Very interesting journal article on renewable oil production from photosythetic microbes

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curious Posted: 09-03-2007 03:18 PM

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CO2 MITIGATION AND RENEWABLE OIL FROM PHOTOSYNTHETIC MICROBES: A NEW APPRAISAL

MARK E. HUNTLEY1 and DONALD G. REDALJE2

1International Center for Climate and Society, School of Ocean and Earth Science and Technology,

University of Hawaii, Manoa, East-West Road, Honolulu, Hawaii 96822

2Department of Marine Science, University of Southern Mississippi, 1020 Balch Boulevard,

Stennis Space Center, Mississippi 39529

Journal : Mitigation and Adaptation Strategies for Global Change (2007) 12: 573–608

(Author for correspondence: E-mail: mhuntley@hawaii.edu, Tel: (808) 325-0779)

Abstract. The only major strategy now being seriously considered for biological mitigation of atmospheric

CO2 relies entirely on terrestrial plants. Photosynthetic microbes were the focus of similar

consideration in the 1990s. However, two major government-sponsored research programs in Japan

and the USA concluded that the requisite technology was not feasible, and those programs were

terminated after investing US$117 million and US$25 million, respectively. We report here on the

results of a privately funded US$20 million program that has engineered, built, and successfully

operated a commercial-scale (2 ha), modular, production system for photosynthetic microbes. The

production system couples photobioreactors with open ponds in a two-stage process – a combination

that was suggested, but never attempted – and has operated continuously for several years to

produce Haematococcus pluvialis. The annually averaged rate of achieved microbial oil production

from H. pluvialis is equivalent to >420 GJ ha −1 yr−1, which exceeds the most optimistic estimates

of biofuel production from plantations of terrestrial “energy crops.” The maximum production rate

achieved to date is equivalent to 1014 GJ ha−1 yr−1. We present evidence to demonstrate that a rate

of 3200 GJ ha−1 yr−1 is feasible using species with known performance characteristics under conditions

that prevail in the existing production system. At this rate, it is possible to replace reliance

on current fossil fuel usage equivalent to ∼300 EJ yr−1 – and eliminate fossil fuel emissions of CO2

of ∼6.5 GtC yr−1 – using only 7.3% of the surplus arable land projected to be available by 2050.

By comparison, most projections of biofuels production from terrestrial energy crops would require

in excess of 80% of surplus arable land. Oil production cost is estimated at $84/bbl, assuming no

improvements in current technology. We suggest enhancements that could reduce cost to $50/bbl or

less.

Filed under: Algae

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froggy replied on 09-03-2007 09:12 PM

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http://www.drfriendly.tv/PDFs/Huntley+Redalje200611.pdf

A link to the whole paper.

flectere si nequeo superos, Achaeronta movebo! -Virgil

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liberty1 replied on 09-04-2007 01:15 AM

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Curious and Froggy,

Sounds great. They say $55 per barrel oil from algae is feasible.

Toward freedom, Bobby

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Voltaire replied on 09-04-2007 09:21 AM

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liberty1:

Curious and Froggy,

Sounds great. They say $55 per barrel oil from algae is feasible.

Let's see if their pessimistic projection of ~$84/barrel algoil is reasonable before we assume the more optimistic ~$55/barrel number is feasible.

I started going through the paper last night before bed. I'll try and finish it in spare time before I go to sleep tonight.

Algae Man? AMiller? Froggy? Liberty? Mike? Can you all do the same?

Between the 6 of us and any other critical eye with the right experience (I'm sure there are more of you out there than the ones I listed), I'm confident we can give this paper a review at least as rigorous as a doctoral commitee does to a submitted PhD thesis.

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