1 |
TANG F F, YU Z S, LI Y, et al. Catalytic co-pyrolysis behaviors, product characteristics and kinetics of rural solid waste and chlorella vulgaris[J]. Bioresource Technology, 2020, 299: 122636.
|
2 |
操建华. 乡村振兴视角下农村生活垃圾处理[J]. 重庆社会科学, 2019(6): 44-54.
|
|
CAO Jianhua. Research on rural domestic waste disposal under the perspective of rural revitalization[J]. Chongqing Social Sciences, 2019(6): 44-54.
|
3 |
聂二旗, 郑国砥, 高定, 等. 中国西部农村生活垃圾处理现状及对策分析[J]. 生态与农村环境学报, 2017, 33(10): 882-889.
|
|
NIE Erqi, ZHENG Guodi, GAO Ding, et al. Status quo and strategy for management of rural domestic waste in West China[J]. Journal of Ecology and Rural Environment, 2017, 33(10): 882-889.
|
4 |
韩智勇, 费勇强, 刘丹, 等. 中国农村生活垃圾的产生量与物理特性分析及处理建议[J]. 农业工程学报, 2017, 33(15): 1-14.
|
|
HAN Zhiyong, FEI Yongqiang, LIU Dan, et al. Yield and physical characteristics analysis of domestic waste in rural areas of China and its disposal proposal[J]. Transactions of the Chinese Society of Agricultural Engineering, 2017, 33(15): 1-14.
|
5 |
颜鹰, 庞豫健. 标准化视角下的农村生活垃圾分类处理研究[J]. 中国标准化, 2021(5): 139-143.
|
|
YAN Ying, PANG Yujian. Research on classification and treatment of rural household waste by standardization[J]. China Standardization, 2021(5): 139-143.
|
6 |
曾文俊, 李冰峰, 李惠斌, 等. 地埋式沼气工程资源化利用农村有机垃圾技术模式探析[J]. 中国沼气, 2020, 38(6): 74-78.
|
|
ZENG Wenjun, LI Bingfeng, LI Huibin, et al. Analysis on the technical model of utilizing rural organic waste by using buried biogas project[J]. China Biogas, 2020, 38(6): 74-78.
|
7 |
WAINAINA S, AWASTHI M K, SARSAIYA S, et al. Resource recovery and circular economy from organic solid waste using aerobic and anaerobic digestion technologies[J]. Bioresource Technology, 2020, 301: 122778.
|
8 |
金鹏康, 陆佳宁, 李志鹏. 不同基质配比对农村生活垃圾厌氧发酵效率及稳定性的影响[J]. 安全与环境学报, 2019, 19(1): 300-307.
|
|
JIN Pengkang, LU Jianing, LI Zhipeng. Influence of different distributive ratios of typical rural wastes on efficiency and stability of co-digestion system[J]. Journal of Safety and Environment, 2019, 19(1): 300-307.
|
9 |
ADAMI L, SCHIAVON M, TORRETTA V, et al. Evaluation of conventional and alternative anaerobic digestion technologies for applications to small and rural communities[J]. Waste Management, 2020, 118: 79-89.
|
10 |
BERNARD S S, SRINIVASAN T, SURESH G, et al. Production of biogas from anaerobic digestion of vegetable waste and cow dung[J]. Materials Today: Proceedings, 2020, 33: 1104-1106.
|
11 |
CHOWDHURY T H. Technical-economical analysis of anaerobic digestion process to produce clean energy[J]. Energy Reports, 2021, 7: 247-253.
|
12 |
奚永兰, 刘洋, 高娣, 等. 农村生活垃圾厌氧发酵产沼气潜力研究[J]. 农业工程学报, 2020, 36(23): 222-228.
|
|
XI Yonglan, LIU Yang, GAO Di, et al. Potential of biogas produced from anaerobic fermentation of rural household wastes[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020, 36(23): 222-228.
|
13 |
蒋滔, 韦秀丽, 肖璐, 等. 玉米秸秆固态和液态厌氧发酵产气性能与微生物种类比较研究[J]. 农业工程学报, 2020, 36(3): 227-235.
|
|
JIANG Tao, WEI Xiuli, XIAO Lu, et al. Comparison of biogas production and microbial species of corn straw in solid-state anaerobic digestion(SS-AD) and liquid anaerobic digestion(L-AD)[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020, 36(3): 227-235.
|
14 |
于佳动, 赵立欣, 冯晶, 等. 序批式玉米秸秆牛粪混合厌氧干发酵产甲烷工艺优化研究[J]. 农业工程学报, 2018, 34(S1): 86-92.
|
|
YU Jiadong, ZHAO Lixin, FENG Jing, et al. Study on optimal technology of methane production by sequencing batchdry anaerobic digestion with corn straw and cattle manure[J]. Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(S1): 86-92.
|
15 |
李宵宵, 吴丽杰, 任瑞鹏, 等. 高含固污泥厌氧消化处理技术研究进展[J]. 现代化工, 2020, 40(8): 21-25.
|
|
LI Xiaoxiao, WU Lijie, REN Ruipeng, et al. Research progress on anaerobic digestion treatment technology for high-solid sludge[J]. Modern Chemical Industry, 2020, 40(8): 21-25.
|
16 |
李丹妮, 张克强, 孔德望, 等. 非混合接种对猪粪厌氧干发酵产气特性的影响[J]. 环境工程学报, 2021, 15(1): 279-288.
