畜禽粪便资源化处理的研究进展

doi:10.12377/1671-4393.21.11.07

Abstract

Abstract: With the rapid development of large-scale and intensive livestock farming in China, the environmental pollution caused by livestock and poultry manure is increasingly concerned by people.Resource utilization technologies of livestock and poultry manure are reviewed in this paper,from the fertilizer,fodder and energy point of view,the advantages and disadvantages of each resource recovery technology are discussed,including pyrolysis technology for processing of livestock and poultry manure,which shows a good development potential. It not only has high processing efficiency,short cycle and the quickly eliminating harmful ingredients,effectively reducing the environment load characteristics,but also produce bio-energy with high added value after the treatment of livestock and poultry waste. The research status and existing problems of the treatment of livestock and poultry manure by pyrolysis technology are analyzed,and the development direction of the livestock and poultry manure treatment by pyrolysis technology is forecasted.

Key words: livestock and poultry manure, treatment, resource recovery, drying, pyrolysis

GUO Jiali, ZHENG Lei, ZHU Lixin, LI Zifu. Research Progress in Resource-oriented Treatment of Livestock and Poultry Manure[J].China Dairy, 2021, 0(11): 47-55.

References

[1] 王毅琪,韩文彪,陈灏,等. 畜禽养殖废弃物无害化处理技术及其应用[J]. 中国家禽,2016,38(24):66-70.
[2] 张福锁. 中国养分资源综合管理策略和技术[A]. 见:中国农学会.循环农业与新农村建设——2006年中国农学会学术年会论文集[C]. 北京:中国农学会,2006.
[3] 仇焕广,廖绍攀,井月,等. 我国畜禽粪便污染的区域差异与发展趋势分析[J]. 环境科学,2013,34(7):2766-2774.
[4] Wang H,Dong Y H,Wang H Y.Hazardous metals in animal manure and their changes from 1990 to 2010 in China[J]. Toxicological and Environmental Chemistry, 2014, 96(9-10): 1346-1355.
[5] Ilea R C.Intensive Livestock Farming: Global Trends, Increased environmental concerns, and ethical solutions[J]. Journal of Agricultural and Environmental Ethics, 2009, 22(2): 153-167.
[6] Graham, P. Nachman, Keeve E. Managing waste from confined animal feeding operations in the United States: the need for sanitary reform[J]. Journal of Water & Health, 2010, 8(4): 646-670.
[7] Li C Y,Qiao W,Roland W.Melse,et al. Patterns of dairy manure management in China[J]. International Journal of Agricultural and Biological Engineering, 2017, 10(3): 227-236.
[8] 郭瑞萍. 畜禽养殖废弃物资源化利用技术发展[J]. 农业与技术,2018,38(8):101,103.
[9] 贺健,周秀英,侯桂芝,等. 热喷技术与饲料资源开发[J]. 畜牧与饲料科学,2010,31(6-7):362-365.
[10] 查湘义. 畜禽养殖废弃物资源化利用分析[J]. 乡村科技,2018(2):110-111.
[11] 秦翠兰,王磊元,刘飞,等. 畜禽粪便生物质资源利用的现状与展望[J]. 农机化研究,2015(6):234-238.
[12] Zarebska A, Romero Nieto D, Christensen K V, et al.Ammonium fertilizers production from manure: A critical review[J]. Critical Reviews in Environmental Science and Technology, 2015, 45(14): 1469-1521.
[13] Chen M, Xu P, Zeng G, et al.Bioremediation of soils contaminated with polycyclic aromatic hydrocarbons, petroleum, pesticides, chlorophenols and heavy metals by composting: Applications, microbes and future research needs[J]. Biotechnology Advances, 2015, 33(6): 745-755.
[14] Chen Z, Wang Y, Wen Q.Effects of chlortetracycline on the fate of multi-antibiotic resistance genes and the microbial community during swine manure composting[J]. Environmental Pollution, 2018.237: 977-987.
[15] 徐盛洪,程全国. 蚯蚓堆资源化处理畜禽粪便[J]. 沈阳大学学报(自然科学版),2017,29(3):201-205.
[16] 王润之,张振岚,郗正林,等. 蚯蚓养殖技术在畜禽粪污处理中的应用[J]. 养殖与饲料,2017(3):29-31.
[17] Sangwan P, Kaushik C R, Garg V K.Vermicomposting of sugar industry waste (press mud) mixed with cow dung employing an epigeic earthworm Eisenia fetida[J]. Waste Management Research, 2010, 28(1): 71-75.
[18] Viaene J, Nelissen V, Reubens B, et al.Improving the product stability and fertilizer value of cattle slurry solid fraction through co-composting or co-ensiling[J]. Waste Management, 2017, 61: 494-505.
[19] Massé D I, Croteau F, Masse L.The fate of crop nutrients during digestion of swine manure in psychrophilic anaerobic sequencing batch reactors[J]. Bioresource Technology, 2007, 98(15): 2819-2823.
[20] Azevedo A D, Fornasier F, Szarblewski M D S, et al. Life cycle assessment of bioethanol production from cattle manure[J]. Journal of Cleaner Production, 2017.162: 1021-1030.
[21] Jeong Y W, Choi S K, Choi Y S, et al.Production of biocrude-oil from swine manure by fast pyrolysis and analysis of its characteristics[J]. Renewable Energy, 2015, 79: 14-19.
[22] Kbc A, Pgh A, Mu B, et al.Impact of pyrolysis temperature and manure source on physicochemical characteristics of biochar[J]. Bioresource technology, 2012, 107: 419-428.
[23] Burra K G, Hussein M S, Amano R S, et al.Syngas evolutionary behavior during chicken manure pyrolysis and air gasification[J]. Applied Energy, 2016, 181: 408-415.
