过去两千年长江干流历史洪水事件的时空变化研究

理解极端洪水事件活动特征及其与气候变化、人类活动的相互关系一直是全球变化研究的热点问题。现代器测数据较短对洪水事件变化规律预测存在不足,而利用历史文献记录研究百年-千年尺度洪水事件的发生规律则成为一个较好的选择。洪水灾害是长江流域最为严重的自然灾害之一。本文以官方现存历史记载为依据,构建了过去2000年长江干流上、中、下游洪水事件序列,并将其与气候和人类活动代理指标进行对比。结果表明,1350年之前,长江干流洪水事件受东亚季风(EASM)、西南季风(ISM)、厄尔尼诺-南方涛动(ENSO)、热带辐合带(ITCZ)移动等多种气候因素驱动,且气候驱动机制在同期不同区、同区不同期存在显著差异。此外,1350年之后人类活动的增强可能明显加剧了长江干流洪水事件的频率和强度。     

A pyrazine based metal-organic framework for selective removal of copper from strongly acidic solutions

● pz-UiO-66 was synthesized facilely by a solvothermal method. ● Efficient capture of copper from highly acidic solution was achieved by pz-UiO-66. ● pz-UiO-66 exhibited excellent selectivity and capacity for copper capture. ● Pyrazine-N in pz-UiO-66 was shown to be the dominant adsorption site. The selective capture of copper from strongly acidic solutions is of vital importance from the perspective of sustainable development and environmental protection. Metal organic frameworks (MOFs) have attracted the interest of many scholars for adsorption due to their fascinating physicochemical characteristics, including adjustable structure, strong stability and porosity. Herein, pz-UiO-66 containing a pyrazine structure is successfully synthesized for the efficient separation of copper from strongly acidic conditions. Selective copper removal at low pH values is accomplished by using this material that is not available in previously reported metal–organic frameworks. Furthermore, the material exhibits excellent adsorption capacity, with a theoretical maximum copper uptake of 247 mg/g. As proven by XPS and FT-IR analysis, the coordination of pyrazine nitrogen atoms with copper ions is the dominant adsorption mechanism of copper by pz-UiO-66. This work provides an opportunity for efficient and selective copper removal under strongly acidic conditions, and promises extensive application prospects for the removal of copper in the treatment for acid metallurgical wastewater.     

VOC emission caps constrained by air quality targets based on response surface model: A case study in the Pearl River Delta Region, China

Because of the recent growth in ground-level ozone and increased emission of volatile organic compounds (VOCs), VOC emission control has become a major concern in China. In response, emission caps to control VOC have been stipulated in recent policies, but few of them were constrained by the co-control target of PM_2.5 and ozone, and discussed the factor that influence the emission cap formulation. Herein, we proposed a framework for quantification of VOC emission caps constrained by targets for PM_2.5 and ozone via a new response surface modeling (RSM) technique, achieving 50% computational cost savings of the quantification. In the Pearl River Delta (PRD) region, the VOC emission caps constrained by air quality targets varied greatly with the NO_x emission reduction level. If control measures in the surrounding areas of the PRD region were not considered, there could be two feasible strategies for VOC emission caps to meet air quality targets (160 µg/m³ for the maximum 8-hr-average 90th-percentile (MDA8-90%) ozone and 25 µg/m³ for the annual average of PM_2.5): a moderate VOC emission cap with <20% NOx emission reductions or a notable VOC emission cap with >60% NO_x emission reductions. If the ozone concentration target were reduced to 155 µg/m³, deep NO_x emission reductions is the only feasible ozone control measure in PRD. Optimization of seasonal VOC emission caps based on the Monte Carlo simulation could allow us to gain higher ozone benefits or greater VOC emission reductions. If VOC emissions were further reduced in autumn, MDA8-90% ozone could be lowered by 0.3-1.5 µg/m³, equaling the ozone benefits of 10% VOC emission reduction measures. The method for VOC emission cap quantification and optimization proposed in this study could provide scientific guidance for coordinated control of regional PM_2.5 and O₃ pollution in China.     

A2O工艺污水处理厂微生物气溶胶逸散特征及暴露风险评价

监测了北京市某A²O工艺污水处理厂不同工艺段逸散出的微生物气溶胶的浓度和粒径分布情况,统计了各工艺段所有采集样本污染程度和可吸入颗粒占比,分析了影响各工艺段微生物气溶胶浓度和可吸入颗粒数变化的因素.同时,计算了各工艺段暴露风险值,判断微生物气溶胶对不同人群的危害性.结果表明,各工艺段微生物气溶胶均有不同程度的释放,浓度变化范围在107~37139 CFU·m^-3之间,其中,生物池释放浓度最低,为107~624 CFU·m^-3,一直处于清洁等级;板框脱水间释放浓度最高,为3329~37139 CFU·m^-3,粉尘颗粒较多是造成板框脱水间微生物气溶胶浓度极高的重要原因.各工艺段可吸入颗粒（<4.7 μm）占比为42.30%~93.36%,其中,污泥处理单元吸入风险较高,可吸入颗粒占比为83.52%~93.36%.板框脱水间细菌气溶胶对人体存在非致癌风险（HQ>1）,需引起重视.     

