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BIOMASS AND HYDROGEN PHOTOPRODUCTION BY A MARINE BLUE-GREEN ALGA OSCILLATORIA SP. MIAMI BG 7 IN NATURAL SEAWATER CULTURE SYSTEM.

机译：海洋蓝绿色藻类振荡器SP的生物量和氢光生。天然海水培养系统中的MIAMI BG 7。

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A non-heterocystous marine blue-green alga Oscillatoria sp. Miami BG 7 showed high biomass yields and hydrogen production rates in a natural seawater based system. Variations in water quality such as salinity, pH, trace metal concentration and combined nitrogen level did not affect either the biomass or the hydrogen production. Recycling of the two steps involved in hydrogen production (i.e., aerobic growth phase and anaerobic hydrogen production phase) significantly increased (>400%) the hydrogen yield. Immobilization of cells improved hydrogen production activity and its tolerance to adverse environmental conditions. Both the biomass and hydrogen production were not affected under uncontrolled outdoor environments. High biomass yield (250 mg dry wt/l/day or 40 g/m('2)/day), solar energy conversion efficiency (3.2%) and hydrogen production rate (1 ml H(,2)/ml gel/day) were obtained in small scale outdoor systems.

机译：一种非藻类海洋蓝绿藻Oscillatoria sp。 Miami BG 7在基于天然海水的系统中显示出高的生物量产量和氢气生产率。水质的变化（例如盐度，pH，痕量金属浓度和总氮含量）不影响生物量或产氢。氢气生产涉及的两个步骤（即好氧生长阶段和厌氧氢气生产阶段）的回收显着提高了氢气产量（> 400％）。细胞的固定提高了氢的生产活性及其对不利环境条件的耐受性。在不受控制的室外环境下，生物量和氢气的产生均不受影响。高生物质产量（250 mg干wt / l /天或40 g / m（'2）/天），太阳能转化效率（3.2％）和制氢率（1 ml H（，2）/ ml凝胶/天）是在小型室外系统中获得的。

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作者
RAMACHANDRAN, SUNDARARAJAN.;
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作者单位

University of Miami.;

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授予单位 University of Miami.;
学科 Biology Oceanography.
学位 Ph.D.
年度 1985
页码 122 p.
总页数 122
原文格式 PDF
正文语种 eng
中图分类海洋生物;
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专利

1. Role of Light Intensity and Temperature in the Regulation of Hydrogen Photoproduction by the Marine Cyanobacterium Oscillatoria sp. Strain Miami BG7 [J] . E. J. Phlips, A. Mitsui Applied and Environmental Microbiology . 1983,第4期

机译：光强度和温度在海洋蓝藻Oscillatoria sp。调节氢光生产中的作用。应变迈阿密BG7
2. Comparative Amperometric Study of Uptake Hydrogenase and Hydrogen Photoproduction Activities between Heterocystous Cyanobacterium Anabaena cylindrica B629 and Nonheterocystous Cyanobacterium Oscillatoria sp. Strain Miami BG7 [J] . S. Kumazawa, A. Mitsui Applied and Environmental Microbiology . 1985,第2期

机译：异胞蓝藻蓝藻B629与非异杯蓝藻Oscillatoria sp。吸收氢酶和氢光生产活性的比较安培研究。应变迈阿密BG7
3. 2-O-(￥á-D-Glucopyranosyl)glycerol, A New Glycerol Glycoside from the Marine Blue-green Alga Oscillatoria sp. [J] . Byeng Wha Son, Dong Ick Lee, Dong-Soo Kim, Bulletin of the Korean Chemical Society . 1999,第10期

机译：2-O-（￥ -D-Glucopyranosyl）甘油，一种新的甘油糖苷，来自海洋蓝绿色藻类Oscillatoria sp.。
4. THE ENVIRONMENTAL REGULATION OF HYDROGEN PRODUCTION IN THE MARINE CYANOBACTERIA MIAMI BG 7 OSCILLATORIA SP. 000701. [D] . PHLIPS, EDWARD JULIEN. 1981

机译：海洋蓝藻迈阿密BG 7振荡器SP中氢气生产的环境调节。 000701。
5. Role of Light Intensity and Temperature in the Regulation of Hydrogen Photoproduction by the Marine Cyanobacterium Oscillatoria sp. Strain Miami BG7 [O] . E. J. Phlips, A. Mitsui 1983

机译：光强度和温度在海洋蓝藻Oscillatoria sp。调节氢光生产中的作用。应变迈阿密BG7
6. Role of Light Intensity and Temperature in the Regulation of Hydrogen Photoproduction by the Marine Cyanobacterium Oscillatoria sp. Strain Miami BG7 [O] . E. J. Phlips, A. Mitsui 1983

机译：光强度和温度在海洋弧菌振荡菌氢电洗脱中的作用。应变迈阿密BG7.
7. Enhancement of Hydrogen Photoproduction by Marine Chromatium SP. Miami PBS 1071 Grown in Molecular Nitrogen [R] . Ohta, Y., Mitsui, A. 1980

机译：用船用Chromatium sp增强氢光生产。迈阿密pBs 1071在分子氮中生长

BIOMASS AND HYDROGEN PHOTOPRODUCTION BY A MARINE BLUE-GREEN ALGA OSCILLATORIA SP. MIAMI BG 7 IN NATURAL SEAWATER CULTURE SYSTEM.

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