School of Ecology and Environment, Anhui Normal University, Wuhu 241002, China; Anhui Engineering Laboratory of Soil and Water Pollution Control and Remediation, Wuhu 241002, China; Department of Chemical and Biochemical Engineering, Technical University of Denmark, Kgs. Lyngby DK 2800, Denmark.
Anhui Engineering Laboratory of Soil and Water Pollution Control and Remediation, Wuhu 241002, China.
Waste Manag. 2023 Aug 1;168:406-412. doi: 10.1016/j.wasman.2023.06.019. Epub 2023 Jun 22.
Storing pig slurry (PS) and returning it to the field is one of the most important ways to recycle PS. However, during the storage of PS, the NH emissions cause a large loss of nitrogen (N), which reduces the fertilizer value of stored PS and cause environmental pollution. To reduce N loss during PS storage, we added different amounts of wheat straw powder (WSP) and wheat straw segments (WSSs) to the PS. The wheat straw cover was used for biochar production, and then, the biochar was used for N adsorption from the PS. The results showed that the N loss of PS was significantly decreased by use of the wheat straw covering. The N losses in treatments of WSP covering and WSSs covering were reduced by 4.8-53.1 and 0.8-14.2 percentage points compared with that in the control, respectively. Ammonia adsorption is an important reason for the reduction in N loss by straw covering during PS storage. After covering for 180 days in storage, the NH-N content in both the WSP covering and WSSs covering increased greatly, and the cover was reused for biochar production. The biochar yield was inversely proportional to the pyrolysis temperature, and the specific surface area and pore volume of the biochar were proportional to the pyrolysis temperature. We achieved the highest amount of NH-N adsorption (1.9 mg/g) with a biochar dosage of 0.2 g/L (treatment Y-400). This study provides a new straw-covered PS storage method to achieve straw recycling and low N loss during PS storage.
储存猪粪(PS)并将其还田是 PS 循环利用的最重要途径之一。然而,在 PS 储存过程中,NH 排放会导致大量氮(N)损失,降低了储存 PS 的肥料价值并造成环境污染。为了减少 PS 储存过程中的 N 损失,我们向 PS 中添加了不同量的麦秆粉(WSP)和麦秆段(WSSs)。麦秆覆盖物用于生物炭生产,然后,生物炭用于从 PS 中吸附 N。结果表明,麦秆覆盖显著降低了 PS 的 N 损失。与对照相比,WSP 覆盖和 WSSs 覆盖处理的 N 损失分别减少了 4.8-53.1 和 0.8-14.2 个百分点。氨吸附是麦秆覆盖降低 PS 储存过程中 N 损失的重要原因。在储存 180 天后,WSP 覆盖和 WSSs 覆盖中的 NH-N 含量均大幅增加,覆盖物被重新用于生物炭生产。生物炭产率与热解温度成反比,生物炭的比表面积和孔体积与热解温度成正比。我们在 0.2 g/L 生物炭剂量(处理 Y-400)下实现了最高的 NH-N 吸附量(1.9 mg/g)。本研究提供了一种新的 PS 储存方法,可实现 PS 储存过程中稻草的回收利用和低 N 损失。
