灌区河道串联闸群防洪优化调度

针对河道串联闸群防洪优化调度的特点,详细推导了河道串联闸群防洪调度的洪水演算公式,明确了关键计算环节,建立了串联闸群防洪优化调度模型,应用水力学圣维南四点隐式差分法和遗传算法相结合对模型进行求解。采用VB6.0开发了人机交互的闸群防洪调度系统。通过实例计算,验证了河道串联闸群防洪优化调度方案的合理性,可为河道串联闸群防洪调度提供参考。     

Advances in the treatment of multi-pollutant flue gas in China's building materials industry

In most of the world's building material industries, the control of flue gas pollutants mainly focuses on a single pollutant. However, given the large capacity and high contribution of China's building materials industry to global air pollution, the need to develop multi-pollutant emission reduction technology is urgent. Recently, China has focused on reducing the emissions of flue gas pollutants in the building materials industry, established many key research and development projects, and gradually implemented more stringent pollutant emission limits. This project focuses on the most recent advances in flue gas emission control technology in China's building materials industry, including denitration, dust removal, desulfurization, synergistic multi-pollutant emission reduction, and the construction of pilot research and demonstration projects for pollutant removal in several building material industries. On this basis, revised pollutant limits in flue gas emitted in China's building material industry are proposed.     

Multi-process and multi-pollutant control technology for ultra-low emissions in the iron and steel industry

The iron and steel industry is not only an important foundation of the national economy, but also the largest source of industrial air pollution. Due to the current status of emissions in the iron and steel industry, ultra-low pollutant emission control technology has been researched and developed. Liquid-phase proportion control technology has been developed for magnesian fluxed pellets, and a blast furnace smelting demonstration project has been established to use a high proportion of fluxed pellets (80%) for the first time in China to realize source emission reduction of SO₂ and NO_x. Based on the characteristics of high NO_x concentrations and the coexistence of multiple pollutants in coke oven flue gas, low-NO_x combustion coupled with multi-pollutant cooperative control technology with activated carbon was developed to achieve efficient removal of multiple pollutants and resource utilization of sulfur. Based on the characteristics of co-existing multiple pollutants in pellet flue gas, selective non-catalytic reduction (SNCR) coupled with ozone oxidation and spray drying adsorption (SDA) was developed, which significantly reduces the operating cost of the system. In the light of the high humidity and high alkalinity in flue gas, filter materials with high humidity resistance and corrosion resistance were manufactured, and an integrated pre-charged bag dust collector device was developed, which realized ultra-low emission of fine particles and reduced filtration resistance and energy consumption in the system. Through source emission reduction, process control and end-treatment technologies, five demonstration projects were built, providing a full set of technical solutions for ultra-low emissions of dust, SO₂, NO_x, SO₃, mercury and other pollutants, and offering technical support for the green development of the iron and steel industry.     

粤港澳大湾区污染场地土壤风险管控制度体系建设与思考

防范污染场地环境风险和保障人居环境安全是粤港澳大湾区建设世界级城市群面临的重要挑战和工作内容之一.由于粤港澳在政治制度和土地管理等方面的差异,以及珠三角9市内部城市化水平、产业结构以及环境管理能力的差别,大湾区各地污染场地风险管控模式有明显的差异,分析粤港澳大湾区典型城市污染场地风险管控特点,对加强污染场地风险管控技术交流与合作,优化大湾区污染场地风险管控制度具有重要意义.本文在简述我国污染场地风险管控制度体系的基础上,重点介绍了广州、深圳、东莞、香港和澳门的污染场地风险管控制度体系、监管对象、污染评估与整治程序等的特点,对其风险管控制度体系进行了分析与对比,并针对土地规划、政策反馈、信息公开及联盟机制探索等提出了思考与建议.总体来看,香港及珠三角部分地市构建了行之有效的污染场地风险管控制度体系,且体现了一定的地方特点,但随着污染场地的进一步开发再利用,打造粤港澳大湾区世界级城市群的建设目标将对污染场地风险管控策略的安全性、精细化和时效性等提出更高的要求,互相借鉴和充分学习,加强大湾区2区9市污染场地风险管控上的技术交流与合作,是实现大湾区污染场地安全再利用与高效开发的有效路径.     

《大气污染防治行动计划》实施的环境健康效果评估

为了定量评估《大气十条》实施带来的环境健康效益,本文首先依据PM_(2.5)浓度和人口数据,分析2013～2017年全国人口加权浓度的变化,其次利用Ben MAP模型对全国338个地级及以上城市2013年PM_(2.5)基准情景和2017年PM_(2.5)控制情景进行分析,定量分析全国31个省(市)及338个地级及以上城市减少过早死亡人数.结果表明,由于PM_(2.5)浓度大幅下降,2013～2017年全国PM_(2.5)人口加权浓度呈逐年下降趋势;北京、天津、河北等京津冀及周边地区减少过早死亡人数最多. 2017年全国280个城市避免过早死亡人数有所增加,58个城市避免过早死亡人数有所下降.以WHO过渡期第1阶段目标值(PM_(2.5)年均浓度为35μg·m-3)作为控制情景,估算2013年全国过早死亡人数约为101 293人,2017年约为41 080人,《大气十条》的实施大约避免60 213人过早死亡.依据支付意愿法调查结果,估算增加的健康效益约为549. 7亿元.     

