苯酚及其氯代物对大型溞的毒性效应和微观机理探讨

采用静态生物急性试验的方法,研究了5种酚类化合物对大型溞的急性毒性效应,并利用正辛醇/水分配系数(Kow)对实验测得的毒性数值进行了统计分析,得到了有效的毒性估测模型.研究结果表明,大型溞的幼溞接触不同化合物的不同浓度,活动会受到抑制,甚至死亡,苯酚、4-氯酚、2,4-二氯酚、2,3,4-三氯酚和五氯酚的48 h EC50分别为9.15、4.64、4.40、1.92、0.37 mg/L;根据化学物质对溞类的毒性评价标准,这5种化合物都属高毒物质,其中五氯酚具有极高毒性.另外,五氯酚对大型溞的致毒关键步骤不仅包括传输分配过程还有生化反应.     

我国海洋塑料垃圾和微塑料排放现状及对策

当前海洋塑料和微塑料污染问题是全球研究热点,随着我国陆源垃圾减量化处置率和生活污水处理覆盖率的提高,重新核算我国海洋塑料垃圾和微塑料排放量尤为重要,基于文献已报道的关于海洋塑料垃圾和微塑料排放量估算的方法并结合相关统计数据对我国相应排放量进行了核算.结果表明:2016年我国向海洋中排放塑料垃圾124×104~331×104 t,略低于2010年的132×104~353×104 t;生活污水处理厂向环境中排放塑料微珠约109.95×1012粒（折合131.78 t）,远低于2014年报道的209.7×1012粒（折合306.9 t）.此外,2016年我国生活污水处理厂向环境中排放合成化学纤维类微塑料约1 296.95×1012个（折合648.48 t）,轮胎与地面摩擦产生合成橡胶轮胎粉尘约78.85×104 t;合成化纤类微塑料和合成橡胶轮胎粉尘等已成为陆源微塑料的重要来源.通过与发达国家和地区在海洋垃圾和微塑料污染、陆源垃圾处置、海洋垃圾污染应对等方面进行比较,未来我国应通过完善"限塑令"和生活垃圾分类体系、尽早实施"塑料微珠"限令、明晰生活污水处理厂微塑料排放状况等手段从源头控制排放,此外需有效控制塑料垃圾和微塑料的输送途径,制定和完善相关法律法规和监测标准,提升我国应对海洋塑料垃圾和微塑料污染的能力和国际影响力.      

Experimental study of the bio-oil production from sewage sludge by supercritical conversion process

Environment-friendly treatment of sewage sludge has become tremendously important. Conversion of sewage sludge into energy products by environment-friendly conversion process, with its energy recovery and environmental benefits, is being paid significant attention. Direct liquefaction of sewage sludge into bio-oils with supercritical water (SCW) was therefore put forward in this study, as de-water usually requiring intensive energy input is not necessary in this direct liquefaction. Supercritical water may act as a strong solvent and also a reactant, as well as catalyst promoting reaction process. Experiments were carried out in a self designed high-pressure reaction system with varying operating conditions. Through orthogonal experiments, it was found that temperature and residence time dominated on bio-oil yield compared with other operating parameters. Temperature from 350 to 500 °C and reaction residence time of 0, 30, 60 min were accordingly investigated in details, respectively. Under supercritical conversion, the maximum bio-oil yield could achieve 39.73%, which was performed at 375 °C and 0 min reaction residence time. Meanwhile, function of supercritical water was concluded. Fuel property analysis showed the potential of bio-oil application as crude fuel.     

宜昌市水环境质量红线划分与空间管控研究

在宜昌市水环境质量红线划分中,对饮用水源保护区划分、水环境功能区划分和流域控制单元划分给予评估,分析在城市水环境质量红线划分上的可取之处,在自然社会综合系统框架下创造性的提出了适应宜昌城市环境总体规划中水环境质量红线划分的原则、技术方法和分级管控措施,提出的原则与适宜的管控措施为宜昌市水环境质量改善、环境公共服务实现与生态城市建设提供了支持,丰富并实践了生态保护红线体系.     