[24] Zong L,Carroll Z S, Long S C, et al.Centrifuge separation effect on bacterial indicator reduction in dairy manure[J]. Journal of Environmental Management, 2017, 191: 268-274.
[25] Christensen M L, Christensen K V, Sommer S G.Solid-Liquid separation of animal slurry[M]. Animal Manure Recycling:Treatment and Management. John Wiley & Sons Ltd, 2013.
[26] Hjorth M, Christensen K V, Christensen M L, et al.Solid-liquid separation of animal slurry in theory and practice. A review[J]. Agronomy for Sustainable Development, 2010, 30(1): 153-180.
[27] Rattanadecho P, Makul N.Microwave-assisted drying: A review of the state-of-the-art[J]. Drying Technology, 2016, 34(1): 1-38.
[28] Kenge A A, Liao P H, kwang V L O. Treating solid dairy manure using microwave-enhanced advanced oxidation process[J]. Journal of Environmental Science and Health, Part B, 2009, 44(6): 606-612.
[29] Jiali G, Lei Z, Zifu L.Preliminary test of a newly developed pilot-scale movable microwave drying equipment for the treatment of solid organic waste[J]. Process Safety and Environmental Protection, 2021, 148: 903-907.
[30] Xin Z, Hongjian L, Bo H.The effects of electrocoagulation on phosphorus removal and particle settling capability in swine manure[J]. Separation & Purification Technology, 2018, 200: 112-119.
[31] Nozad M, Khojastehpour M, Tabasizadeh M, et al.Characterization of hot-air drying and infrared drying of spearmint (Mentha spicata L.) leaves[J]. Journal of Food Measurement and Characterization, 2016, 10(3): 466-473.
[32] Chen Z, Guo X, Wu T.A novel dehydration technique for carrot slices implementing ultrasound and vacuum drying methods[J]. Ultrasonics Sonochemistry, 2016, 30: 28-34.
[33] Jing Y, Yun L, Zhang H, et al.Effects of adding bulking agents on the biodrying of kitchen waste and the odor emissions produced[J]. Journal of Environmental Sciences, 2017, 67(5): 344-355.
[34] Giorgia C, Maibritt H, Agata Z,et al.Effect of acidification on solid-liquid separation of pig slurry[J]. Biosystems Engineering, 2016, 143: 20-27.
[35] Guo J, Ma J.Bioflocculant from pre-treated sludge and its applications in sludge dewatering and swine wastewater pretreatment[J]. Bioresource Technology, 2015, 196: 736-740.
[36] Jewell W J, Dondero N C, van Soest P J, et al. Final report for the Cooperative State Research Service[M]. USDA Foreign Agricultural Service, 1984.
[37] Yang B, Hao Z D, Jahng D.Advances in biodrying technologies for converting organic wastes into solid fuel[J]. Drying Technology, 2017, 35(16): 1950-1969.
[38] Antal M J, Grønli M.The art, science, and technology of charcoal production[J]. Industrial & Engineering Chemistry Research, 2003, 42(8): 1619-1640.
[39] 胡艳军,郑小艳,宁方勇. 污水污泥热解过程的能量平衡与反应热分析[J]. 动力工程学报,2013(3):399-404.
[40] Manara P, Zabaniotou A.Towards sewage sludge based biofuels via thermochemical conversion-A review[J]. Renewable and Sustainable Energy Reviews, 2012, 16(5): 2566-2582
[41] Wang Z, Chen D, Song X, et al.Study on the combined sewage sludge pyrolysis and gasification process: mass and energy balance[J]. Environmental Technology, 2012, 33(22):2481-2488.
[42] White R K, Taiganides E P.Pyrolysis of livestock manure, Livestock manure Management[A]. the Proceeding of 2nd International Symposium on Livestock manure[C]. St Joseph, MI: ASAE, 1971.
[43] Appleford J M, Zhang Y, Christianson L, et al.Thermochemical conversion of animal and human wastes: A review[A]. Livestock Environment VII, Beijing, China[C]. American Society of Agricultural and Biological Engineers, 2005.
[44] Sanchita M, Binoy S, Nanthi B, et al . Enhancement of chromate reduction in soils by surface modified biochar[J]. Journal of Environmental Management, 2016, 186(2): 277-284.
[45] Gascó G, Paz-Ferreiro J, Cely P, et al.Influence of pig manure and its biochar on soil CO2 emissions and soil enzymes[J]. Ecological Engineering, 2016, 95: 19-24.
[46] 尚斌. 畜禽粪便热解特性试验研究:[硕士论文][D]. 北京:中国农业科学院,2007.
[47] 涂德浴. 畜禽粪便热解机理和气化研究:[硕士论文][D]. 南京:南京农业大学,2007.
[48] 简秀梅,蒋恩臣,陈伟杰. 畜禽粪便炭应用于土壤修复的研究进展[J]. 可再生能源,2014(4):512-518.
[49] 辛娅. 牛粪热解特性与水蒸气气化制取富氢气体的研究:[博士论文][D]. 武汉:华中农业大学,2017.
[50] 刘凯. 干馏和水蒸气气化2种模式下牛粪热解产物特性研究:[硕士论文][D]. 华中农业大学,2017.
[51] Matsuoka K,Shinbori T, Kuramoto K, et al.Mechanism of Woody Biomass Pyrolysis and Gasification in a Fluidized Bed of Porous Alumina Particles[J]. Energy and Fuels, 2006, 20(3): 4811-4818.
[52] Zhao X, Li Z, Jiang Y, et al.Research Advances on Application Status and Non-Thermal Efficiency of Microwave Pyrolysis[J]. Advanced Materials Research, 2013, 813: 489-491.

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Research Progress in Resource-oriented Treatment of Livestock and Poultry Manure

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