在一项模型研究中,奶牛粪便养分回收减少了温室气体排放和运输成本

IF 2.1 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Frontiers in animal science Pub Date : 2023-06-28 DOI:10.3389/fanim.2023.1134817
Xiaoyu Feng, Ward N. Smith, A. VanderZaag
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引用次数: 0

摘要

将粪便或消化物分离成具有不同固体和营养成分的部分的技术为减少粪便储存排放(通过减少厌氧储存的碳量)和改善营养分配(通过减少随营养物质运输的水量)提供了有趣的选择。在本研究中,采用dairy - crop - syst奶牛场模型来模拟加拿大一个案例研究农场的甲烷(CH4)、氧化亚氮(N2O)和氨(NH3)的储存排放,并模拟养分分布。该农场采用了几种粪便处理方式,包括:厌氧消化(AD)、固液分离(SLS)和养分回收(NR)。将上述技术组合进行了模拟,即,与AD+SLS相比,只有AD的基线产生单一(未分离)废水,AD+SLS+NR产生两个单独的馏分。采用AD+SLS+NR,处理系统分离出了N和P浓度较高的固体部分和营养成分较少的液体部分。与基线系统相比,添加固液分离和营养物回收(即SLS+NR)使室外液体消化池储存的CH4排放量减少了87%,而储存固体部分产生的N2O和NH3排放量增加只抵消了一小部分。模拟固体部分被输送到距离牛棚至少30公里的场地,而液体部分则通过拖绳输送到牛棚附近的场地。先进的养分分离系统大大降低了肥料养分的运输成本,并使氮和磷能够运输到更远的距离。
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Dairy manure nutrient recovery reduces greenhouse gas emissions and transportation cost in a modeling study
Technologies that separate manure or digestate into fractions with different solids and nutrient contents present interesting options to mitigate manure storage emissions (by reducing the quantity of carbon stored anaerobically) and to improve nutrient distribution (by reducing the quantity of water transported with nutrients). In this study, the dairy farm model, DairyCrop-Syst, was used to simulate storage emissions of methane (CH4), nitrous oxide (N2O), and ammonia (NH3), and to simulate nutrient distribution for a case-study farm in Canada. The farm used several types of manure processing, including: anaerobic digestion (AD), solid-liquid separation (SLS), and nutrient recovery (NR). Simulations were done with combinations of the above technologies, i.e., a baseline with only AD that produced a single (unseparated) effluent, compared to AD+SLS, and AD+SLS+NR that produced two separate fractions. With AD+SLS+NR, the processing system isolated a solid fraction with a high concentration of N and P, and a liquid fraction containing less nutrients. Compared to the baseline system, the addition of solid liquid separation and nutrient recovery (i.e. SLS+NR) reduced CH4 emissions from outdoor liquid digestate storage by 87%, with only a small offset from higher N2O and NH3 emissions from storing the solid fraction. The solid fraction was simulated to be transported to fields at least 30 km away from the dairy barns, while the liquid fraction was transported by dragline to fields adjacent to the barn. The advanced nutrient separation system resulted in much lower transport costs for manure nutrients and the ability to transport N and P to greater distances.
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CiteScore
2.30
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审稿时长
13 weeks
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