垃圾堆放发酵机理与应用工艺研究

对垃圾的发酵机理进行了实验研究,对渗沥液的析出量及其酸碱度、堆酵后垃圾热值的变化以及堆内温度的变化进行了观测,并对堆酵过程的机理进行了初步分析,给出了垃圾堆酵应用工艺的建议.     

典型生活垃圾填埋场堆体安全监测及堆高稳定性分析

为了解生活垃圾填埋场堆体堆高稳定性变化,以南方某典型生活垃圾卫生填埋场为研究对象,开展为期1年的堆体安全监测。通过布设渗沥液水位、堆体表面位移和深层侧向位移等在线监测设备,获取连续稳定的堆体安全特征数据。并使用GeoStudio软件分析填埋高度和渗沥液水位对边坡稳定性的影响。结果表明,填埋场滞水位埋深摆动幅度为0～4 m,主水位降低幅度为1～2 m,渗沥液水位高度、表面位移速率受降雨量和填埋作业影响较为明显;填埋初期,堆体持续向外滑移,日均滑移速率在1～8 mm·d^-1;堆体作业区域由于堆体厚度大、堆填速率快,其深层侧向位移速率大于两侧边坡区域,雨季滑移速率大于旱季,1年内表层累计水平位移可达到950 mm。渗沥液水位对填埋堆体稳定性有较大影响,随着渗沥液水位的下降,堆体安全系数逐渐增大,填埋场警戒水位埋深可设为5.0 m。本研究结果可为垃圾填埋场的堆体安全稳定控制提供参考。     

餐厨垃圾自然升温堆肥工艺研究

为研究餐厨垃圾发酵生产有机肥的可行性,优化堆肥发酵工艺,对堆体C/N、辅料、翻堆频率、粒径和pH值等可变因素进行了堆肥研究,结果表明,餐厨垃圾堆肥发酵的最佳条件为:C/N 20～27,以粒径<5 mm的稻草为辅料,含水率(65±5)%,翻堆频率1次/d(以保持堆体温度不超过70℃),一个堆肥周期内翻堆15～20次,堆肥周期为20 d左右。产品理化指标检测符合有机肥料标准(NY525-2002),且堆肥工艺重复性好,生产成本低,具有较高的应用价值。     

不同质量比的膨松剂对家庭生物有机垃圾堆肥的影响

为解决家庭生物有机垃圾堆肥反应中含水率高、含有机质多等问题,选择秸秆作为膨松剂对家庭生物有机垃圾进行堆肥处理,重点研究添加不同质量比的膨松剂对堆肥反应中堆体温度、含水率、有机质、pH、电导率及堆料质量减少率等评估堆肥质量参数变化的影响.结果表明,添加质量分数为5%、10%及20%的膨松剂的堆肥反应在第2天堆体温度超过55℃,并持续3 d以上,而添加质量分数为30%的膨松剂堆肥由于其含水率较低(约55%)在整个堆肥反应中堆体温度都低于55℃;堆肥1周内,有机质及含水率下降显著;添加20%膨松剂堆肥的堆料质量减少率最为明显,达39.6%;堆肥反应中,pH在5.5～8.5,在腐熟期pH趋于稳定,呈弱碱性;电导率随堆肥进行呈上升趋势,4种不同质量比膨松剂堆肥产品的电导率均位于1.88～1.96 mS/cm,可以安全使用.     

铁促电解去除高浊度老龄垃圾渗滤液COD的机理

铁促电解是去除水中有机污染物的新型方法,采用箱式电化学反应器研究了该法去除填埋场高浊度老龄垃圾渗滤液COD的机理.实验结果表明：用浊度衡量老龄垃圾渗滤液非溶解态有机物的含量是合理的;垃圾渗滤液中非溶解态有机物对铁促电解去除COD的效率有显著影响.铁促电解对高浊度垃圾渗滤液COD的去除存在三种机理,即电化学氧化、电解气浮和絮凝沉淀.随着水质与实验参数的变化,三种机理对COD总去除率的贡献亦发生变化;对比了Fe^2＋与Fe^3＋促进COD去除的效果,提出了一种铁离子循环电解处理老龄垃圾渗滤液的新工艺.     

