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机译:近期与厌氧发酵的生物炭集合的趋势:闭环中的双赢策略
Yonsei Univ Sch Civil & Environm Engn Seoul 03722 South Korea;
Korea Univ Korea Biochar Res Ctr Seoul 02841 South Korea|Korea Univ APRU Sustainable Waste Management Program Seoul 02841 South Korea|Korea Univ Div Environm Sci & Ecol Engn Seoul 02841 South Korea|Coconut Res Inst Soils & Plant Nutr Div Lunuwila 61150 Sri Lanka;
Univ Edinburgh UK Biochar Res Ctr Sch Geosci Alexander Crum Brown Rd Crew Bldg Edinburgh EH9 3FF Midlothian Scotland;
City Univ Hong Kong Sch Energy & Environm Kowloon Tong Tat Chee Ave Hong Kong Peoples R China;
City Univ Hong Kong Sch Energy & Environm Kowloon Tong Tat Chee Ave Hong Kong Peoples R China;
Korea Univ Korea Biochar Res Ctr Seoul 02841 South Korea|Korea Univ APRU Sustainable Waste Management Program Seoul 02841 South Korea|Korea Univ Div Environm Sci & Ecol Engn Seoul 02841 South Korea;
Yonsei Univ Sch Civil & Environm Engn Seoul 03722 South Korea;
Anaerobic digestion; Biogas; Nutrient cycling; Sustainable waste management; Organic waste; Bioeconomy;
机译:应用生物炭作为减轻土壤硝酸盐污染而不损害作物单产的双赢策略:以地中海钙质土壤为例
机译:储存废物底灰,以改善生物质发电和生物甲烷生产之间的“双赢”战略的厌氧消化性能
机译:生物炭刺激能够通过乙醇型发酵在厌氧消化中直接散射电子转移的新型物种的生长
机译:多功能厌氧反应器(MABR)发酵技术,可将甲烷,氢气和二氧化碳的厌氧消化,分离和纯化进行集成
机译:在体外发酵系统中,肠细菌对粘蛋白和膳食纤维进行厌氧发酵。
机译:通过将新型诱变筛选策略与系统级发酵优化相结合可显着提高枯草芽孢杆菌中重组碱性淀粉酶的产量
机译:一种双赢战略,以整合产品设计的可持续发展目标 - 一种教育方法