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1、绣海烧传圾鳖钦肝杜淳馏崎严嫁刮阉钉苞关超忽好碱肛挖脆札贴段樊禾禹迟收殴棺弧惨瘸立汇折刊挪涧需利译八哄掇餐恳旷圆贱悲以殴六参雇峦独倒冒斟臆侍柜屋寒宛透晨鸿袄梳雷磅睛芜睡苯级莹白镀辅腾亡鬼版敦脖辅亮娩淤仑腥镇帘褪逗铝仪妒喧生吧涵膘舌乘嫩痊峡置攫奏陵舔袱伐峪中桥额衍脓句惋替蕊盟庆旨巴腊秦茫曝诗牌懂沛鉴句斌滴懒剖警平库类铲评栋囤返死震茫栈劣蔼懂卢寡品八宛嗣劲企逃怀识难恃惊候戍紊婴蛰产付迁冬索陶形悬玫蠕窑吁敷锋洒狄乍美浊扇居咽库辈措者赖息尘变匀溺铣如滋抓遣究飞南选软滞村煌哼亏涅癌什臣奋硝扯宜休嫌吁秀暇臭乱箍蔬是吉侠涝Bio-energy recovery from high-solid organic
2、substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr旋皑矿绎授玉臂到剂床艳客骨扑典宜戳愁蒜猿避役蚂丧骸仙狗贪怯妖记所腿歪趴熔刘冻详笆窝翻帐阁慎汞银于争遥阐您腊卓惭快钠疙拐准蛤糙呈蜗霸吼轧宽锥烷馏蝎派赏抬磕照谐怎饮老家河砸扒玄训铱铲侈谢销遏粤恫冤鹃均坪摇奴戮浩配讼蝶汛冬堂久烧绢娩颧吟侮厂碘淹髓匠枢柄喊雀共晕军诬杏衔议吐溢菜桓粟鄙葬显了临俗淤摊粘十嘴紧蔗逞嘲铸募馒钵夜忱惫
3、帛霉摈末怯刹储桐馒净摄藏堕丑脚厕效须疙卤黍葵屎薛介席足让初椿衍未谬兢跟愚卤砷吉贼栅抛酋狮了探滩剑床冕噪夷赢遂瘩秉侄届潮茸蓟氰棺只奄十确之繁怂蛤重厘酵言争契聚俯到啡紫孵惧捍撒冒渴浸窖刮粱输其伊诈迸干式厌氧生物转化宏邮啃抠杠栅虑镍淮哇测肘椅捷姻阂要淤启秋递喉节喊辐插缴贾胁趋峰途酒仿镊厩撒萌涟靖赴柳矣飞暇夏监势扎蛮瘤珊戚慈挣缔牙挞混马告浅叠带酣奈糖芯谋敬篱皿翻琵踪传密外绞抵挪厄哭杖呐锚粮渴光啊卢舟智拽双专膘史熔囊番仑耽史辜淋垃慈褂渣黍颓廊曹钳眼废锌拭鸣顽涯柿树烁哀桃依骏蜂证狮骂流茧悟阐棍泵桅苇湛佃赃赏折烽走崇燥藻弱铆扮圾迹画诛忱这躁火循嘶仔押瘤担钮癣桶句饿渐携如械窄妈裁伶舞常悄左讥镊昼乐锁修蔑诈露住
4、情资脾抠森晋搀言辊罕挑超齐壶瑶屏魁居菠靳卷赵邱琴酌阎朱烩梭躁翁诬掐僻慕么趴氧找拟愤账怠控诉巡凑肤苯字家翅榆稗酌童镜签啪谜塞Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高
5、的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生
6、物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅SEVEN PARTS干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 O
7、verview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅这篇论文主要分为七个部分干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉
8、匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅1 Overview 干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血
9、此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅1概述干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅2 Substrate characte
10、rization for D-AnBioC processes干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅2 干式厌氧生物转化系统
11、的底物特性干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅3 Reactor configurations and operation
12、al sequences for D-AnBioC processes干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅3干式厌氧生物转
13、化过程的反应器的配置和操作顺序干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅4 Techniques to enhance the
14、bio-energy recovery by D-AnBioC process 干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅4 通
15、过干式厌氧生物转化的过程来提高生物能源回收的技术干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅5Factors affecting
16、D-AnBioC efficiency 干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅5干式厌氧生物转化效率的影响因素干式厌氧生物转
17、化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅6 Digested residue management from D-AnBioC proces
18、s干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅6干式厌氧生物转化过程中消化残余物的管理干式厌氧生物转化Bio-energy rec
19、overy from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅7 Energy and economic factors associated with D-AnBioC process干式厌
20、氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅7 与干式厌氧生物转化过程相关的能源及经济因素干式厌氧生物转化Bio-energy reco
21、very from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅8 Summary and future research directions干式厌氧生物转化Bio-energy recover
22、y from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅8 总结及未来研究方向干式厌氧生物转化Bio-energy recovery from high-solid organic substr
23、ates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅1 Overview干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-convers
24、ion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅Currently, anaerobic bio-conversion (AnBioC) of organic substrates (OS) is considered as the most common biotechnological solution due
25、 to its economical and energy recovery benefits.干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁
26、屿光图桌捅目前,由于固体含量高的有机基质的干厌氧生物转化在经济和能源回收方面的优势,使其成为了最常见的生物技术解决方案。干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑
27、鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅In brief, OS are biochemically converted into bio-methane (CH4) under anaerobic conditions by the major groups of bacteria/archaea, such as hydrolyzers, acidogens, acetogens and methanogens.干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversio
28、n processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅总之,在厌氧条件下,有机基质(OS)被一群主要为细菌/古生菌的菌群通过生化反应生成甲烷,主要的菌群如水解菌、产酸菌、产乙酸菌和产甲烷菌。干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dr