水葫芦与厨余垃圾混合好氧堆肥中氮素变化及对腐熟度的影响

通过采用间歇式好氧动态堆肥工艺,对厨余垃圾与添加水葫芦的厨余垃圾进行堆肥实验,探讨堆肥进程中全氮、氨基酸态氮、蛋白质的变化及对腐熟度的影响。结果表明,全氮含量在堆肥后期有所提高,分别由1.76%和2.23%提高到3.64%和2.67%;氨基酸态氮含量与微生物活性显著负相关;添加水葫芦使堆体温度提高,促进了蛋白质的快速降解;堆肥中N素是影响种子发芽的主要因素;添加水葫芦能够促进堆肥的腐熟。     

生活垃圾堆肥工艺条件及其反应动力学研究

为了改善堆肥微环境 ,提高生活垃圾堆肥速率 ,研究堆肥工艺条件及其反应动力学是非常必要的。通过控制堆肥工艺条件 ,如初始温度、含水率、C/N比及堆料颗粒大小 ,研究生活垃圾堆肥过程中生物、化学及物理因素的变化。试验结果表明 ,生活垃圾堆肥反应符合一级反应动力学 ;合理控制堆肥初始反应条件 ,能明显提高堆肥效率。     

大型垃圾填埋场垃圾稳定化研究

本文对大型垃圾填埋场内不同填埋时间垃圾四个组分 (总糖、有机质、生物可降解物和粗纤维 )含量进行了分析 ,并对各指标随填埋时间的变化趋势进行了讨论。结果表明 :在试验场封场后不久 ,垃圾取样均匀性不能保证 ,各指标随时间变化波动很大 ;封场 71 8d后 ,各指标随时间变化呈现一定的规律性 ,垃圾的生物可降解物含量变化能较好地反映垃圾的降解规律。     

生活垃圾堆肥工艺条件及其反应动力学研究

为了改善堆肥微环境，提高生活垃圾堆肥速率，研究堆肥工艺条件及其反应动力学是非常必要的。通过控制堆肥工艺条件，如初始温度、含水率、C／N比及堆料颗粒大小，研究生活垃圾堆肥过程中生物、化学及物理因素的变化。试验结果表明，生活垃圾堆肥反应符合一级反应动力学；合理控制堆肥初始反应条件，能明显提高堆肥效率。     

大型垃圾填埋场垃圾稳定化研究

本文对大型垃圾填埋场内不同填埋时间垃圾四个组分（总糖、有机质、生物可降解物和粗纤维）含量进行了分析,并对各指标随填埋时间的变化趋势进行了讨论。结果表明：在试验场封场后不久,垃圾取样均匀性不能保证,各指标随时间变化波动很大;封场718d后,各指标随时间变化呈现一定的规律性,垃圾的生物可降解物含量变化能较好地反映垃圾的降解规律。     

城市垃圾预处理改善焚烧特性的探讨

针对目前我国城市垃圾的高水分、低热值的特性,提出了2种改善城市垃圾焚烧特性的有效措施:生物质垃圾源分类和生物干燥.在我国建立生物质垃圾源分类体系,将生物质垃圾源头分类后,剩余垃圾的热值可以提高约50%～120%,已适合直接入炉焚烧,同时分离出来的生物质垃圾也更易于好氧堆肥或厌氧消化.另外一项技术措施是在焚烧前利用生物干燥技术,降低城市垃圾的水分含量,提高入炉垃圾的热值,这种方法主要是利用生物反应热来干燥城市生活垃圾,只需要在垃圾投入焚烧炉前增加一个预处理步骤,不必改变目前的垃圾收运体系,而且进行生物干燥后的垃圾更易于分选其中的可回收物质.     

垃圾焚烧炉炉膛温度的影响因素

垃圾焚烧过程的不稳定会导致大量有害物质的生成,为确保垃圾的清洁燃烧需要将炉膛温度控制在850℃以上,为此测试了焚烧炉运行的主要可控参数对炉膛温度的影响。结果表明,垃圾堆放位置在垃圾池深3～8 m处,并经过6 d以上发酵脱水后适合焚烧;炉膛温度随给料量、一次风率和一次风温增加而增大,随过量空气系数增加而降低,其中给料量宜控制在95%～110%之间;当过量空气系数为1.6、一次风率为90%、一次风温为260℃、给料量为100%时炉膛温度达901℃。     