|
|
LI Danni, ZHANG Keqiang, KONG Dewang, et al. Effects of non-mixed seeding on methane production characteristics of the batch dry anaerobic digestion of pig manure[J]. Chinese Journal of Environmental Engineering, 2021, 15(1): 279-288.
|
17 |
冯晶, 荆勇, 赵立欣, 等. 生物炭强化有机废弃物厌氧发酵技术研究[J]. 农业工程学报, 2019, 35(12): 256-264.
|
|
FENG Jing, JING Yong, ZHAO Lixin, et al. Research progress on biochar enhanced anaerobic fermentation technology of organic wastes[J]. Transactions of the Chinese Society of Agricultural Engineering, 2019, 35(12): 256-264.
|
18 |
郭南飞, 韩智勇, 史瑞, 等. 农村垃圾厌氧-准好氧时空联合生物反应器中微生物群落分析[J]. 农业工程学报, 2020, 36(19): 200-208.
|
|
GUO Nanfei, HAN Zhiyong, SHI Rui, et al. Analysis of microbial community in the anaerobic/semi-aerobic spatiotemporal bioreactor for rural wastes[J]. Transactions of the Chinese Society of Agricultural Engineering, 2020, 36(19): 200-208.
|
19 |
傅国志, 郭文阳, 马宗虎, 等. 秸秆与猪粪混合高固厌氧消化产气性能及关键微生物分析[J]. 化工进展, 2020, 39(8): 3386-3394.
|
|
FU Guozhi, GUO Wenyang, MA Zonghu, et al. Analysis of gas generation performance and key microorganisms of high solid anaerobic digestion of straw mixed with pig manure[J]. Chemical Industry and Engineering Progress, 2020, 39(8): 3386-3394.
|
20 |
张大磊, 李瑞栋, 赵昱皓, 等. 农业废弃物共发酵的产气潜力研究[J]. 山东化工, 2018, 47(20): 175-178.
|
|
ZHANG Dalei, LI Ruidong, ZHAO Yuhao, et al. Study on gas production potential of agricultural waste co-fermentation[J]. Shandong Chemical Industry, 2018, 47(20): 175-178.
|
21 |
齐利格娃, 高文萱, 杜连柱, 等. 粪草比对猪粪与稻草干发酵产沼气及古菌群落的影响[J]. 农业工程学报, 2018, 34(23): 232-238.
|
|
QI Ligewa, GAO Wenxuan, DU Lianzhu, et al. Influence of pig manure and rice straw mass ratio on its biogas production and archaeal communities in dry anaerobic co-digestion system[J]. Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(23): 232-238.
|
22 |
张国华, 徐鹏程, 田汝康. 不同物料厌氧共发酵产甲烷特性研究[J]. 山东化工, 2019, 48(13): 208-212, 217.
|
|
ZHANG Guohua, XU Pengcheng, TIAN Rukang. Synergistic effect on methane production of anaerobic co-digestion with mixed materials[J]. Shandong Chemical Industry, 2019, 48(13): 208-212, 217.
|
23 |
冯晶, 赵兰兰, 赵立欣, 等. 进料浓度对玉米秸秆与牛粪全混式厌氧发酵特征影响研究[J]. 农业工程学报, 2019, 35(14): 221-227.
|
|
FENG Jing, ZHAO Lanlan, ZHAO Lixin, et al. Effect of feed concentration on continuous stirred anaerobic fermentation characteristics with mixed corn straw and cow manures[J]. Transactions of the Chinese Society of Agricultural Engineering, 2019, 35(14): 221-227.
|
24 |
WANG Y Y, LI G X, CHI M H, et al. Effects of co-digestion of cucumber residues to corn stover and pig manure ratio on methane production in solid state anaerobic digestion[J]. Bioresource Technology, 2018, 250: 328-336.
|
25 |
JIANG Y, DENNEHY C, LAWLOR P G, et al. Inhibition of volatile fatty acids on methane production kinetics during dry co-digestion of food waste and pig manure[J]. Waste Management, 2018, 79: 302-311.
|
26 |
MOTHE S, POLISETTY V R. Review on anaerobic digestion of rice straw for biogas production[J]. Environmental Science and Pollution Research, 2021, 28(19): 24455-24469.
|
27 |
APHA, 2005. Standard methods for the examination of water and wastewater[M]. 23rd ed.American Public Health Association, Washington D C, 1966.
|
28 |
鲍士旦. 土壤农化分析 [M]. 3版. 北京: 中国农业出版社, 2007.
|
|
BAO Shidan. Soil agricultural chemistry analysis[M]. 3rd ed. Beijing: China Agriculture Press, 2007.
|
29 |
乔玮, 姜萌萌, 赵婧, 等. 中温和高温环境下乙酸和丙酸厌氧发酵产甲烷动力学特征[J]. 农业工程学报, 2018, 34(21): 234-238.
|
|
QIAO Wei, JIANG Mengmeng, ZHAO Jing, et al. Methanogenesis kinetics of anaerobic digestion of acetate and propionate at mesophilic and thermophilic conditions[J]. Transactions of the Chinese Society of Agricultural Engineering, 2018, 34(21): 234-238.
|
30 |
LIU Z, DANG Y, LI C H, et al. Inhibitory effect of high NH4 +-N concentration on anaerobic biotreatment of fresh leachate from a municipal solid waste incineration plant[J]. Waste Management, 2015, 43: 188-195.
|