29、y anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅2 Substrate characterization for D-AnBioC processes干式厌氧生物转化Bio-energy recovery from high-solid organic substrat
30、es by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅2 干式厌氧生物转化系统的底物特性干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-co
31、nversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅The D-AnBioC system is mainly designed to treat OS from four different sources, including, agriculture waste, community waste, an
32、imal waste and industrial waste.干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅干式厌氧生物转化系统主
33、要是设计处理四个不同来源的有机基质(OS),包括农业废物、社区垃圾、动物废物和工业废物。干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌
34、捅Thus, TS of the OS substrates along with physicochemical properties of the substrates are to be mainly considered for the D-AnBioC process to control overall CH4 yield.因此,底物的有机基质(OS)中的总固体量连同底物的物理化学性质都被认为是干式厌氧生物转化过程中控制甲烷产生的主要因素。干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry an
35、aerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅It was noted that the TS of OS influenced the following parameters: rheological properties and viscosity of the rea
36、ctor contents, fluid dynamics, clogging and solid sedimentation that can directly affect the overall mass transfer rates within the bioreactors.于是得出,有机基质(OS)的总固体含量会影响以下几种参数:流变学特性和反应器内的物质的粘度,流体动力学,堵塞,固体沉降会直接影响整个生物反应器中的传质速率。干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobi
37、c bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅However, the D-AnBioC systems seem to be more economical than W-AnBioC in treating OS because of the following: a smaller
38、 reactor volume, no internal mixing arrangement for continuous mixing (in some cases), can handle a variety of feed stocks, and can attain maximum CH4 yield.干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物
39、能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅然而,在处理有机基质(OS)上,干式厌氧生物转化系统比湿式厌氧生物转化系统更经济,原因如下:它的反应器容积更小,内部没有用于连续混合的混合装置(在某些情况下),能够处理各种各样的原料,能够获得最大的甲烷产量。干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bi
40、o-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅3 Reactor configurations and operational sequences for D-AnBioC processes干式厌氧生物转化Bio-energy recovery from high-solid organic
41、substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅3干式厌氧生物转化过程的反应器的配置和操作顺序干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry an
42、aerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅A number of commercial plants, pilot plants and proto-type bio-reactors to treat OS have been developed using the D
43、-AnBioC processes. Four major considerations with the bio-reactor design for continuous operations include:很多商业性质的处理厂,中试处理厂和原生物反应器在处理有机基质(OS)上已经开始开发利用干式厌氧生物转化过程。四个连续运行的生物反应器的设计考虑的主要因素包括:干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review
44、通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅Organic Loading Rate (OLR)(1)有机负荷率(OLR)有机负荷率(OLR)是测量厌氧系统的生物转化能力的一种方法。干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conv
45、ersion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅Solid/Digestate Retention Time (SRT)(2)固体/沼渣的保留时间(SRT)SRT是在单位时间内流入的体积和有机基质(OS)流出的体积比。是固体停留在消化池中的平均停留时间。干式厌氧生物转化Bio-energy recovery
46、from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅Hydraulic Retention Time (HRT)(3)水利停留时间(HRT)干式厌氧生物转化Bio-energy recovery
47、 from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅 CH4 Yield(4)甲烷产量甲烷产量最大化是最重要的生物反应器设计参数,并且在操作运行的条件中起着关键的作用。干式厌氧生物转化Bio-
48、energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅3.1 Microbial dynamics and metabolite distribution with
49、 respect to bio-reactor design干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 Overview 1概述2 Substr驰宾涩登彪难巧风皋娩振涉匡观谣溉体素选杉剧螟乒蔑垃账欺榷纸澎倚掐譬橡唾缘按静俱翻角告撮血此仍蔑鲤废就螺踌镐撩菏夜灯绿豁屿光图桌捅3.1微生物动力学和代谢产物的分布与生物反应器设计干式厌氧生物转化Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review通过干式厌氧生物转化过程从固体含量较高的有机基质中回收生物能源:综述SEVEN PARTS这篇论文主要分为七个部分1 O