季节性城市生活垃圾成分分析及厌氧消化特性研究

城市生活垃圾的成分及特性随着季节和人类在不同季节的生活习惯而变化,针对我国北方城市研究了一年中不同季节的城市生活垃圾成分特点,对影响厌氧发酵过程的相关成分如总有机碳（TOC）、总氮（TN）、蛋白质、脂肪和还原糖等进行了测定分析。通过厌氧消化实验,测得不同季节城市生活垃圾pH值、日产气量、沼气甲烷含量、甲烷累积量、挥发性脂肪酸（VFAs）和氧化还原电位（ORP）等参数的变化规律,分析相应变化的影响因素。结果表明,二、三季度的含水率分别为64．81％和67．50％,高于一、四季度,一季度发酵原料中蛋白质和脂肪含量分别为12．56％和8．86％,明显高于其他3个季度。一季度甲烷累积量最高,达到17616mL,单位发酵原料的产气量为204．8mL／g,也是4个季度中最高的,说明蛋白质、脂肪等有机成分含量对厌氧发酵过程及结果影响比较明显。为进一步的城市生活垃圾厌氧消化制取生物燃气的工艺条件提供依据。     

Municipal solid waste characteristics and management in China

The purpose of this investigation is to evaluate the current status and identify the problems of municipal solid waste (MSW) management in China in order to determine appropriate remedial strategies. This is the first of two papers, discussing primarily the general characteristics of MSW and its management in China. The second paper focuses on specific remedial strategies. MSW generation in China has increased rapidly in the past 20 years from 31.3 million tons in 1980 to 113.0 million tons in 1998. The annual rate of increase is 3-10%. The average generation per capita is 1.0 kg/day (0.38 t/year). Nearly one-half of the waste generated is dumped in the suburbs, where the accumulated quantity has reached 6 billion tons, which has caused heavy environmental pollution. This paper provides information on MSW management in China, such as MSW generation and its physical, chemical, and biological properties. Low calorific value and high moisture content characterize China's municipal waste. Other issues related to MSW management in China are also discussed, including the factors that influence MSW generation quantity and     

Municipal Solid Waste Characteristics and Management in China

ABSTRACT

The purpose of this investigation is to evaluate the current status and identify the problems of municipal solid waste (MSW) management in China in order to determine appropriate remedial strategies. This is the first of two papers, discussing primarily the general characteristics of MSW and its management in China. The second paper focuses on specific remedial strategies. MSW generation in China has increased rapidly in the past 20 years from 31.3 million tons in 1980 to 113.0 million tons in 1998. The annual rate of increase is 3–10%. The average generation per capita is 1.0 kg/day (0.38 t/year). Nearly one-half of the waste generated is dumped in the suburbs, where the accumulated quantity has reached 6 billion tons, which has caused heavy environmental pollution. This paper provides information on MSW management in China, such as MSW generation and its physical, chemical, and biological properties. Low calorific value and high moisture content characterize China's municipal waste. Other issues related to MSW management in China are also discussed, including the factors that influence MSW generation quantity and quality, MSW collection, transfer and transport, treatment and disposal, material recovery, legislation, enforcement, and administration.     

Classification and comparison of municipal solid waste based on thermochemical characteristics

Municipal solid waste (MSW) has been normally sorted into six categories, namely, food residue, wood waste, paper, textiles, plastics, and rubber. In each category, materials could be classified further into subgroups. Based on proximate and ultimate analysis and heating value, statistical methods such as analysis of variance (ANOVA) and cluster analysis were applied to analyze the characteristics of MSW in every subgroup and to try to distinguish their relative properties. The chemical characteristics analysis of MSW showed that polyethylene (PE), polypropylene (PP), and polystyrene (PS) had the highest volatile matter content, with almost no ash and fixed carbon, while polyethylene terephthalate (PET) had high carbon content but low hydrogen content. Bones and vegetables had the highest ash content, while nutshells and rubber had the highest fixed carbon content. Paper and starch food had the highest oxygen content, and wool and bones had the highest nitrogen and sulfur content. Polyvinyl chloride (PVC) had the highest chlorine content at about 55%. PE, PP, and PS had the highest heating value, followed by chemical products such as rubber and chemical fiber. Conversely, paper, vegetables and bones had the lowest heating value. The results of cluster analysis of MSW components showed that fruit peel, weeds, wood, bamboo, leaves and nutshells could be classified as the lignocellulose category; starch food, cotton, toilet paper, printing paper and cardboard could be classified as the glucose monomer category; wood and chemical fiber could be classified as the high nitrogen and sulfur category; and PE, PP, and PS could be cluster as the polyolefin category.

