有机质官能团及微孔特性对疏水性有机污染物吸附的影响机制

作为重要的地质吸附剂,土壤/沉积物中的有机质是环境中疏水性有机污染物主要的汇.由于有机质的结构异质性,疏水性有机污染物一旦进入其中,会被吸附在不同的位点上,反应活性和生态风险进而会发生变化.对疏水性有机污染物在有机质上的吸附进行研究有助于了解其在环境中的分布,传输及生物有效性.本文就疏水性有机污染物在土壤/沉积物中的有机质上吸附的国内外研究进展进行了综述,讨论了重要有机质组分(腐殖质和碳黑)的结构和吸附作用差异性,重点分析了有机质的微孔特性和官能团对吸附的影响机制.     

水溶性有机质对土壤吸附有机污染物的影响

在自然环境中,水溶性有机质(DOM)会对土壤吸附有机污染物产生影响.基于已有的成果,本文综合分析了DOM的有关因素对土壤吸附有机污染物的影响.研究表明,不同来源的DOM的亲疏水组分比例不同;随着腐解时间的增长,亲水组分减小,疏水组分增加.外源DOM的极性与亲疏水组分所含官能团的种类和数量、分子量均会影响有机污染物的吸附;DOM的临界值浓度与土壤有机质含量负相关.当DOM浓度大于临界值时抑制吸附,反之促进吸附.DOM具有酸碱缓冲作用,影响土壤溶液的pH,进而影响对有机污染物的吸附.由于土壤内源DOM对有机污染物具有增溶作用,会抑制土壤吸附有机污染物.论文最后对今后的相关研究方向提出了建议.     

土壤有机质对宁夏农业综合开发活动的响应

为深入分析宁夏农业综合开发活动对土壤有机质的影响,认识其对气候变化的适应意义,分别于北部平原灌区、中部干旱带和南部黄土丘陵区的3个农发项目典型示范点,选取典型用地、玉米地、未利用地3种土地利用类型,分析表层10～20 cm土壤有机质的变化规律。研究发现,生态区和土地利用类型是影响土壤有机质的重要因素,并存在极显著的交互作用。研究区土壤有机质在4.53～14.70 g·kg-1范围内变化,典型用地有显著改善,平均质量分数达10.40 g·kg-1。限定生态区条件下,北部平原灌区无论水稻还是玉米利用方式下,土壤有机质含量相对未利用地都出现显著提升,但是南部黄土丘陵区3种土地利用类型间并无显著差异,中部干旱带只有甘草地土壤有机质含量显著提升,幅度高达145%。限定土地利用类型条件下,3个生态区间典型用地土壤有机质出现显著差异,但是北部平原灌区和南部黄土丘陵区间未利用地以及玉米地表层土壤有机质差异并不显著。研究区农业综合开发活动对土壤有机质储存的作用以正效应为主,但是不同农业土地利用类型在不同生态区对土壤有机质的作用不尽相同。宁夏农业综合开发活动需要综合考虑生态区水土资源特征,选取适宜的农业土地利用类型,有效提升土壤有机质含量,积极应对气候变化。     

有机污染物在土壤—水体系中的分配理论

介绍了有机污染物在土壤—水体系中的分配理论。该理论认为有机污染物主要被土壤有机质以非吸附的方式所吸收，所以多种污染物被同时吸收时不存在竞争作用，而且吸收量受到土壤有机质和有机污染物分子极性的影响。有机污染物在土壤有机质—水体系中的分配系数，主要与其水溶性有关。     

天然有机质疏水性定量方法及吸附预测模型

天然有机质是有机污染物在土壤和水环境中的重要赋存相，显著影响有机污染物的传输、归趋和生物有效性.有机污染物的有机碳-水分配系数是污染物迁移积累模型的核心参数.如何准确、快速地评估有机污染物在天然有机质上的吸附行为是环境科学研究的一个重要科学问题.该方向的研究内容主要包括有机污染物和天然有机质性质定量描述、有机污染物-天然有机质作用机制解析和吸附预测模型构建三个环节.学界在有机污染物-天然有机质作用机制解析方向取得了丰硕的成果，在天然有机质性质定量描述和吸附预测模型构建方向仍有广阔的发展空间.本文系统评估了现有的天然有机质疏水性定量方法和天然有机质吸附预测模型.通过对方法和模型优缺点和适用范围的系统分析，揭示了现有研究的不足，展望了未来研究的主要方向.     

