/mailman/listinfo/digestion_listserv.repp.org
Beginner's Guide to Biogas
http://www.adelaide.edu.au/biogas/
http://info.bioenergylists.org
More information about the Digestion
mailing list