垃圾衍生燃料灰渣中主要元素变化的研究

以垃圾衍生燃料(RDF)为研究对象,在600~1100℃条件下灼烧RDF灰渣,对灰渣中的主要元素变化情况进行分析.研究结果表明,RDF灰渣中主要元素包括硅、氧、铝、钙、镁、钾、钠、碳、硫、氯、磷、钛、锌等;灰渣中的可溶盐倾向富集在≤0.3 mm的灰渣颗粒上;在600~1000℃范围内,其总量处于动态平衡,在1100℃则大幅度减少.随着温度的上升,碳转化为二氧化碳气体;硫元素转化为硫酸盐,随后部分再转化为二氧化硫气体;氯元素转化为以氯化钠和氯化钾为主的氯化盐,在达到一定温度时发生相变转化为气体.硅、氧、铝、钙、镁、磷等元素留存于废渣中,随着温度提高,发生复合化学反应,相互键接形成复合硅酸盐物质.     

GAC-O3/H2O2体系去除准好氧矿化垃圾床渗滤液尾水中难降解有机物的研究

为了降低准好氧矿化垃圾床渗滤液尾水中有机物浓度和提高体系可生化性,构建了GAC(粒状活性炭)-O_3/H_2O_2体系催化降解矿化垃圾床渗滤液尾水中有机物.同时,考察了体系O_3、GAC和H_2O_2投加量、初始pH值对GAC-O_3/H_2O_2体系处理渗滤液尾水的影响,并使用分子量分布、紫外-可见光谱和三维荧光光谱解析了难降解有机物在GAC-O_3/H_2O_2体系的转化机制.结果表明:在GAC投加量为10 g·L-1,O_3投加量为32.16 mg·min-1,H_2O_2投加量为3 m L·L-1,初始pH值为5的条件下,反应20 min后,其渗滤液尾水的COD和UV245分别从700.08 mg·L~(-1)和0.488下降到393.85 mg·L~(-1)和0.244,COD和UV254的去除率分别为43.80%和50.00%.经GAC-O_3/H_2O_2体系处理后,得益于含芳香环有机物的有效降解,渗滤液尾水中大分子有机物(大于50 k Da)明显减少,分子量小于1 k Da的有机物比例增多.与此同时,紫外区类富里酸荧光区及可见光区类富里酸荧光区峰值也大幅降低,其去除率分别为70.20%和58.69%,B/C从0.04增加到0.35,这也使得废水可生化性大幅提高.     

污泥在堆肥及油污土壤修复中重金属形态的研究

污泥堆肥工艺是实现污泥减量化,无害化和资源化的重要手段。文章考察了污泥在堆肥前后四类重金属(铜、锌、铅和镉)形态的变化。结果显示,铜、锌、铅和镉在堆肥前后的总量变化不大,Cu、Zn主要以有机结合态和残渣态形式存在,而Pb、Cd主要以残渣态形式存在。堆肥处理过程中可交换态重金属都呈下降趋势,但各种重金属的可交换态变化幅度不同,以Zn和Cd下降幅度最大,Zn的可交换态由堆肥前的10.5%下降到堆肥后的4.8%;Cd的可交换态从堆肥前的3.2%下降到堆肥后的1.8%,下降比例超过和接近50%。随着向土壤中添加污泥及堆肥量的增加,小麦植株地上和地下部分重金属含量也相应增加,且地下部分含量高于地上部分,小麦中重金属含量在地下部与地上部之间的比值恒定,特别是Pd,Cd的地上和地下部分浓度比可分别达到130和15～20,经堆肥处理的污泥可以降低小麦对其中重金属的吸收。将污泥及堆肥腐熟品添加至石油污染土壤中,与对照相比土壤中的石油烃含量有一定幅度的下降,最大下降幅度为19.6%。处理一个月后重金属含量及其形态变化不大,Zn具有向铁锰氧化态转化的趋势。     