土壤中锁定残留芘在体外消化系统中的生物可给性（Oral Bioaccessibility of Bound Residue of Pyrene in Contamination Soils Determined by an in Vitro Gastrointestinal Model）

体外消化过程可能导致土壤中憎水有机污染物提取量增加.论文采用3种有机质含量不同的土壤进行体外消化实验,目的在于验证如下假设:土壤中部分锁定残留芘可以在人体消化系统中释放出来,若不考虑这部分贡献,常规提取方式获得的土壤污染浓度可能低估污染土壤口摄风险.研究结果证实:经体外消化的土壤的总芘提取量显著高于未经消化样品,其差别与土壤有机质含量有关.消化液中的胆汁盐是造成锁定残留芘释放的关键成份.在特定范围(2~20mg·mL-1)内,提取效率不受胆汁盐浓度影响.胆汁盐作用下锁定残留芘的释放为一次动力学过程.     

珙桐林土壤有机质与酶活性的通径分析

为正确评价珙桐林土壤酶活性对土壤有机质的影响程度,运用通径分析的方法研究了绵竹白云山原始珙桐林土壤有机质与酶活性的关系.结果表明,脲酶活性对土壤有机质的直接通径系数和决定系数值均较大,成为5种土壤酶中影响土壤有机质的最主要因素,过氧化氢酶、酸性磷酸酶和蛋白酶对土壤有机质的显著相关性主要是通过脲酶活性的间接影响.因此,珙桐林土壤脲酶活性可以表征土壤有机质的含量状况,可作为评价土壤肥力的一个重要指标.图1表4参21     

农业生产与土壤变化

本文在提出土壤变化概念及其驱动力的基础上,论述了农业生产活动对土壤侵蚀、上镶有机质和营养元素、土壤酸化、土壤生物学特性、土壤物理性质诸方面的正、逆向效应,最后指出研究农业生产对土壤变化的影响是发展持续农业所必需的.     

植被恢复中坡地土壤颗粒有机碳分布特征和δ~(13)C值组成

以喀斯特地区植被恢复过程中典型坡地为研究对象,对坡地各个地形剖面土壤及土壤不同粒径组分中有机碳含量和有机质稳定碳同位素(δ13C值)组成进行了分析.结果显示:坡地土壤有机碳含量向下坡方向逐渐降低,上坡位两个剖面土壤砂粒(50～2000 um)中有机碳含量占50%以上,处于不稳定状态;易受到侵蚀作用破坏;而下坡位两个剖面中有机碳主要储存在粉粒(2～50um)和粘粒(<2um)土壤中,属于高度腐殖化的稳定有机碳.土壤有机质的δ13C值是评估SOC周转的一个良好指标,因粒径组成、剖面深度.植被和成土环境而不同.坡地各个土壤剖面中δ13C值的组成差异,较好地反映作物残体输入和土壤累积特征;输入土壤中的植物有机体由于分解程度不同而储存在不同粒径土壤中,因此各粒径中δ13C值对土层中有机质的储存和变化趋势具有较好的指示作用.     

有机污染物在土壤—水体系中的分配理论

介绍了有机污染物在土壤－水体系中的分配理论，该理论认为有机污染物主要被土壤有机质以非吸附的方式所吸收，所以多种污染物被同叶吸收时不存在竞争作用，而且吸收量受到土壤有机质和有机污染物分子极性的影响。有机污染物在土壤有机质－水体系中的分配系数，主要与其水溶性有关。     

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.     

