2008
DOI: 10.1002/bit.22079
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Assessment of the impact of salinity and irradiance on the combined carbon dioxide sequestration and carotenoids production by Dunaliella salina: A mathematical model

Abstract: Current anthropogenic activities have been causing a significant increase in the atmospheric concentration of CO2 over the past 60 years. To mitigate the consequent global warming problem, efficient technological solutions, based on economical and technical grounds, are required. In this work, microalgae are studied as important biological systems of CO2 fixation into organic compounds through photosynthesis. These microorganisms are potential sources of a wide variety of interesting chemical compounds, which … Show more

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Cited by 17 publications
(13 citation statements)
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“…Different reactor systems and the cultivation of a wide range of microalgal strains with pure CO 2 have already been examined (Araújo et al 2009;Hanagata et al 1992;Zeiler et al 1995;Yoshihara et al 1996;Murakami and Ikenouchi 1997;Usui and Ikenouchi 1997;Ono and Cuello 2004;Lee et al 2005). De Morais and Costa (2007a, b) tried to maximise daily CO 2 biofixation of Chlorella, Scenedesmus and Spirulina strains in tubular photobioreactors and reported specific growth rates of about 0.1-0.4 h −1 .…”
Section: Discussionmentioning
confidence: 97%
“…Different reactor systems and the cultivation of a wide range of microalgal strains with pure CO 2 have already been examined (Araújo et al 2009;Hanagata et al 1992;Zeiler et al 1995;Yoshihara et al 1996;Murakami and Ikenouchi 1997;Usui and Ikenouchi 1997;Ono and Cuello 2004;Lee et al 2005). De Morais and Costa (2007a, b) tried to maximise daily CO 2 biofixation of Chlorella, Scenedesmus and Spirulina strains in tubular photobioreactors and reported specific growth rates of about 0.1-0.4 h −1 .…”
Section: Discussionmentioning
confidence: 97%
“…Extensive and precise energy, material flow, and financial quantification is required when assessing new technologies that designed to operate at the industrial scale. As an example, on a volume-toarea ratio of 60 L m -2 , a microalgae culture (Dunaliella salina) productivity of 50.3 gm -2 day -1 (dry), and a carbon fraction (%) of 54.5 per unit of biomass, would sequester around 100 gCO 2 m −2 day -1 , equivalent to 1 tCO 2 ha -1 day -1 (Araujo et al 2008). Based these productivities, a 400 MW e combined cycle natural gas power plant would require around 350 ha of ponds to sequester 10% of the plants CO 2 emissions, at a cost of USD150 per tCO 2 (Araujo et al 2008) -an expensive option.…”
Section: Industrial Microalgae Biofuel Efficiency Challengesmentioning
confidence: 99%
“…As an example, on a volume-toarea ratio of 60 L m -2 , a microalgae culture (Dunaliella salina) productivity of 50.3 gm -2 day -1 (dry), and a carbon fraction (%) of 54.5 per unit of biomass, would sequester around 100 gCO 2 m −2 day -1 , equivalent to 1 tCO 2 ha -1 day -1 (Araujo et al 2008). Based these productivities, a 400 MW e combined cycle natural gas power plant would require around 350 ha of ponds to sequester 10% of the plants CO 2 emissions, at a cost of USD150 per tCO 2 (Araujo et al 2008) -an expensive option. Furthermore, an economic analysis undertaken by Chisti (2007) calculated operating costs of industrial-scale (80 ha) open microalgae ponds.…”
Section: Industrial Microalgae Biofuel Efficiency Challengesmentioning
confidence: 99%
“…Available data: data from Chisti (2007) and Araújo et al (2008); (b) biomass gasification: biomass is oxidized by O 2 and H 2 O at atmospheric pressure in a gasifier at 1000°C to generate syngas with a CO:H 2 ratio = 1:2. In order to achieve this composition specification (to improve the yield of upstream processes), the mass feed ratio of H 2 O (steam) to biomass was optimized and adopted as 50%.…”
Section: Structurementioning
confidence: 99%