Implications: The yield of municipal solid waste (MSW) is constantly increasing and waste to energy (WTE) has been used extensively all over the world. During the processes of incineration, pyrolysis, or gasification, the impact of physical and chemical properties of MSW is of great significance. However, the traditional classification of MSW is too general to provide more detailed information in many investigations. It is necessary to perform the investigation of characteristics of combustible MSW to distinguish different categories of MSW and find out their subclassification.     

北京市朝阳区城市生活垃圾组分分布特性研究

针对垃圾焚烧的需要,按垃圾组分低位热值重新进行了垃圾分类,检验了各组分的正态分布特性,得出了服从正态分布的垃圾组分的概率分布密度函数。进行了垃圾含水率的线性相关性分析,认为垃圾含水率与厨余的相关性最大,降水量对含水率影响不大。     

西南地区某已封场非规范垃圾填埋场垃圾稳定化进程分析

以重庆某非规范填埋场为例,针对西南地区已封场非规范垃圾填埋场的稳定化进程进行了分析。按照场地布局选取4个采样点,在垃圾体上进行钻孔取样,分析不同深度的垃圾样pH值、有机质、含水率、生物可降解度以及垃圾样浸出液和填埋气组成以及各个指标随着填埋深度的变化规律,确定不同深度垃圾体的稳定化程度。结果表明,场内垃圾已呈现矿化垃圾特征;有机质、BDM、浸出液COD以及填埋气CH4含量等4个指标与填埋深度均较好地符合一级降解反应,可以预测垃圾体稳定化临界填埋深度。根据有机质、BDM、浸出液COD以及填埋气CH4含量等4个指标与填埋深度一级降解反应函数预测临界稳定化深度为15 m,与实测值判定的稳定化填埋深度相一致性。在对非规范垃圾填埋场场地利用过程中,需要先对未稳定的上层垃圾进行清理,并在已稳定的底层垃圾体上充填其他稳定介质后利用该地块。     

Optimization for municipal solid waste treatment based on energy consumption and contaminant emission

This paper analyzes the characterization of energy consumption and contaminant emissions from a municipal solid waste (MSW) treatment system that comprises transfer station, landfill site, combustion plant, composting plant, dejecta treatment station, and an integrated MSW treatment plant. The consumed energy and energy medium materials were integrated under comprehensive energy consumption (CEC) for comparison. Among typical MSW disposal methods such as combustion, composting, and landfilling, landfilling has the minimum CEC value. Installing an integrated treatment plant is the recommended MSW management method because of its lower CEC. Furthermore, this method is used to ensure process centralization. In landfill sites, a positive linear correlation was observed between the CEC and contaminant removal ratios when emitted pollutants have a certain weight coefficient. The process should utilize the minimum CEC value of 5.3702 kgce/t MSW and consider energy consumption, energy recovery, MSW components, and the equivalent of carbon dioxide emissions.     

长江流域水电站施工区生活垃圾特性及处理处置决策模型研究

随着中国长江流域水电开发进入高峰期,大量的建设人员进入水电站施工营地,导致施工区的生活垃圾处理处置问题日益凸显。通过对金沙江HPS1水电站、雅砻江HPS2水电站和HPS3水电站、大渡河HPS4水电站施工区生活垃圾状况的调查表明,水电站施工生活区生活垃圾人均产量平均值约为0.68kg/d;以厨余、渣土、纸类塑料和橡胶为主,电池等危险废物含量甚微;容重、低位热值、生物可降解物质量分数的平均值分别为358kg/m3、5 234kJ/kg、43.22%。结合施工区所处的环境条件和周围的市政设施现状,采用层次分析法和最小成本法,构建了长江流域水电站施工区生活垃圾处理处置决策模型,可为大型水电站开发过程中施工区生活垃圾全过程管理提供指导。根据决策模型计算得出,HPS1、HPS2、HPS4水电站施工区生活垃圾最优处理处置技术为卫生填埋,HPS3水电站以外运综合处理最优。