以原油为唯一碳源和能源,从新疆克拉玛依油田土壤中筛选出1株能产生物表面活性剂的高效解烃菌XJBM,经形态观察、生理生化特征和Biolog分析,初步鉴定该菌为铜绿假单胞菌(Pseudomonas Aeruginosa)。薄层色谱分析结果表明,XJBM产糖脂类生物表面活性剂,在最适发酵条件下,生物表面活性剂的产量可达2.25 g/L,可将发酵液表面张力从68.20 m N/m降低到32.50 m N/m,乳化指数(E24)达到81.8%。采用单因素试验对影响XJBM降解率的因素进行了研究,得出最适降解条件为p H 7.5,温度30℃,盐浓度5 g/L,接种量10%。在此条件下,菌株对1%石油烃的7d降解率为63.78%。 相似文献
Environmental Chemistry Letters - The release of pharmaceuticals into the environment induces adverse effects on the metabolism of humans and other living species, calling for advanced remediation... 相似文献
Environmental Science and Pollution Research - The Environment Fund is a state financial institution and a non-profit organization, operating mainly in concessional loans with low-interest rates... 相似文献
Environmental and energy crises are a major threat to the sustainable growth of the human society, calling for greener technologies such as photocatalysis. Photocatalysis is a solar-driven approach that converts photon energy into chemical energy, yet the conversion efficacy of classical photocatalysis is usually restricted and controlled by the charge carrier’s separation and migration. Enhanced conversion requires suppressed recombination rate and superior redox abilities. From this aspect, the manipulation of heterojunction allows to overcome the drawback of classical photocatalysis. The cascade mechanism follows a dual direct charge migration route, resulting in enhanced redox abilities and efficient mineralization of pollutants. Here, we review photocatalytic material aspects in improving redox ability by cascade charge transfer. We describe the mechanisms and applications of three cascade systems: two type-II cascade systems, mediator-based cascade systems, and dual direct Z-scheme. We highlight the superiority of the direct dual cascade route with a prolonged lifetime of carriers, higher quantum yield, and enhanced redox abilities. Applications to carbon dioxide reduction, hydrogen production by water splitting and pollutant degradation are discussed.
Environmental Chemistry Letters - There is actually an intense research in ethanol dry reforming because bioethanol and carbon dioxide, a greenhouse gas, can be converted into syngas and,... 相似文献