盛婧, 孙国峰, 郑建初. 典型粪污处理模式下规模养猪场农牧结合规模配置研究Ⅰ.固液分离 液体厌氧发酵模式[J]. 中国生态农业学报(中英文), 2015, 23(2): 199-206. DOI: 10.13930/j.cnki.cjea.140968
引用本文: 盛婧, 孙国峰, 郑建初. 典型粪污处理模式下规模养猪场农牧结合规模配置研究Ⅰ.固液分离 液体厌氧发酵模式[J]. 中国生态农业学报(中英文), 2015, 23(2): 199-206. DOI: 10.13930/j.cnki.cjea.140968
SHENG Jing, SUN Guofeng, ZHENG Jianchu. Pig farm-cropland configuration under typical waste treatment modes- A case study of anaerobic liquid fermentation following solid-liquid separation of waste[J]. Chinese Journal of Eco-Agriculture, 2015, 23(2): 199-206. DOI: 10.13930/j.cnki.cjea.140968
Citation: SHENG Jing, SUN Guofeng, ZHENG Jianchu. Pig farm-cropland configuration under typical waste treatment modes- A case study of anaerobic liquid fermentation following solid-liquid separation of waste[J]. Chinese Journal of Eco-Agriculture, 2015, 23(2): 199-206. DOI: 10.13930/j.cnki.cjea.140968

典型粪污处理模式下规模养猪场农牧结合规模配置研究Ⅰ.固液分离 液体厌氧发酵模式

Pig farm-cropland configuration under typical waste treatment modes- A case study of anaerobic liquid fermentation following solid-liquid separation of waste

  • 摘要: 不同粪污处理模式下畜禽粪便的养分损失存在较大差异, 从而影响其后续地农田利用。固液分离 液体厌氧发酵模式是当前我国畜禽粪污处理的主要模式之一。研究粪污固液分离 液体厌氧发酵处理模式下规模养猪场农牧结合适宜规模配置对于减少畜禽粪便污染、促进畜牧业可持续发展具有重要意义。本研究根据猪群体结构比例、废弃物产生量及氮磷含量、废弃物处理利用过程中养分损失率以及作物氮磷钾需求量等资料, 以存栏万头猪场为例, 采用分步逐级计算的方法估算了典型粪便处理模式--固液分离 液体厌氧发酵下, 规模养猪场废弃物完全消纳的不同种植模式农田匹配面积, 并研究了基于作物养分需求的不同种植模式农田畜禽粪便承载量。结果表明: 固液分离 液体厌氧发酵粪便处理模式, 以沼液安全消纳为目标, 万头猪场需要配置的最少农田面积分别为粮油作物地12.4~13.7 hm2, 或茄果类蔬菜地14.2~17.9 hm2, 或果树苗木地16.4~51.3 hm2。以有机肥和沼液全部在农田安全消纳为目标, 万头猪场需要配置的最少农田面积分别为粮油作物地299.3~312.9 hm2, 或茄果类蔬菜地145.1~179.0 hm2, 或果树苗木地553.1~1 343.8 hm2。因此, 规模养猪场应根据猪养殖数量及其周边农田面积, 选择适宜的有机肥利用方式及种植作物类型, 因地制宜, 合理调控。

     

    Abstract: Nutrient loss during the processing of livestock and poultry manure is significantly different under different modes of manure disposal, subsequently influencing nutrient utilization in farmlands. Separation of solids from liquids before anaerobic fermentation of liquids is currently the main mode of treatment of poultry manure in China. Studies on the configurations of pig farm and croplands under solid and liquid waste disposal modes following the separation and the subsequent anaerobic fermentation of liquid manure is greatly important to reduce pollution by livestock excrement and promote sustainable development of animal husbandry. The purpose of this study was to determine the optimal farmland area needed for large-scale pig farm, and to provide the scientific basis and reference for establishing a sustainable agro-ecological mode of crops and animals. Based on the proportions of pig population and pig nitrogen and phosphorus discharge data for different types of swine, the rate of nutrient loss during waste treatment, and then nutrient demands by different crops, the areas of farmlands for waste consumption and the carrying capacities of farmlands with different planting patterns were estimated under typical anaerobic fermentation of liquids following the separation of solids from liquids of waste in a farm with 10 000 pigs. In order to avoid environmental pollution, the optimal farmland area needed for a large-scale pig farm was determined based on calculated maximum farmland areas from crop nitrogen and phosphorus requirement. The results showed that under anaerobic fermentation of liquid after solid-liquid separation of waste, the configuration of a 10000-pig farm needed an area of at least 12.4-13.7 hm2 of grain/oil cropland, 14.2-17.9 hm2 solanaceous vegetable field or 16.4-51.3 hm2 orchard/seedling field for safe disposal of biogas slurry. One hectare of grain/oil cropland, solanaceous vegetable field or orchard/seedling field was enough for the disposal of liquid waste produced respectively by 730-803 heads, 559-704 heads or 195-609 heads of pig. For entirely safe disposal of manure fertilizer and biogas slurry, a 10000-pig farm needed at least an area of 299.3-312.9 hm2 grain/oil cropland, 145.1-179.0 hm2 solanaceous vegetable field or 553.1-1 343.8 hm2 orchard/seedling field. Accordingly, one hectare of grain/oil cropland, solanaceous vegetable field and orchard/seedling field was enough for the disposal of manure fertilizer and biogas slurry produced respectively by 32-33 heads, 56-59 heads and 7-18 heads of pigs. The above results suggested that waste use patterns and crop types of ambient farmlands should be rationally determined according to breeding quantity of pig farm and its surrounding farmland area.

     

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