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hydrogen from algae... >Dr. Melis from UC Berkeley discovered a way to produce hydrogen from First stop, [Only registered and activated users can see links. Click Here To Register...]. From the berkeley web pages: [Only registered and activated users can see links. Click Here To Register...] Melis A and Happe T (2001) Hydrogen Production: Green Algae as a Source of Energy. Plant Physiol. 127: 740-748 Zhang L, Happe T and Melis A (2002) Biochemical and morphological characterization of sulfur-deprived and hydrogen-producing Chlamydomonas reinhardtii (green alga). Planta 214: 552-561 Melis A (2002) Green alga hydrogen production: progress, challenges and prospects. Intl. J. Hydrogen Energy 27: 1217-1228 Also: US Patent Appl: 20010053543 Hydrogen production using hydrogenase-containing oxygenic photosynthetic organisms. See esp Fig 3. "Hydrogen gas accumulation was measured with the same setup at later times, following the onset of anaerobiosis in the sealed cultures (Stage 2). The rate of hydrogen gas accumulation (FIG. 3, H.sub.2) was estimated to be about 2 ml H.sub.2 h-1 (equivalent to 4.1 mmol H.sub.2 (mol Chl).sup.-1 s.sup.-1), which is less than 20% of the rate of O.sub.2 gas collected in the inverted graduated cylinder (FIG. 3, O.sub.2)." Zhang LP, Melis A (2002) Probing green algal hydrogen production Phil Trans Royal Soc of London Series B - Biol Sci. 357 (1426): 1499-1507 "For the first time, to our knowledge, significant amounts of H-2 gas were generated, essentially from sunlight and water. Rates of H-2 production could be sustained continuously for ca. 80 h in the light, but gradually declined thereafter." "The rate of H2 production was fairly constant at 2.5 ml h 1 during the 27–60 h period. This is the equivalent of ca. 5 mmol H2 (mol Chl) 1 s 1, ..." If you don't have journal access, you can get Melis' contact info from the web page and ask him for reprints or PDFs. -- Sent by xanadoof from yahoo part of com This is a spam protected message. Please answer with reference header. Posted via [Only registered and activated users can see links. Click Here To Register...] |
hydrogen from algae... [Only registered and activated users can see links. Click Here To Register...] (Art Ickles) wrote in message news:<[Only registered and activated users can see links. Click Here To Register...]>... Thanks for the info. No I don't have journal access (unless I drive to the local university). 3 mL H2/h/L rxtor... ah, I was afraid of that... well, let's see... in order to size a reactor to produce 1 megawatt of power... to a first guess: X L rxtor x (.003 L H2/L rxtor/hr) x (1 mol H2/22.4 L H2) x (242,000 J/mol H2) x (1 hr/3600 s) = 1E6 J/s X -> 111,000,000 L of reactor (or 29 million gallons) just for one megawatt of electrical power. This of course neglects the 10% typical efficiency of internal combustion engines, but Melis et al. say H2 production rate can be increased 10x, so I will allow these two to cancel. 29 million gallons... hmm... let's compare that to Haubenschild Farms' methane digester, which makes electricity from cow poop (essentially digested grass): [Only registered and activated users can see links. Click Here To Register...] (page 23) They can produce about 100 kW from 350,000 gallons of reactor. Scale that up x10 (just build ten Haubenschild reactors in parallel): 1 MW from 3.5 million gallons. About one order of magnitude smaller than the algae hydrogen reactors... hmm... Again, thanks for the info. Mike |
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