Industrial Livestock Waste: A View Angle from Treatment Methods

Date Received: 28-11-2024

Date Accepted: 14-08-2025

Date Published: 28-08-2025

##submissions.doi##: https://doi.org/10.31817/tckhnnvn.2025.23.8.10

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Issue: Vol. 23 No. 8 (2025): Tạp chí Khoa học Nông nghiệp Việt Nam

Section:

TÀI NGUYÊN VÀ MÔI TRƯỜNG

How to Cite:

Thao, N., Hoa, N., Hoang, N., Viet, H., Ha, C., & Cuong, P. (2025). Industrial Livestock Waste: A View Angle from Treatment Methods. Vietnam Journal of Agricultural Sciences, 23(8), 1080–1089. https://doi.org/10.31817/tckhnnvn.2025.23.8.10

Industrial Livestock Waste: A View Angle from Treatment Methods

Nguyen Van Thao (*) 1 , Nguyen Xuan Hoa 2 , Nguyen Tho Hoang 2 , Hoang Quoc Viet 2 , Cao Viet Ha 2 , Pham Van Cuong 3

  • Tác giả liên hệ: [email protected]
  • 1 Khoa Quản lý Đất đai, Học viện Nông nghiệp Việt Nam
  • 2 Khoa Tài nguyên và Môi trường, Học viện Nông nghiệp Việt Nam
  • 3 Khoa Nông học - Học viện Nông nghiệp Việt Nam

    • Keywords

    Industrial livestock waste, biochar, aerobic, anaerobic

    Abstract


    The experiment aimed to determine the effects of treatment conditions (aerobic, anaerobic) and seasons (Spring, Summer) on the composting process of industrial livestock waste (cow, chicken, pig). The wastes were co-composted with biochar at a ratio of 9:1 (v/v) under different conditions to analyze the changes during composting. The results showed that aerobic treatment conditions were suitable for all types of waste. The anaerobic composting method, which produced compost product with higher nutritional and organic content but carried harmful microorganisms (E. coli, Salmonella) exceeding the standard. After 30 days of composting, cow manure possessed highest organic content (46.54-47.67%) and a total NPK content of 4.04-4.43%, but C/N ratio was higher than the regulation (> 12). In contrast, chicken waste compost possessed lowest organic matter content (36.46-37.59%), but highest total NPK content (5.05-5.44%) and met the standard for C/N ratio. In addition, pig waste compost possessed an average organic matter content and lowest total NPK content value. In both Spring and Summer, chicken waste and biochar, which were treated aerobically, had NPK nutrient content, pH, C/N ratio and heavy metal content (As, Pb, Cd, Hg) meeting the organic fertilizer standards according to QCVN 01-189-2019.

    Author Biographies

    Nguyen Xuan Hoa, Khoa Tài nguyên và Môi trường, Học viện Nông nghiệp Việt Nam

    Tiến sỹ vi sinh vật, Bộ môn vi sinh vật

    Nguyen Tho Hoang, Khoa Tài nguyên và Môi trường, Học viện Nông nghiệp Việt Nam

    Kỹ thuật viên phòng thí nghiệm

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