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序批式秸秆牛粪混合厌氧干发酵过程物料理化及渗滤特性 被引量:6

Physicochemical and percolating characteristics of sequencing batch dry anaerobic digestion of straw-cow manure mixture
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摘要 序批式厌氧干发酵技术在规模化处理农业废弃物方面具备优势,通过工艺调控优化使产气效率得到明显改善,但对其物质转化特性的综合研究尚待深入。该文在发酵温度和秸秆粒径交互因素下,对不同干发酵环境理化特性及微生物群落进行比较,探寻提高物质转化效率机制、物料形态及渗滤液流动特性。结果表明,高温和细粒径条件显著改善生物转化效率,通过加速有机酸转化,使物料降解率和沼气产量提升了22.61%和56.17%。发酵10d,细粒径物料结构-渗滤液流动规律基本稳定,形成渗滤液由反应器中区向外区流动趋势,并与Clostridiales、Bacillales、Methanosarcina、Methanoculleus丰度呈正相关(P<0.05),形成最佳转化状态。该研究可为评价和改善不同序批式厌氧干发酵体系运行效率提供理论依据。 The sequencing batch dry anaerobic digestion(SBD-AD)technology has advantages in large-scale treatment of agricultural wastes.SBD-AD project has the characteristics of large processing capacity of raw materials,high volumetric biogas production rate and less biogas slurry emission.Moreover,it is easy to operate and has low failure rate,and easy to handle agricultural solid wastes with high fiber content and difficult to degrade,such as crop straw,livestock manures.In the previous research,the key influencing factors of promoting methane yield were screened,the efficient control methods and operation processes were summarized,and the mechanism of methanogenesis was revealed.However,the mechanism of interaction between materials and leachate flow in dry fermentation process,especially the synergistic promotion of biogas production peak stage and biotransformation,needs further study.Therefore,the different dry fermentation systems were established based on the environmental factors of fermentation temperature and straw particle size,and the properties of dry fermentation,materials and leachate were explored by comparing the systems.In order to provide theoretical guidance for further improving the quality and operation efficiency of the SBD-AD,the relationship among material fermentation,structure and percolation fluid flow characteristics was established.In this paper,under the interaction of fermentation temperature and particle size,different dry fermentation environments were launched to compare biotic and abiotic characteristics,and to explore the fermentation mechanism,material morphology and leachate flow characteristics of improving mass transfer efficiency.The results show that changing the fermentation temperature and particle size of the straw can significantly promote the SBD-AD bioconversion efficiency(P<0.05),high temperature conditions make the straw degradation rate increased by 22.61%and accelerate the transformation of organic acid and ammonia nitrogen generating rate,the ultimate methane yield increased by 29.56%,straw particle size change can significantly promote the improvement of carbon conversion rate(P<0.05).In addition,straw particle size is the main factor affecting the material structure and the flow properties of leachate.Under the condition of short particle size,the total porosity decreases by 23.17%and the bulk density increases by 14.64%,and the water holding porosity and aeration porosity in the middle zone(inner zone)increase significantly,resulting in the outer area of leachate collection volume being 5.5 times and 10.8 times of that in the middle zone and inner zone.Under the condition of long particle size,the porosity of materials and the flow rule of percolate have no obvious change.Furthermore,the first 10 d of fermentation,material structure and the leachate flow characteristics tend to be stable,short particle size under the condition of leachate along the sides of their present material porosity from the center to the seepage rule,and long particle size significant difference(P<0.05),and the Clostridiales,Bacillales,Methanosarcina,Methanoculleus abundance was significantly positive correlation(P<0.05),which is the best state to promote biomass conversion efficiency.This study can provide a theoretical basis for evaluating and improving the operating efficiency of different SBD-AD systems.
作者 于佳动 赵立欣 冯晶 姚宗路 申瑞霞 黄开明 陈建坤 张迎 Yu Jiadong;Zhao Lixin;Feng Jing;Yao Zonglu;Shen Ruixia;Huang Kaiming;Chen Jiankun;Zhang Ying(Center of Energy and Environmental Protection,Chinese Academy of Agricultural Engineering Planning and Design,Key Laboratory of Energy Resource Utilization from Agriculture Residue,Ministry of Agriculture,Beijing 100125,China;Institute of Environmental and Sustainable Development in Agriculture,CAAS,Beijing 100081,China)
出处 《农业工程学报》 EI CAS CSCD 北大核心 2019年第20期228-234,共7页 Transactions of the Chinese Society of Agricultural Engineering
基金 国家重点研发计划(2018YFD0800100)资助 中国博士后科学基金资助项目(2017M620717)
关键词 秸秆 序批式厌氧干发酵 生物转化 物料结构 渗滤液流动 straw manure sequencing batch dry anaerobic digestion biotransformation material morphology leachate flow
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