废弃塑料包装物的管理及资源、环境评价

由于塑料包装材料具有明显的资源优势,而获得广泛应用。但塑料材料的原料——石油,目前面临枯竭窘境。同时,塑料包装废弃物的处理存在巨大的环境压力。焚烧包括塑料包装废弃物在内的生活垃圾,用于发电,是日本曾经采取的方法。近年来,因存在难以逾越的生态环境问题,而逐渐废止。工业生态学的材料流的循环利用模式,是解决资源耗尽、废物充斥的理想方法。源头分离是城市固体废弃物资源化的前提条件。按塑料品种分类回收,以材料形式重复利用,保留了塑料的材料价值,还需要解决,再加工过程造成材料力学性能下降的问题。将单一品种塑料转化成单体,不同塑料品种的单体转化率有很大差距,缩合聚合物较高,而PP、PE等则不然。混合塑料的热裂解可获得化工原料和燃料,又达到减少垃圾总量和石油资源循环利用的效果,具有开发潜力。填埋方式占用土地又人为阻碍了有机垃圾回归生物圈。控制性堆肥对避免大量使用化肥、农药造成的生态环境灾难,再建农业生产的可持续性模式,发挥重要作用。生物降解塑料袋对堆肥的实施,具有特殊价值。PET和E-CO在食品包装某些应用领域有优势,而PVC食品包装物的使用和废弃后再利用都存在问题。     

Verglaste Filterstäube aus Müllverbrennungsanlagen

Solid waste residues from municipal solid waste incinerator flue gas cleaning systems basically consists of Al, Ca-silicates and metal oxides. At lower concentrations, environmentally harmful compounds such as alkali halide salts, heavy metals and traces of organic pollutants, e.g. PCDD, PCDF and PCB, are also present. For the reuse of the valuable materials (Al, Ca and metal oxides), an effective treatment technique for destroying the organic contaminants and separating the anorganic toxins from the non-toxic components has to be applied, which can only be achieved through thermal processing. Detailed investigations on vitrified electrostatic precipitator ash from municipal solid waste incinerator plants have shown promising results in regard to the mass balances, the chemical composition and the quality of the glass phase obtained.     

Müllverbrennungs-Schlacke als Baumaterial

In order to determine the possible depreciation of its quality as a building material, solid waste residues from a municipal solid waste incinerator were analysed in a case study for its contents of various organic fractions with special emphasis on fractions which can be utilised by microbes as carbon sources. Furthermore, microbial concentrations in ashes, microbial fermentation and pH dependent viability of soil microbes in extracts of ashes were determined. Results demonstrate a low content of organic fractions in the solid waste, especially of those which can serve as C-sources for soil microbes. Microbial concentrations and rates of fermation in the ash are extremely low. The former is not only limited by the availability of suitable C-sources, but also by the alkaline pH of and the heavy metal concentration in the soil solution. Model calculations confirm that the maximal possible gas formation is extremely low and therefore does not diminish the quality of the incinerator ash as a potential building material.     

北京市非正规垃圾填埋场垃圾成分特性

通过北京市3处典型非正规垃圾填埋场与1处正规垃圾卫生填埋场对比研究,结果表明,非正规垃圾填埋场与正规垃圾填埋场陈腐垃圾物理组成相近,但非正规垃圾填埋场有机物含量更低,同时垃圾分布不均匀;以建筑渣土为主的区域有机质含量一般低于5%;以生活垃圾为主的区域有机质含量与正规垃圾场相近,一般高于10%,内部最高温度可达42℃左右。     

城市有机生活垃圾溶胞处理对其厌氧消化的影响机理

由于城市有机生活垃圾成分的复杂性和厌氧消化的限速步骤的影响,导致厌氧发酵的速度比较缓慢、产气量较少和工艺不稳定等问题。文章综述了国内外有机生活垃圾的各种溶胞处理技术,如物理法、化学法、生物法及其联合处理等方法,以便改善发酵物料的性质,消除厌氧发酵的限速步骤。研究认为,通过溶胞处理能够改善有机垃圾的物理化学性质如发酵物料的溶解度、酸碱度等,提高微生物对难降解有机物的分解,增加可溶性COD和挥发性酸的浓度,优化发酵细菌的代谢途径以及产物的组成等,从而增加生物气产量,缩短水力停留时间,强化厌氧发酵过程,减轻了后续处理的负担。     

Repercussions of COVID-19 pandemic on solid waste generation and management strategies