重点生态功能区环境污染源排放特征与空间管控模式——以藏东南为例

重点生态功能区以保持并提高生态产品供给能力为主体功能定位，区内自然环境敏感性和脆弱性突出，研究其人类活动过程中的环境污染源排放特征与空间管控模式，对科学协调保护与利用、切实加强重点生态功能区环境保护和治理水平具有重要意义.以青藏高原重要生态安全屏障区藏东南为例，基于环境污染源的固体废弃物、水体污染物和大气污染物排放强度的分类估算与空间特征解析，探讨面向污染源排放强度和多尺度管控精度的分级空间管控方案.研究结果表明：藏东南环境污染源的排放强度整体较低，雅鲁藏布江和雅尼河谷地因人类生产生活活动密度较大，其污染物排放量显著高于其他区域；在重点生态功能区应建立由7个二级类和21个三级类构成的环境污染源空间管控体系，重点管控以城镇居住区和工矿业生产空间为主的"点状"胁迫、以交通运输场所和人文游憩空间为主的"线状"胁迫、以农业种植区和畜禽养殖区为主的"面状"胁迫；针对藏东南各类环境污染源的空间耦合及交互特征，提出城乡生活集聚型、农牧业生产集聚型和休闲旅游集聚型3种典型区，依次制定"分级处理+资源利用"、"源头减排+就地消纳"、"实时动态监控+绿色设施营造+游憩利用规范"的差异化空间管控模式.     

循环磨料射流综合理论分析

循环磨料射流是磨料射流的一种重要形式。循环磨料浆液被高压水加速后直接输入喷嘴，构成具有强大打击力的磨料射流；特别适用于锻件、轧制件的除鳞除锈，铸件清砂等表面处理。要保证循环磨料射流在工业中应用，必须首先解决两个关键问题，即循环磨料射流浆体在管路中的正常流动、磨料的悬浮与沉降规律以及过碎的微小磨粒的剔除，以满足高效、连续的作业。本文论述了循环磨料射流的工作原理和主要工作参数的确定方法。     

基于实地调研的广东省工业VOC排放清单改进研究

工业源是人为源挥发性有机物(VOC)排放的重要贡献源,然而现有基于统计年鉴数据建立的工业VOC排放清单仍然存在排放源缺失、排放量低估、空间分配精度不足等问题.为了提高清单表征及空间分配的精细度,本文在2014年基于统计年鉴数据建立的广东省工业VOC排放清单的基础上,利用问卷调研方式获取了12000多家工业企业的详细活动水平数据,对工业VOC排放表征与空间分配进行改进,进而建立了基于实地调研和统计年鉴数据相结合的2014年广东省工业VOC排放改进清单.结果表明,改进后广东省工业VOC清单排放量由500927 t增至716470 t,珠三角地区行业VOC排放量增加30%左右,非珠三角地区增加90%左右,其中,炼油及石化行业VOC排放量变化最为明显.改进前清单借助人口密度等空间地理信息为空间分配依据,导致部分VOC排放分配到工业源较少的居民区或市中心;改进后的空间分配优先采用基于经纬度信息的点源分配方法,点源调研数据使得分配后的工业VOC主要集中在工业园区,少数工业VOC排放分配给人类活动有限的偏远农村地区,分配结果更为合理、精细.利用CAMx模型结合实际观测站点监测结果评估此次改进对O_3生成的影响,总体上改进后清单提高了广州、东莞、惠州和茂名等城市的O_3峰值期的模拟浓度,降低了东莞及广州O_3污染时期的模拟偏差,部分被低估的模拟峰值可以提高6～9μg·m~(-3);同时,空间分配的改进也影响了城市间O_3传输模拟.     

国土空间规划体系下的全域环境空间管控研究——以苏州市为例

立足新时期国土空间规划体系强化全域环境空间管控,推动各类环境要素管控分区降尺度与融合化,实现环境污染源头管控与精准落地,是系统应对当前高强度、复合型环境问题的有效途径.构建基于国土空间规划的全覆盖、多层级环境功能分区管控体系,在单要素人为污染物排放量和综合排放强度评价基础上,提出环境功能分区的管控等级集成评价模型,探索分区管理和分级施策的全域环境空间管控途径,并以高度工业化和城市化的苏州市为案例开展应用研究.结果表明：①基于国土空间规划体系的"三区三线"与现行环境要素管控分区的空间耦合性,建立由8个一级分区和21个二级分区构成的环境功能分区管控体系;②按照"三区三线"管控属性和综合排放强度,可进一步将环境功能分区的管控等级由高至低划分为Ⅴ、Ⅳ、Ⅲ、Ⅱ、Ⅰ及○级;③苏州市人为污染物排放量总体偏大,城镇空间内的工矿业生产空间及城乡居住空间、农业空间内的生产养殖空间的综合排放强度较高,主要分布于姑苏、虎丘等中心城区及昆山、常熟等工业集聚区;④苏州市Ⅴ级和Ⅳ级管控区以工矿业生产空间、城乡居住空间和特殊生产空间为主,Ⅲ级管控区以混合空间为主,Ⅱ级以农业种植空间和生产养殖空间为主,Ⅰ级和○级管控区主要包括一般生态空间和生态保护红线.案例应用表明,国土空间规划体系下的全域环境空间管控可操作性强,可实现环境规制精准落实到污染源空间;建议以环境功能分区分级管控体系为基础,将环境空间管控全面融入国土空间规划体系,建立综合施策的环境协同管理机制.