重点叙述了循环流化床烟气脱硫技术和微生物脱硫技术。
It emphasizes on the technology of circulating fluidized bed for flue gas desulfurization and the technology of flue gas desulfurization by micro-organism.
由于微生物脱硫工艺操作压力、温度低,尤其是与加氢技术偶联的生物脱硫工艺成本较小而具有广阔的市场前景。
The biological desulfurization process has broad prospects due to low operating pressure and temperature as well as low production cost coupled with hydrogenation.
提出了基于需盐脱硫弧菌以含乳酸盐的海水培养基为电解液的微生物燃料电池。
A microbial fuel cell of laboratory scale employing Desulfovibrio salexigens in lactate based seawater substrate was proposed.
微生物在黄铁矿表面吸附量的大小,直接影响微生物对黄铁矿的表面改性,决定浮选脱硫效果的优劣。
The surface modification of pyrite is directly affected by the microorganism adsorption amount on coal-pyrite surface, which will determine the efficiency of floatation desulfurization.
生物脱硫通过微生物的作用,将硫化物转化成单质硫予以脱除,具有运行成本低和无二次污染的特点,有着极好的发展前景。
Biodesulfurization through microbial role will be transformed into single-sulfide to sulfur removal quality, low running cost, no secondary pollution, have great prospects for development.
生物脱硫通过微生物的作用,将硫化物转化成单质硫予以脱除,具有运行成本低和无二次污染的特点,有着极好的发展前景。
Biodesulfurization through microbial role will be transformed into single-sulfide to sulfur removal quality, low running cost, no secondary pollution, have great prospects for development.
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