• Implication of COVID-19 on medical waste and MSW generation is studied. • Challenges and effective strategy of solid waste generation is reviewed. • 2.9 million tons of COVID-19 related medical waste has been generated until Sep. 22. • The pandemic has postponed policies related to the reduction of plastic use. • Blockade resulted in a significant drop in waste generation in some regions. It has been over ten months since the beginning of the 2019 coronavirus disease (COVID-2019), and its impact on solid waste management, especially medical waste, is becoming clearer. This study systematically reviews the potential influences of the COVID-19 pandemic on medical waste, personal protection equipment waste and municipal solid waste (MSW), and discusses the corresponding measures and policies of solid waste management in typical countries. The results show that the generation of medical waste from the pandemic increased significantly, with 18%‒425% growth. It is estimated that the daily output of COVID-19 medical waste increased from 200 t/d on Feb. 22 to over 29000 t/d at the end of September 2020 throughout the world. The use of personal protective equipment will continue to grow in the long-term, while the blockade and isolation measures greatly reduced the volume of commercial waste, especially for tourist cities, and part of this waste was transferred to household waste. Residents’ attitudes and behavior toward food waste have changed due to the COVID-19 pandemic. In response to the pandemic, international organizations and several countries have issued new policies and guidelines and adjusted their management strategies for medical waste and MSW treatment. The pandemic has brought specific challenges to the disposal capacity of medical waste worldwide. It has also brought about the stagnation of policies related to the reduction of plastic products and waste recycling. This study will provide some useful information for managers and governmental officials on effective solid waste management during and after the COVID-19 pandemic.     

植物提取液对城市垃圾中转站恶臭物质的处理效果

对某2种商品植物除臭剂（代号A和C）进行了NH3和H2S的去除效果实验,确定了其最佳的使用条件;并实验了植物提取液对城市垃圾中转站渗滤液和实际中转站中恶臭气体的处理效果。结果显示,终浓度为0.85 g/m3的植物提取液A对NH3和H2S的去除率最高可达39.9%和92.31%;在城市垃圾中转站试验中,1.02 g/m3的植物提取液A结合超声波雾化装置对NH3和H2S的去除率可达66.67%和96.67%。研究表明利用植物提取液可以有效降低城市垃圾中转站恶臭污染物浓度,而采用超声波雾化装置效果更好。     

论凤眼莲的是非功过

凤眼莲在城市河湖的污染与净化中的是非功过争议很大,双方意见均有部分正确,但各有片面性。凤眼莲耐污能力、净化能力强;生产力高,生产量大;从环境中吸收、转化的污染物种类多、量大;本身有一定的利用和经济价值.它本是水体中营养盐、有机质等污染物的迁移转化和输出链网中一个重要环节。目前一些地方水体中凤眼莲因未及时收获、输出水体,失控而过度发展、排斥其他多种生物的生存和发展,而成为外来入侵种,其残体留存水体中造成二次污染。决定它功过是非的关键是能否及时从其生长水体中收获和输出,防止他们疯长蔓延。而合理利用凤眼莲是促进它们的收获与输出一项条件.如能抓住这一关键,就可解决这一争论.发挥凤眼莲净化水体,变废为宝,化害为利.兼收生态环境和经济效益。     

Review of fly ash inertisation treatments and recycling

Fly ash (FA) is a by-product of power, and incineration plants operated either on coal and biomass, or on municipal solid waste. FA can be divided into coal fly ash, obtained from power plant burning coal, flue gas desulphurisation FA, that is, the by-product generated by the air pollution control equipment in coal-fired power plants to reduce the release of SO₂, biomass FA produced in the plants for thermal conversion of biomass and municipal solid waste incineration (MSWI) FA, that is, the finest residue obtained from the scrubber system in a MSWI plant. Because of the large amount produced in the world, fly ash is now considered the world’s fifth largest material resource. The composition of FA is very variable, depending on its origins; then, also pollutants can be very different. In this frame, it is fundamental to exploit the chemical or physical potentials of FA constituents, thus rendering them second-life functionality. This review paper is addressed to FA typology, composition, treatment, recycling, functional reuse and metal and organic pollutants abatement. Because of the general growing of environmental awareness and increasing energy and material demand, it is expected that increasing recycling rates will reduce the pressure on demand for primary raw materials, help to reuse valuable materials which would otherwise be wasted and reduce energy consumption and greenhouse gas emissions from extraction and processing.