云南水电生态化的生态补偿

论述了云南省人民政府在金沙江溪洛渡水电站和向家坝水电站建立生态补偿机制的必要性,探讨了补偿数额、补偿方式和融资渠道等,并针对出现的问题提出了对策和建议.     

淮河流域多闸坝河流COD综合衰减系数测算

提出在多闸坝河流上，利用枯水期断面化学需氧量同步监测数据测算COD综合衰减系数的方法，用该方法测算河南省辖河流域部分河流COD综合减系数在0．08－0．341/d。并用实际监测结果进行检验。     

陶瓷废水处理原理及常用固液分离方法比较

本文就陶瓷废水的产生来源及废水处理原理进行了分析，对佛山市该行业废水处理常用的固液分离方式进行了处理效果及技术经济比较，指出将常用于给水处理工艺的水力循环澄清池应用在陶瓷废水处理工艺中，与其它分离方法相比，不仅占地面积小，效率高，而且易于操作和控制，可实现废水的全部回用，并建议对这种高悬浮物、高浊度水的混凝反应过程进行自动控制以提高水处理的稳定性。     

The Cotingo Dam as a test of Brazil's system for evaluating proposed developments in Amazonia

The proposed Cotingo Dam in Brazil's far northern state of Roraima is examined with the objective of drawing lessons for Brazil's system of evaluating environmental, social, and financial consequences of development decisions. The Cotingo Dam illustrates the difficulty of translating into practice the principles of economic and environmental assessment. Examination of the financial arguments for the Cotingo Dam indicates that justifications in this sphere are insufficient to explain why the project is favored over other alternatives and points to political factors as the best explanation of the project's high priority. Strong pressure from political and entrepreneurial interest groups almost invariably dominates decision making in Amazonia. The analysis indicates the inherent tendency of the present system to produce decisions in favor of large construction projects at the expense of the environment and local peoples. The requirements intended to assure proper weight for these concerns, such as the report on environmental impacts (RIMA) and the public hearing, fail to serve this role. Cotingo also provides a test case for constitutional protections restricting construction of dams in indigenous lands.     

电站运营对北溪下游水质影响探讨及改进建议

文章通过对利水电站坝上、坝下布设监测断面,进行为期近一个月的枯水期水质监测,分析上下游水质的变化以期对梯级电站的建设与运营对北溪下游水质的影响进行研究,认为梯级电站的建设运行,形成梯级水库,流速变缓,大气覆氧能力降低,水中溶解氧下降,导致水体自净能力减弱,使水环境容量降低,对污染物的稀释、混合和降解能力减弱,湖库富营养化是水库的主要生态环境问题。为此,提出污染防治对策,并提出当上游污染水团下泄时,作为补救和改善水质时电站应采取的运行方式,为今后河流的突发污染防治、水质保护与改善提供经验借鉴。     

国外水电环境认证制度对我国的借鉴意义

水电工程建设和运行对生态环境系统的影响是世界范围内十分关注的问题,中国水电事业的发展也开始进入生态制约阶段。建立水电工程的生态环境保护标准,推行生态环境认证制度,是降低水电工程不利生态影响的重要措施之一,国际上在这方面已经进行的实践对我国具有重要的借鉴意义。概要介绍了瑞士“绿色水电认证”和美国“低影响水电认证”的主要内容、技术标准和运行机制,并且对两者进行了比较和分析。在此基础上,分析了我国建立水电环境认证程序和推行水电生态环境保护标准的必要性及可行性,并且讨论了推行水电环境认证中可能存在的问题。     

Dams in the Amazon: Belo Monte and Brazil’s Hydroelectric Development of the Xingu River Basin

Hydroelectric dams represent major investments and major sources of environmental and social impacts. Powerful forces surround the decision-making process on public investments in the various options for the generation and conservation of electricity. Brazil’s proposed Belo Monte Dam (formerly Kararaô) and its upstream counterpart, the Altamira Dam (better known by its former name of Babaquara) are at the center of controversies on the decision-making process for major infrastructure projects in Amazonia. The Belo Monte Dam by itself would have a small reservoir area (440 km²) and large installed capacity (11, 181.3 MW), but the Altamira/Babaquara Dam that would regulate the flow of the Xingu River (thereby increasing power generation at Belo Monte) would flood a vast area (6140 km²). The great impact of dams provides a powerful reason for Brazil to reassess its current policies that allocate large amounts of energy in the country’s national grid to subsidized aluminum smelting for export. The case of Belo Monte and the five additional dams planned upstream (including the Altamira/Babaquara Dam) indicate the need for Brazil to reform its environmental assessment and licensing system to include the impacts of multiple interdependent projects.     

H型超薄板防渗技术在卫生填埋场中的应用

上海某生活垃圾卫生填埋场运营过程中发生堤坝渗漏,对周围环境造成了污染。经比选采用H型超薄板防渗技术处理,防渗薄板墙深18m,墙厚100mm。竣工后经CSAMT法、现场开挖取样等方式检测,超薄板墙各项指标均满足要求。有效治理了渗滤液渗漏,提升了区域环境质量。     

Environmental pollution,hydropower and nuclear energy generation before and after catastrophe: Bathtub-Weibull curve and MS-VECM methods

In this paper, the life span of hydro and nuclear energy generations and the relationship between hydro and nuclear energy generations, environmental pollution, and economic growth were investigated for Japan covering the period of 1960–2018 by employing the Bathtub-Weibull curve and Markov switching-vector error correcting (MSVEC) method, respectively. According to the Bathtub-Weibull curve analysis, a rising failure rate for nuclear energy was found, indicating that the life of nuclear energy has expired, but a decreasing failure rate for hydroelectric energy has been detected. Then two different MSVEC models were used. The MSVEC method, unlike traditional approaches, determines the relationship between variables under different regimes. The results of MSVEC methods indicate three important points. First, regime-dependent asymmetry and regime changes are crucial for policy recommendations. Second, the shocks to hydropower and nuclear energy generations cause temporary deviations from the long-run growth path in both regimes. Lastly, the increase in hydropower generation leads to a decrease in environmental pollution and an increase in GDP, and an increase in nuclear power generation increases pollution and growth in both regimes.     

混凝土大坝震害评估模型的研究及对黄河上游大坝的分析

利用前人所编的历代(共四代)地震烈度(地震动)区划图,组合叠加后得到一个综合烈度(地震动)。这种叠加是一个集成的专家系统综合认识结果,以此作为坝体可能遭受地震破坏危险的因素。初步研究建立了混凝土大坝震害评估模型,此模型是考虑了坝体的结构类型、建设年代、使用现状、场地条件、抗震设防水平等因素,用逐步线性拟合方法进行回归分析得到的。用此模型对汶川地震破坏的坝体进行了实例分析,分析结果比较符合实际。最后,用这个模型对黄河上游10座重点混凝土大坝做了震害评估分析。