北京市大兴区道路积尘年际变化特征及管控研究

为探究长时间跨度的道路积尘变化特征,于2019~2020年对北京市大兴区内主要道路进行尘负荷检测,并于2020年四季收集道路PM₁₀和PM_2.5积尘样品,分析化学组分,建立成分谱.结果表明,2019年和2020年大兴区道路尘负荷年均值分别为1.05g/m²和0.74g/m²,2020年大兴区道路尘负荷较2019年下降29.5%.2019年道路尘负荷热点聚集区分散,大兴区内道路尘负荷高值区较多,2020年热点区集中出现在西北部,冷点区集中在东部区域.2020年大兴区道路扬尘排放因子低于2019年,大部分乡镇/街道中,2020年的扬尘排放因子和排放量低于2019年,呈现出东南部 > 中部 > 西北部的趋势.2020年大兴区道路扬尘排放量低于2019年,大兴区南部和西北部乡镇/街道内的扬尘排放量大于中部.受建筑施工活动影响.2020年大兴区道路PM₁₀和PM_2.5积尘化学组分中以土壤风沙和建筑施工活动相关的元素为主,Ca、Mg、Si、Al元素分别共占比39.39%和41.71%.对大兴区道路尘负荷进行针对性管控,首先需要对运输车辆进行及时冲洗,降低轮胎的尘土夹带量.其次应加强工地出口至附近1km的道路清扫保洁频次,将工地出口处道路尘负荷对周边道路的辐射影响降低.     

低剂量双酚A影响哺乳动物神经发育研究现状及争议

为全面认识低剂量BPA（双酚A）对哺乳动物神经发育的影响,本文从中国知网、PubMed和Web of Science 3个数据库中获取了国内外关于低剂量BPA影响哺乳动物神经发育的研究报道,并使用toxR工具对其可信度进行评估,最终筛选获得26项相关研究;从美国食品药品监督管理局（FDA）工作网站上获取最新BPA毒性报告1篇.通过比较分析这些研究,发现大部分研究报道低剂量BPA暴露导致哺乳动物神经行为、特定脑区内组织学结构和细胞特征、神经递质和激素稳态、脑中关键基因表达以及表观遗传特征发生改变.但是,就导致的神经行为的改变而言,一些研究的结果并不一致甚至有诸多矛盾之处.这些不一致的结果可能与动物实验设计的差异有关,其中神经行为测试的质量控制和统计方法中统计单元的选择对于研究结果的影响尤其值得关注.总之,从目前的文献来看,低剂量BPA对哺乳动物神经发育的影响尚待进一步的确认.     

普光气田集输管网系统安全运行实践

针对普光气田地理环境现状,从地质灾害、焊口缺陷、管道腐蚀等方面对集输管网安全隐患进行了分析,结合现有风险防控措施,对下一步工作进行了展望,提出应加强硫化氢泄漏扩散机理研究及环焊缝失效机理研究。     

唐山市基于GIS的PM2.5空间聚集性及分区管控

以ArcGIS软件为平台,采用唐山市206个在线监测点数据,分析了PM_2.5在采暖期、重污染期、非采暖期3个时期的全局和局部空间自相关性,研究其大气污染空间分布特征.结果表明,3个时期均具有一定的空间自相关性,且重污染期的全局空间自相关最强;采暖期和重污染期PM_2.5高值聚类主要发生在中部地区,低值聚类则主要分布在北部山区及沿海少部分区域;非采暖期高值聚类主要分布在丰润区和丰南区,低值聚类发生在遵化市北部地区.通过空间插值模拟全市的PM_2.5分布状况,结果显示唐山市在重污染期PM_2.5均值最高格点值达241μg/m³,而非采暖期最低值只有37μg/m³;基于PM_2.5浓度变化特征和空间分布,将唐山所辖18个区县划分为5个区域,针对各区域提出PM_2.5分区管控措施建议.     

Effects of Climate and Land Cover on Hydrology in the Southeastern U.S.: Potential Impacts on Watershed Planning

The hydrologic response to statistically downscaled general circulation model simulations of daily surface climate and land cover through 2099 was assessed for the Apalachicola‐Chattahoochee‐Flint River Basin located in the southeastern United States. Projections of climate, urbanization, vegetation, and surface‐depression storage capacity were used as inputs to the Precipitation‐Runoff Modeling System to simulate projected impacts on hydrologic response. Surface runoff substantially increased when land cover change was applied. However, once the surface depression storage was added to mitigate the land cover change and increases of surface runoff (due to urbanization), the groundwater flow component then increased. For hydrologic studies that include projections of land cover change (urbanization in particular), any analysis of runoff beyond the change in total runoff should include effects of stormwater management practices as these features affect flow timing and magnitude and may be useful in mitigating land cover change impacts on streamflow. Potential changes in water availability and how biota may respond to changes in flow regime in response to climate and land cover change may prove challenging for managers attempting to balance the needs of future development and the environment. However, these models are still useful for assessing the relative impacts of climate and land cover change and for evaluating tradeoffs when managing to mitigate different stressors.