Department of Biological and Agricultural Engineering, Driftmier Engineering Center, Agricultural Drive, Athens, Georgia 30602, USA;
Department of Biological and Agricultural Engineering, Driftmier Engineering Center, Agricultural Drive, Athens, Georgia 30602, USA;
Department of Biological and Agricultural Engineering, Driftmier Engineering Center, Agricultural Drive, Athens, Georgia 30602, USA;
Department of Biological and Agricultural Engineering, Driftmier Engineering Center, Agricultural Drive, Athens, Georgia 30602, USA;
Department of Biological and Agricultural Engineering, Driftmier Engineering Center, Agricultural Drive, Athens, Georgia 30602, USA;
Department of Biological and Agricultural Engineering, Driftmier Engineering Center, Agricultural Drive, Athens, Georgia 30602, USA;
pyrolysis; bioenergy; entropy; solid waste;
机译:生物能源和液体废弃物的利用
机译:固体生产和消费废物的高温等离子体转化产品。等离子体转化和焚化产品的比较质量评估
机译:结合碱熔和气态二氧化碳捕集,对非金属固体废物固化产物中的碳14进行分析。
机译:将固体废物转化为高品质的生物能源:熵分析
机译:将有机废物转化为可销售产品:混合堆肥偏好分析和扩大佛蒙特州堆肥市场的策略的联合分析
机译:厌氧消化城市固体废物热水解有机部分的生物能生产数据
机译:市政固体废物的可行性作为生物能源产品的来源
机译:城市固体废物产品中铅和镉的初步使用和替代分析