Research on resource utilization technologies of livestock and poultry manure in different areas

WU Wei; GUO Qia; LU Yuanzhou; HU Weijie; ZHANG Dongling; FENG Xin; LUO Xinshen

doi:10.13205/j.hjgc.202507003

Volume 43 Issue 7

Jul. 2025

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Article Navigation > ENVIRONMENTAL ENGINEERING > 2025 > 43(7): 18-26

WU Wei, GUO Qia, LU Yuanzhou, HU Weijie, ZHANG Dongling, FENG Xin, LUO Xinshen. Research on resource utilization technologies of livestock and poultry manure in different areas[J]. ENVIRONMENTAL ENGINEERING , 2025, 43(7): 18-26. doi: 10.13205/j.hjgc.202507003

Citation:

WU Wei, GUO Qia, LU Yuanzhou, HU Weijie, ZHANG Dongling, FENG Xin, LUO Xinshen. Research on resource utilization technologies of livestock and poultry manure in different areas[J]. ENVIRONMENTAL ENGINEERING , 2025, 43(7): 18-26. doi: 10.13205/j.hjgc.202507003

Citation:

WU Wei, GUO Qia, LU Yuanzhou, HU Weijie, ZHANG Dongling, FENG Xin, LUO Xinshen. Research on resource utilization technologies of livestock and poultry manure in different areas[J]. ENVIRONMENTAL ENGINEERING , 2025, 43(7): 18-26. doi: 10.13205/j.hjgc.202507003

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Research on resource utilization technologies of livestock and poultry manure in different areas

doi: 10.13205/j.hjgc.202507003

1. Shanghai Municipal Engineering Design Institute (Group) Co., Ltd., Shanghai 200092, China;
2. Shanghai National Engineering Research Center of Urban Water Resources Co., Ltd., Shanghai 200082, China;
3. Shanghai Shenergy Environmental Technology Co., Ltd., Shanghai 201100, China

Received Date: 2024-11-01
Accepted Date: 2025-01-18
Rev Recd Date: 2024-12-20

Available Online: 2025-09-11

Abstract

Abstract

The rapid development of China's livestock industry has significantly promoted the steady advancement of large-scale animal farming， effectively ensuring abundant meat protein supply for residents while generating substantial environmental pollution from accumulated livestock and poultry waste. Focusing on the standardized recycling of livestock and poultry manure and the ecological sustainability of animal husbandry， this study systematically reviews resource utilization approaches for livestock waste and analyzed regional disparities in waste management strategies and pollution control models. Core technological considerations for manure resource utilization facilities encompass multiple critical aspects： ensuring the stable operation of manure reception and pretreatment systems to maintain consistent processing efficiency； advancing the standardization and industrial-scale application of anaerobic digestion systems to enhance biogas production reliability； implementing automated precision control in aerobic composting systems to optimize organic fertilizer quality； establishing viable technical conditions for biogas utilization schemes to maximize energy recovery； and selecting context-specific wastewater treatment processes to meet varying discharge standards. By integrating the physicochemical properties of livestock manure with resource recovery technologies， this research proposes optimized technical specifications for centralized manure treatment facilities， considering the operational scales of breeding enterprises， the technical capacities of waste management entities， and site-specific conditions such as land availability and regional environmental regulations. A practical demonstration is provided through a detailed analysis of a manure resource engineering project in Jiangsu Province， which exemplifies the integration of pretreatment， anaerobic digestion， composting， and wastewater treatment modules within a unified facility. The case study highlights customized solutions addressing local breeding density， manure characteristics， and end-product market demands， showcasing reduced environmental footprints while creating economic returns through fertilizer and energy production. This work contributes to advancing standardized manure management in intensive farming operations by proposing systematic technological pathways that harmonize ecological preservation with industrial development requirements. The findings offer actionable references for achieving circular economy objectives in animal husbandry through regionally adaptable models， emphasizing the necessity of tailored approaches to address geographical variations in breeding practices， waste composition， and regulatory frameworks. By bridging technological innovation with practical implementation challenges， the study also provides a framework for policymakers and industry stakeholders to optimize waste-to-resource conversion efficiency while balancing environmental governance with the sustainable growth of China's livestock sector.
- livestock and poultry manure,
- resource utilization,
- governance strategy,
- processing system,
- process technology

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References(29)

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