Jeong Yeon-Koo, Hwang Sun-Jin
School of Civil and Environmental Engineering, Kumoh National Institute of Technology, 188 Shinpyung-dong, Gumi, Gyungbuk 730-701, Korea.
Bioresour Technol. 2005 Jan;96(1):1-6. doi: 10.1016/j.biortech.2004.05.028.
It was previously reported that struvite crystals could be formed in the aerobic composting reaction provided that Mg and P salts are added [Bioresource Technology 79 (2001) 129]. The formation of struvite crystals significantly reduced gaseous loss of ammonia and resulted in substantial increase in the ammonia content in the compost, attaining 1.5%. In this context, the present study was conducted to determine the optimal doses of Mg and P salts for struvite crystallization. It was found that cumulative ammonia production was about 33-36% of the initial total nitrogen in the aerobic composting reaction, irrespective of the amounts of Mg and P salts added. The theoretical doses for complete conversion of ammonia into struvite crystals seemed to be about 33-36% of the initial nitrogen. The addition of Mg and P salts at this level, however, caused adverse effects on the degradation of organic materials. Therefore, it was concluded that the optimal doses of Mg and P salts should be about 20% of the initial nitrogen in the compost mixture not to cause any harmful effects on the composting reaction.
先前有报道称,只要添加镁盐和磷酸盐,在好氧堆肥反应中就可以形成鸟粪石晶体[《生物资源技术》79 (2001) 129]。鸟粪石晶体的形成显著减少了氨的气态损失,并导致堆肥中氨含量大幅增加,达到了1.5%。在此背景下,开展了本研究以确定用于鸟粪石结晶的镁盐和磷酸盐的最佳剂量。结果发现,在好氧堆肥反应中,无论添加的镁盐和磷酸盐的量如何,累积氨产量约为初始总氮的33%-36%。氨完全转化为鸟粪石晶体的理论剂量似乎约为初始氮的33%-36%。然而,在此水平添加镁盐和磷酸盐会对有机物质的降解产生不利影响。因此,得出的结论是,镁盐和磷酸盐的最佳剂量应为堆肥混合物中初始氮的约20%,以免对堆肥反应造成任何有害影响。