Characteristics of Biological NOx Removal from Flue Gas in a Dunaliella tertiolecta Culture System
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概要
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A system for the biological removal of NOx from fuel flue gas was investigated using the unicellular microalga Dunaliella tertiolecta. When nitric oxide (NO), the main component of NOx in flue gas, was supplied to the algal culture in a bioreactor with a 2-m column in the light at concentrations ranging from 25 to 500ppm, about 65% of the NO was removed. Under these conditions, cell growth was not affected by the concentration of the NO supplied, and about 1.6% O_2 was constantly evolved by photosynthesis. About 30% of the NO was removed by the medium without cells at 2% O_2. in which case the NO was probably photochemically oxidized by Fe^<3+> present in the medium. In cell cultures without Fe^<3+>, however, 65% NO removal was achieved. In the dark, on the other hand, the rate of NO removal was governed by the amount of O_2 supplied in the inlet gas, i.e., achievement of a NO removal rate similar to that achieved in the light required the presence of O_2 at 2% or more, and NO removal did not occur without the supply of O_2. It is thus clear that both algal cells and O_2 are essential in the reactor system. NO removal is assumed to proceed as follows : NO in the gas is first dissolved in the aqueous phase, after which it is oxidized and assimilated by the algal cells. The results of investigations under various culture conditions indicate that the dissolution of NO in the aqueous phase is the rate-limiting step in this reactor system.
- 1997-05-25
著者
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Hirata Kazumasa
Applied Environmental Biology Graduate School Of Pharmaceutical Sciences Osaka University
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永瀬 裕康
Environmental Biotechnology Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Hashimoto K
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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HIRATA KAZUMASA
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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NAGASE HIROYASU
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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Miyaoku Kohei
Department Of Synthetic Chemistry And Biological Chemistry Graduate School Of Engineering Kyoto Univ
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Yokota Yoshiko
Environmental Bioengineering Laboratory Faculty Of Pharmaceutical Sciences Osaka University
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EGUCHI KAORU
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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YOSHIHARA KEN-ICHI
Environmental Bioengineering Laboratory, Graduate School of Pharmaceutical Sciences, Osaka Universit
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MATSUI RIE
Environmental Bioengineering Laboratory, Faculty of Pharmaceutical Sciences, Osaka University
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Hirata Kazumasa
Department Of Biochemical Engineering Faculty Of Pharmaceutical Sciences Osaka University
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Hirata Kazumasa
Environmental Bioengineering Laboratory Graduated School Of Pharmaceutical Sciences Osaka University
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Hirata Kazumasa
Environ. Bioeng. Lab Grad. Sch. Pharm. Sci. Osaka Univ.
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Miyamoto Kazuhisa
Environmental Bioengineering Laboratory Graduated School Of Pharmaceutical Sciences Osaka University
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Miyamoto Kazuhisa
Laboratory Of Biological Defenoe Department Of Insect Physiology And Behavior National Institute Of
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Miyamoto K
Environmental Biotechnology Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Matsui Rie
Environmental Bioengineering Laboratory Faculty Of Pharmaceutical Sciences Osaka University
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Eguchi Kaoru
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Hirata K
Environmental Biotechnology Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Miyamoto K
Faculty Of Pharmaceutical Sciences Osaka University
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Hirata Kazumasa
Osaka Municipal Technical Research Institute
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Yoshihara Ken-ichi
Environmental Bioengineering Laboratory Graduate School Of Pharmaceutical Sciences Osaka University
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Eguchi Kaoru
National Veterinary Assay Laboratory, Ministry of Agriculture, Forestry and Fisheries
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