猪场废水脱氮与沼气脱硫耦联反应器的启动

采用鼓泡反应器研究猪场废水脱氮与沼气脱硫耦联反应器的启动,比较了启动过程中不接种污泥、接种厌氧污泥及接种好氧污泥对启动时间及效能的影响.结果表明,接种好氧污泥的反应器在第32d时氮硫同步去除率达到60%以上;不接种污泥的反应器氮硫同步去除率达到60%需要36d;而接种厌氧污泥的反应器则需要50d.成功启动后,在温度为30～32℃、空塔停留时间为9.75min、水力停留时间为4.78d、沼气中H2S浓度为1.70 8·m-3左右及进水NOx-N浓度为109 mg·L-1的条件下,不接种污泥反应器,接种厌氧污泥反应器和接种好氧污泥反应器的NOx-N去除率分别97%、91%、99%,硫化氢的去除率分别稳定在82%、78%和86%左右.接种好氧污泥的反应器硫化氢去除率最高可达92.3%.运行稳定后,3个反应器均可实现按相对固定的比例同时去除硫和氮,废水脱氮与沼气脱硫得到了很好耦联,在1个反应器中可以同时实现废水脱氮与沼气脱硫.     

Life cycle environmental benefit and waste-to-energy potential of municipal solid waste management scenarios in Indonesia

Journal of Material Cycles and Waste Management - Appropriate municipal solid waste management transition should be promoted for developing Asian countries. Thus, we established a life-cycle...     

Graphene-based photocatalytic nanocomposites used to treat pharmaceutical and personal care product wastewater: A review

Photocatalytic technology has been widely studied by researchers in the field of environmental purification. This technology can not only completely convert organic pollutants into small molecules of CO₂ and H₂O through redox reactions but also remove metal ions and other inorganic substances from water. This article reviews the research progress of graphene-based photocatalytic nanocomposites in the treatment of wastewater. First, we elucidate the basic principles of photocatalysis, the types of graphene-based nanocomposites, and the role of graphene in photocatalysis (e.g., graphene can accelerate the separation of photon-hole pairs and increase the intensity and range of light absorption). Second, the preparation, characterization, and application of composites in wastewater are introduced. We also discuss the kinetic model of the photocatalytic degradation of pollutants. Finally, the enhancement mechanism of graphene in terms of photocatalysis is not completely clear, and graphene-based photocatalysts with high catalytic efficiency, low cost, and large-scale production have not yet appeared, so there is an urgent need for more extensive and in-depth research.