危险废物鉴别实验室能力建设浅析

介绍我国危险废物鉴别体系的组成,分析了2007版《危险废物鉴别标准》的相关内容,探讨了在危险废物鉴别实验室能力建设中,场地条件、硬件设备、人员技能3方面的要求。指出目前环境监测部门开展危险废物鉴别存在的问题和难点,有针对性地提出建议与措施。     

Eco-industrial parks: national pilot practices in China

China has rapidly developed a number of Eco-industrial parks (EIPs) in recent years. In order to promote and regulate their development, two government agencies, the Ministry of Environmental Protection and the National Development and Reform Commission are currently engaged in promoting national pilot EIP programs. Both agencies have developed their own management systems, and 60 industrial parks have been approved for construction of national pilot EIPs, among which six parks appear in both lists of the two agencies. This article introduces the practice of the national pilot EIPs. It first describes the management systems and achievements within the two programs, and then summarizes the problems encountered thus far in program implementation. Finally it proposes brief suggestions for future development of EIPs.     

基于利益相关群体的碳减排策略与潜力分析——以苏州市为例

本研究基于苏州市低碳试点工作实施方案,识别了苏州市重点减排领域,采用国家温室气体排放清单,估算了苏州"十二五"(2011—2015)期间碳排放量,并利用情景分析法预测了2016—2025年基准情景和综合减排情景碳排放趋势,分析了各重点排放领域减排贡献率。在此基础上,将减排策略按照自愿、监管、自愿与监管相结合的方式分别从不同利益相关群体进行梳理,分析不同群体减排潜力。结果表明:(1) 2015年,苏州市碳排放量约为2.35亿吨,2011—2015年,重点排放领域为工业能源消耗、建筑、交通、电力行业。(2)采用综合减排方案能在2020年左右达到峰值,之后缓慢下降,但交通部门碳排放仍有一定增加。(3)碳减排策略由多个利益相关群体共同作用产生减排贡献。对苏州市低碳试点方案的分析表明,当地政策制定者的减排贡献最高,其后是基础设施建设者和运营者,最后是基础设施使用者。     

巢湖湖滨带植被特征及其退化原因分析研究

于2009年和2010年对巢湖湖滨带植被进行了详细踏查,结果表明:(1)植被群落结构单一,多样性较差,大都集中分布于浅水、河口、滩地,受水质和水位影响显著;(2)挺水植物有5科6属6种,以芦苇(Phrag-mites australis)为优势种;(3)浮叶植物3科3属3种;以野菱(Trapa incisa)和荇菜(Nymphoides peltatum)为优势种;(4)漂浮植物2科2属2种;主要是凤眼莲(Eichhornia crassipes)和浮萍(Lemna minor);(5)沉水植物4科5属8种;以马来眼子菜(Potamogeton malaianus)为优势种;(6)湿生和陆生植物27科76属101种;以禾本科为主,菊科、蓼科植物次之。调查结果与历史资料(1954年-2007年)对比,得出巢湖流域土地利用格局、江湖建闸等水利工程、围湖造田与堤坝建设等人为活动以及富营养化与蓝藻水华等综合因素严重破坏了巢湖湖滨带健康的生态系统,加剧了湖滨带植被的衰退。本研究可为巢湖湖滨带植被的恢复提供理论指导。     

Graphitic carbon nitride/biochar composite synthesized by a facile ball-milling method for the adsorption and photocatalytic degradation of enrofloxacin

In order to enhance the removal performance of graphitic carbon nitride (g-C₃N₄) on organic pollutant, a simultaneous process of adsorption and photocatalysis was achieved via the compounding of biochar and g-C₃N₄. In this study, g-C₃N₄ was obtained by a condensation reaction of melamine at 550°C. Then the g-C₃N₄/biochar composites were synthesized by ball milling biochar and g-C₃N₄ together, which was considered as a simple, economical, and green strategy. The characterization of resulting g-C₃N₄/biochar suggested that biochar and g-C₃N₄ achieved effective linkage. The adsorption and photocatalytic performance of the composites were evaluated with enrofloxacin (EFA) as a model pollutant. The result showed that all the g-C₃N₄/biochar composites displayed higher adsorption and photocatalytic performance to EFA than that of pure g-C₃N₄. The 50% g-C₃N₄/biochar performed best and removed 45.2% and 81.1% of EFA (10 mg/L) under darkness and light with a dosage of 1 mg/mL, while g-C₃N₄ were 19.0% and 27.3%, respectively. Besides, 50% g-C₃N₄/biochar showed the highest total organic carbon (TOC) removal efficiency (65.9%). Radical trapping experiments suggested that superoxide radical (?O₂^?) and hole (h⁺) were the main active species in the photocatalytic process. After 4 cycles, the composite still exhibited activity for catalytic removal of EFA.