居民生活垃圾及生活污水产生量的影响因素通径分析

通过构建多元通径分析模型,定量分析中国各地区人口总数、生产总值、居民消费水平和生活供水用水量对生活垃圾清运量和生活污水排放量的直接影响和间接影响。结果表明各地区的生产总值对生活垃圾清运量的直接影响最大。生活用水供水量也对生活垃圾的清运量有一定的直接影响,居民消费水平和人口总数几乎没有直接影响。人口总数对垃圾清运量的间接影响最大,居民生活用水供水量、居民消费水平、地区生产总值对于垃圾清运量都具有不同程度的间接影响。生活用水供水量对生活污水排放量影响最大,地区生产总值和居民消费水平对生活污水排放量也有一定的直接影响,而人口总数几乎没有直接影响。人口总数对生活污水排放量的间接影响最大,其次是地区生产总值、居民消费水平和生活用水供水量对污水排放量也有间接影响。     

堆肥中生物表面活性剂脂肽产生菌的筛选

从农业堆肥样品中提取出4株可将发酵液的表面张力降到40mN/m以下的菌株,对该四株菌的发酵液进行薄层层析(TLC)分析,结果表明其中3株产生的生物表面活性剂可能为脂肽。选取其中一株B2对其所产的生物表面活性物质进行提纯,经过红外光谱(FT-IR)分析,证明该产物为一环脂肽类似物。该脂肽纯品可将纯水的表面张力由72.3mN/m降到29.9mN/m,CMC值为0.139g/L。实验结果表明,堆肥过程中存在能够产生生物表面活性剂脂肽的菌种,且具有良好的表面活性。     

Microbiological parameters and maturity degree during composting of Posidonia oceanica residues mixed with vegetable wastes in semi-arid pedo-climatic condition

The aim of this study was to characterize the biological stability and maturity degree of compost during a controlled pile-composting trial of mixed vegetable residues (VR) collected from markets of Tunis City with residues of Posidonia oceanica (PoR), collected from Tunis beaches. The accumulation in beaches (as well as their removal) constitutes a serious environmental problem in all Mediterranean countries particularly in Tunisia. Aerobic-thermophilic composting is the most reasonable way to profit highly-valuable content of organic matter in these wastes for agricultural purposes. The physical, chemical, and biological parameters were monitored during composting over 150 d. The most appropriate parameters were selected to establish the maturity degree. The main result of this research was the deduction of the following maturity criterion: (a) C/N ratio < 15; (b) NH₄⁺-N < 400 mg/kg; (c) CO₂-C < 2000 mg CO₂-C/kg; (d) dehydrogenase activity < 1 mg TPF/g dry matter; (e) germination index (GI) > 80%. These five parameters, considered jointly are indicative of a high maturity degree and thus of a high-quality organic amendment which employed in a rational way, may improve soil fertility and soil quality. The mature compost was relatively rich in N (13.0 g/kg), P (4.74 g/kg) and MgO (15.80 g/kg). Thus composting definitively constitutes the most optimal option to exploit these wastes.     

全程高温好氧堆肥快速降解城市生活垃圾

为了提高堆肥处理城市生活垃圾（MSW）的速率和质量,设计了一种外加热源的全程高温好氧堆肥工艺.实验以全程高温好氧堆肥和传统好氧堆肥两种方法对MSW进行了60d的堆肥处理.同时,监测了堆肥的pH和温度等参数的变化情况,并以C/N、种子发芽率(GI)、可溶性有机碳(DOC)、比好氧速率(SOUR)和脱氢酶（DH-ase）活性为指标评价了堆肥的腐熟度和质量.结果表明,全程高温堆肥法和传统堆肥法的堆肥周期分别为16d和28d,两种方法得到的产品其pH值均在7左右.在第31d将全程高温堆肥产品置于30℃恒温箱时,其理化性质没有出现明显波动,说明其堆肥产品性质稳定.因此,全程高温好氧堆肥法能明显缩短堆肥周期、提高堆肥质量,具有很大的应用潜力.     

