Oxygen transfer and evolution in microalgal culture in open raceways
Oxygen transfer and evolution in microalgal culture in open raceways
The mass transfer characteristics of all sections of a 100 m2 raceway were evaluated. The efficiency of different diffusers was determined dynamically and the most effective was used for steady state system characterisation at water depth 0.2 m and velocity 0.22 m s?1. Mass transfer coefficients at a gas flow rate of 6 m3 h?1 were 164.50, 63.66, 0.87 and 0.94 h?1 for the paddlewheel, sump, straight and curved channel sections, with associated oxygen transfer rates of 106, 172, 27 and 39 g h?1. Oxygen supersaturation during algal cultivation led to a reduction in biomass productivity, which was more severe with pure CO2 than flue gas. Simulations showed the energy required to increase mass transfer and reduce oxygen concentrations was more than compensated for by increased biomass and potential energy yields. Oxygen removal is likely to be a critical criterion, and maintenance of mass transfer by sparging may be necessary even when CO2 is not required
188-195
Mendoza, J.L.
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Granados, M.R.
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de Godos, I.
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Acién, F.G.
fcf0682c-a771-4d80-8429-e44a55447afd
Molina, E.
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Heaven, S.
f25f74b6-97bd-4a18-b33b-a63084718571
Banks, C.J.
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2013
Mendoza, J.L.
947e2985-9cba-4bdf-aea7-fd53227a1a28
Granados, M.R.
70c47fa4-e774-42f5-b2be-ddf3040f2782
de Godos, I.
760228a4-5f27-4268-9f5d-911a0e60fa7b
Acién, F.G.
fcf0682c-a771-4d80-8429-e44a55447afd
Molina, E.
fb66da60-cd71-4920-8850-371efa4b40cb
Heaven, S.
f25f74b6-97bd-4a18-b33b-a63084718571
Banks, C.J.
5c6c8c4b-5b25-4e37-9058-50fa8d2e926f
Mendoza, J.L., Granados, M.R., de Godos, I., Acién, F.G., Molina, E., Heaven, S. and Banks, C.J.
(2013)
Oxygen transfer and evolution in microalgal culture in open raceways.
Bioresource Technology, 137, .
(doi:10.1016/j.biortech.2013.03.127).
Abstract
The mass transfer characteristics of all sections of a 100 m2 raceway were evaluated. The efficiency of different diffusers was determined dynamically and the most effective was used for steady state system characterisation at water depth 0.2 m and velocity 0.22 m s?1. Mass transfer coefficients at a gas flow rate of 6 m3 h?1 were 164.50, 63.66, 0.87 and 0.94 h?1 for the paddlewheel, sump, straight and curved channel sections, with associated oxygen transfer rates of 106, 172, 27 and 39 g h?1. Oxygen supersaturation during algal cultivation led to a reduction in biomass productivity, which was more severe with pure CO2 than flue gas. Simulations showed the energy required to increase mass transfer and reduce oxygen concentrations was more than compensated for by increased biomass and potential energy yields. Oxygen removal is likely to be a critical criterion, and maintenance of mass transfer by sparging may be necessary even when CO2 is not required
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Published date: 2013
Organisations:
Water & Environmental Engineering Group
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Local EPrints ID: 351292
URI: http://eprints.soton.ac.uk/id/eprint/351292
ISSN: 0960-8524
PURE UUID: 955218d4-9af6-44eb-bc7f-1c560002cb35
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Date deposited: 19 Apr 2013 08:51
Last modified: 15 Mar 2024 02:52
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Author:
J.L. Mendoza
Author:
M.R. Granados
Author:
I. de Godos
Author:
F.G. Acién
Author:
E. Molina
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