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畜禽养殖粪水酸化贮存及氮素减损增效研究进展
引用本文:张冬丽, 张朋月, 沈玉君, 丁京涛. 畜禽养殖粪水酸化贮存及氮素减损增效研究进展[J]. 农业工程学报, 2023, 39(8): 12-19. DOI: 10.11975/j.issn.1002-6819.202211070
作者姓名:张冬丽  张朋月  沈玉君  丁京涛
作者单位:1.农业农村部规划设计研究院 农村能源与环保研究所,北京 100121;2.农业农村部资源循环利用技术与模式综合性重点实验室,北京 100121
基金项目:农业农村部规划设计研究院自主研发项目:废弃物肥料化利用创新团队(CXTD-2021-11);青年拔尖人才支持计划(SQ2022QB00354);典型畜禽养殖场不同类型粪水资源价值与安全性综合评估技术(21327304D)
摘    要:畜禽粪水酸化贮存能够有效调控粪水贮存中微生物、环境与氮素间的作用关系,实现粪水氮素的减损增效,是一种具有广泛应用前景的关键技术。该研究系统综述了粪水酸化贮存中氮素的迁移转化机理,比较评价了常见酸化剂和不同酸化贮存工艺的应用效果,分析了酸化贮存技术对粪水氮素减损增效的影响。梳理总结得到:粪水酸化存储中氮素的迁移转化机制主要包括有机氮矿化、铵态氮固持、无机氮转化的抑制及硝化3个关键环节,可以依靠改变微生物作用和化学平衡状态实现氮素的减损;与其他酸化工艺相比,长期酸化工艺具有酸化效果更加稳定、应用范围较为广泛等优势;粪水酸化技术能够大幅降低NH3排放,以及部分N2O的排放,进而提高粪肥还田后土壤肥效,但不合理的酸化贮存技术及施用方式也会降低粪水肥效,甚至引起二次污染;未来应重点从氮素迁移转化路径的定量分析、复合酸化剂的开发、粪肥施用效果及风险的评估应对等方面进行深入研究。

关 键 词:  肥效  畜禽粪水  氮素减损
收稿时间:2022-11-05
修稿时间:2022-03-30

Progress in the mechanism for the promotion of nitrogen loss reduction during the acidification storage of animal slurry
ZHANG Dongli, ZHANG Penyue, SHEN Yujun, DING Jingtao. Progress in the mechanism for the promotion of nitrogen loss reduction during the acidification storage of animal slurry[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2023, 39(8): 12-19. DOI: 10.11975/j.issn.1002-6819.202211070
Authors:ZHANG Dongli  ZHANG Penyue  SHEN Yujun  DING Jingtao
Affiliation:1.Institute of Energy and Environmental Protection, Academy of Agricultural Planning and Engineering, Ministry of Agriculture and Rural Affairs, Beijing 100125, China;2.Key Laboratory of Technologies and Models for Cyclic Utilization from Agricultural Resources, Ministry of Agriculture and Rural Affairs, Beijing 100125, China
Abstract:Abstract: Acidification storage of animal slurry is one of the key technologies to effectively regulate the relationship between microorganisms, environment, and nitrogen for the high reduction of nitrogen loss and efficiency in animal slurry. This review aims to systematically investigate the nitrogen migration and transformation during the acidified storage of animal slurry in recent years. Three acidifiers were used, including the strong acid, hydrolyzed acidic salt, and easily decomposed organic matter. Three types of acidizing storage were then selected, namely long-term, medium, and long-term acidizing in the storage pool and short-term acidizing in the application. Finally, the economic cost and application effectiveness were comparatively evaluated in this case. More importantly, a systematic analysis was performed on the reduction of nitrogen losses and enhancement of fertilizer effectiveness, according to the technical route in the acidification storage. Furthermore, future research directions were addressed to identify the shortcomings of existing technologies for the acidified storage of animal slurry. Specifically, the nitrogen migration and transformation in the acidification storage process of animal slurry were divided into organic nitrogen mineralization, ammonium nitrogen fixation, inhibition of inorganic nitrogen conversion, and nitrification. Two reasons were attributed to reducing the nitrogen loss in the acidification storage of animal slurry. The addition of acidifiers was one way to change the dynamic balance of NH4+ and NH3 by lowering the pH of animal slurry, in order to promote the formation of NH4+ while reducing the emission of dissolved NH3 in animal slurry. The microbial activity decreased with the decreasing pH and mineralization of organic matter in animal slurry, thus reducing the production and emission of NH3. The acidification storage of animal slurry reduced the NH3 emissions by 15%-77%. The degradation rate of nitrogenous organic compounds decreased with the addition of acidifiers, leading to the lower production of ammonium nitrogen. And the conversion rate of ammonium nitrogen to nitrate nitrogen was also reduced, thus further reducing the conversion of nitrate nitrogen to N2O. To sum up, the nitrogen losses were reduced to alter the microbial action and chemical equilibrium state. In addition, the long-term acidizing process presented more stable acidizing and a wider application range during the application, compared with the medium and long-term acidizing in the storage pool and the short-term acidizing. The acidification storage of animal slurry can be expected to stabilize and retain NH4+ in the animal slurry. Therefore, acidification and returning to the field can improve the content of effective nutrients (such as N and P) in the soil for the high efficiency of soil fertility. However, the low efficiency of manure fertility and the secondary pollution can also be found in the unreasonable acidification storage and application in practice. It is a high demand for the quantitative analysis of nitrogen migration and transformation pathways in the process of fecal water storage, the complex acidifiers, and the post-acidification animal slurry in agricultural fields. The assessment and response to environmental risks can be launched for the research and development of acidification storage equipment in the future.
Keywords:acids   fertilizer efficiency   animal slurry   nitrogen loss reduction
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