摘要
为了降低厨余垃圾堆肥过程中NH3和H2S恶臭气体的排放,该研究通过向堆肥物料中添加H3PO4+Mg(OH)2、Ca(H2PO4)2、FeCl3和β环糊精4种不同的氮素控制材料,同时以不添加控制材料的处理作为对照,研究控制材料添加对NH3和H2S排放的影响。结果表明控制材料的添加降低了堆肥体系的pH值,明显降低了堆肥物料的损失率;从电导率(electric conductivity)和发芽率指数(germination index)来看,5个处理的堆肥产品均达到腐熟的要求;4种控制材料的添加均不同程度减少了NH3和H2S的排放,但是减排机理不尽相同。总体来看FeCl3对NH3和H2S的控制效果最好,与对照相比,NH3和H2S的累积排放量分别降低了64.2%和52.0%。该研究结果为厨余垃圾堆肥过程中恶臭物质控制材料的筛选提供参考。
In order to reduce odor emissions such as NH3 and H2 S, this study designed experiments to investigate the effects of H3 PO4 +Mg(OH)2, Ca(H2 PO4)2, FeCl3, and β cyclodextrin on producing and releasing NH3 and H2 S during kitchen waste composting. The composting treatment without adding chemical materials was used as control. The kitchen waste consisted of 53% vegetation waste, 24% fruit wall, 19% meat, and 4% leaves. For all treatments, cornstalks as an additive using the wet weight ration of 1:5.7 were added to the kitchen waste composting. All treatments were analyzed using 60 L heat insulated composting vessels with forced aeration systems. The vessels were controlled by the C-LGX program, which enables aeration to be controlled automatically by time or inside temperature. Aeration consisted of pumping ambient air into the reactor continuously at a rate of 0.2 L/(kg·min) dry matter. The TKN and TOC were determined according to the Chinese national standard(NY 525-2002). The pH, EC, and GI were determined in water extracts(20 g of dry weight compost were extracted with 200 ml of distilled water, stirred for 1 h, and then centrifuged at 4000 rpm). pH value was measured with a pH meter, electrical conductivity(EC) was measured by a DDS-12A conductivity meter. The moisture content was determined by drying the samples at 105℃, until the weight was unvarying. Theboric acid titration method was used to determine ammonia emission. The H2 S content was analyzed daily using a portable biogas analyzer. Composting gas samples were extracted using a suction pump(built-in biogas analyzer, gas flow: 550 mL/min), and then transferred to the inlet port of the biogas analyzer via a Teflon hose that contained a filter element(2.0 μm PTFE) installed in the middle of the pipe. The measurement was taken for about 90 seconds, and the measured value of H2 S was read directly from the screen. The results showed that adding nitrogen control material reduced the pH of the composting systems, and the loss rate of the composting materials obviously decreased compared with CK. The analysis of phytotoxicity indexes of EC and GI showed that all treatments reached the compost maturity requirements. Four kinds of control materials could all decrease NH3 and H2 S emissions, but the reduction mechanism are not the same. Compared with treatment CK, the cumulative emissions of NH3 were reduced by 49.5%, 38.5%, 64.2%, and 62.7%, and the cumulative emissions of H2 S were reduced by 39.2%, 5.9%, 52.0% and 47.8% for the treatments of P+M, CaP, FC, and CD, respectively. After integrating the reduction of NH3 and H2 S emission and the phytotoxicity of compost, FeCl3 was the best nitrogen and sulfur conservation material during kitchen waste composting in this work. This study can provide a reference for the screening of odor control materials in a kitchen waste composting process.
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2013年第23期173-178,共6页
Transactions of the Chinese Society of Agricultural Engineering
基金
国家自然科学基金资助项目(41075110)
国家"十二五"科技支撑项目(2012BAD14B01
2012BAD15B01
2012BAD14B06)
关键词
堆肥
氮
垃圾
NH3
H2S
composting
nitrogen
wastes
ammonia
hydrogen sulfide