翻堆频率对厨余垃圾堆肥过程中H_2S和NH_3排放的影响

为研究厨余垃圾堆肥过程中翻堆频率对H2S和NH3排放的影响,以大类粗分后的厨余垃圾为研究对象,玉米秸秆为调理剂,设置4组翻堆频率不同的处理(每周2次,2周1次,2周1次和不翻堆)进行对比研究。结果表明:翻堆频率的变化对H2S的排放影响不大,对NH3的排放有显著的影响,翻堆频率过高会增加NH3的累积排放量,翻堆频率过低虽然能降低NH3的累积排放量,但会影响到堆肥产物的腐熟。综合厨余垃圾堆肥的无害化指标、H2S和NH3的排放以及最终堆肥产品的毒性检验,在实验条件下,翻堆频率设为每周1次在堆料腐熟的基础上对H2S和NH3减排效果最好。     

Environmental effects and risk control of antibiotic resistance genes in the organic solid waste aerobic composting system: A review

• ARGs were detected in livestock manure, sludge, food waste and fermentation dregs. • The succession of microbial community is an important factor affecting ARGs. • Horizontal transfer mechanism of ARGs during composting should be further studied. Antibiotic resistance genes (ARGs) have been diffusely detected in several kinds of organic solid waste, such as livestock manure, sludge, antibiotic fermentation residues, and food waste, thus attracting great attention. Aerobic composting, which is an effective, harmless treatment method for organic solid waste to promote recycling, has been identified to also aid in ARG reduction. However, the effect of composting in removing ARGs from organic solid waste has recently become controversial. Thus, this article summarizes and reviews the research on ARGs in relation to composting in the past 5 years. ARGs in organic solid waste could spread in different environmental media, including soil and the atmosphere, which could widen environmental risks. However, the conventional composting technology had limited effect on ARGs removal from organic solid waste. Improved composting processes, such as hyperthermophilic temperature composting, could effectively remove ARGs, and the HGT of ARGs and the microbial communities are identified as vital influencing factors. Currently, during the composting process, ARGs were mainly affected by three response pathways, (I) “Microenvironment-ARGs”; (II) “Microenvironment-microorganisms-ARGs”; (III) “Microorganisms-horizontal gene transfer-ARGs”, respectively. Response pathway II had been studied the most which was believed that microbial community was an important factor affecting ARGs. In response pathway III, mainly believed that MGEs played an important role and paid less attention to eARGs. Further research on the role and impact of eARGs in ARGs may be considered in the future. It aims to provide support for further research on environmental risk control of ARGs in organic solid waste.     

利用矿化垃圾层预防和控制渗滤液导排系统堵塞

在卫生填埋场中,垃圾渗滤液导排系统堵塞普遍存在,悬浮固体形成的物理堵塞、有机物降解和金属离子沉淀导致的生物-化学堵塞是引起导排系统堵塞的关键因素.本文构建了"矿化垃圾+砾石层导排"的渗滤液下渗装置,通过矿化垃圾预处理渗滤液中悬浮固体和有机物以控制导排系统发生的物理和生物-化学堵塞.结果表明,在矿化垃圾层,渗滤液中化学需氧量(COD)和悬浮固体(SS)去除较多,去除率分别达到了85%和87%,并且Ca²⁺浓度也出现了波动较大的现象;然而,渗滤液在砾石层下渗过程中,其COD、SS和Ca²⁺浓度保持稳定.并且,砾石层可排水孔隙率在长期运行的过程中没有明显变化,表明渗滤液在砾石导排层没有形成明显的沉淀.与此同时,在没有添加矿化垃圾的对照组发现,砾石层可排水孔隙率减少最多的区段是渗滤液的进水点位(可排水孔隙率减少达到了53%),即渗滤液有机负荷最大处的饱和砾石层堵塞最为严重,其无机堵塞物主要是碳酸钙等.因此,在渗滤液流入砾石层前,采用矿化垃圾层部分饱和的方式对渗滤液中有机物和悬浮固体进行预处理,可以预防和控制渗滤液在砾石层形成沉淀堵塞.研究为填埋场的运行管理渗滤液导排系统堵塞提供了新的思路和方法.