厌氧消化和电化学氧化联合处理奶牛粪便的氮和能量平衡

I. Ihara, K. Toyoda, Tsuneo Watanabe, K. Umetsu
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引用次数: 3

摘要

研究了厌氧消化和电化学氧化对奶牛粪便中碳的回收和氮的降解潜力;我们还评估了这种组合处理的能量平衡。厌氧消化是一种可持续的技术,可以回收生物质能源和处理动物粪便进行碳循环利用。由于厌氧消化过程的反硝化效果较差,几乎所有含氮物质都以氨的形式在消化出水中排放。采用非牺牲阳极电化学氧化法降解厌氧消化出水中的铵态氮。电化学氧化需要输入电能。我们评估了利用一个大型沼气厂产生的电力的可行性,该沼气厂从奶牛粪便中生产沼气,用于厌氧消化出水中铵态氮的电化学氧化。将该工厂的发电量数据与电化学氧化过程的电量需求数据进行比较,以确定这两个过程的能量平衡。结果表明,沼气厂产生的电力能够提供电化学氧化所需电力的24%至33%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nitrogen and energy balances of a combined anaerobic digestion and electrochemical oxidation process for dairy manure management
Anaerobic digestion and electrochemical oxidation were investigated for their potential to recycle carbon and degrade nitrogen from dairy manure; the energy balance of this combination of treatments was also evaluated. Anaerobic digestion is a sustainable technology that allows recovery of biomass energy and treatment of animal wastes for carbon recycling. Since the anaerobic digestion process performs denitrification poorly, almost all nitrogenous substances are discharged in digested effluent as ammonia. The ammonium nitrogen in anaerobically digested effluent is degraded by electrochemical oxidation with an unsacrificial anode. The electrochemical oxidation requires inputs of electricity. We evaluated the feasibility of using electricity generated by a full-scale biogas plant, producing biogas from dairy manure, for the electrochemical oxidation of ammonium nitrogen in anaerobically digested effluent. Data on the amount of electricity generated by such a plant were compared with data on the electricity requirements of the electrochemical oxidation process to determine the energy balance of the two processes. The results indicated that electricity generated from a biogas plant was able to supply 24 to 33% of the electricity required for the electrochemical oxidation.
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