共查询到11条相似文献,搜索用时 46 毫秒
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本文以平遥县城及周边区域环境空气质量监测结果为依据,采用具有全局优化的遗传算法(GA)对平遥县及周边区域大气环境质量污染现状进行评价。用大气污染危害指数的普适公式和参数优化后的污染危害指数公式确定污染危害指数的取值范围与评价级别之间的对应关系,由此得出较符合平遥县及周边区域实际的评价结果,同时针对具体情况对此结果进行简单的分析。 相似文献
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水质模型参数的确定是构建水质模型的基础。相对于传统优化方法,现代优化算法的优势日趋明显。本文在基于现代优化算法的水质模型参数确定研究背景下,介绍了具有代表性的遗传算法和模拟退火算法,并对该两种算法的应用现状进行综述,旨在推进该领域的进一步探索。 相似文献
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本文采用万元产值取水量和水重复利用率作为节水指标,通过对山东省主要工业行业用水节水现状进行调查研究,阐述了各行业节水水平和节水经验,分析并预测了节水潜力,总结提出了各行业应采取的主要节水措施和建议。 相似文献
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基于遗传算法的济南市水资源优化配置 总被引:3,自引:0,他引:3
济南作为全国重点缺水城市之一,水资源短缺已成为制约济南市经济社会可持续发展的瓶颈因素。水资源优化配置作为解决城市水资源短缺的重要手段,对保证整个济南市国民经济的可持续发展起着重要的支撑作用。以水资源优化配置理论为基础,分析了济南市水资源现状,并通过建立模型求解济南市水资源在国民经济各部门的配置。 相似文献
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Mieno, Taro and John B. Braden, 2011. Residential Demand for Water in the Chicago Metropolitan Area. Journal of the American Water Resources Association (JAWRA) 47(4):713‐723. DOI: 10.1111/j.1752‐1688.2011.00536.x Abstract: This paper provides the first contemporary analysis of residential water demand in humid Northeastern Illinois, in the vicinity of Chicago, and explores seasonal and income‐based differentials in the responsiveness of water use to water prices. Using a panel of system‐level data for eight water systems and controlling for seasons, weather, incomes, and community characteristics, the analysis yields low estimates of price elasticity of demand for water in line with other studies. Furthermore, price response is greater in summer and less in higher income communities. We suggest that use of seasonal pricing can help mitigate equity issues arising from differential income elasticities while taking advantage of the greater price responsiveness of summertime water use. 相似文献
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四川水资源可持续利用与水质保护研究 总被引:2,自引:0,他引:2
四川水资源以河川径流为主,可利用率不高;水资源时空分布不均,径流的地区差异大;水能丰富,开发条件优越。水质污染日趋严重。在分析水质现状的基础上,针对水资源利用中存在的主要问题,提出了水资源可持续利用与水质保护的相应措施:以大型骨干水利工程建设为重点,改善水资源的时空分布;把建设全国能源基地与实现地方电气化相结合,因地制宜开发水能资源;以生态环境工程建设推动水质保护和水土保持;开源与节流并重,加强水资源的综合利用。 相似文献
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The conversion of landscapes by human activities results in widespread changes in landscape spatial structure. Regardless of the type of land conversion, there appears to be a limited number of common spatial configurations that result from such land transformation processes. Some of these configurations are considered optimal or more desirable than others. Based on pattern geometry, we define ten processes responsible for pattern change: aggregation, attrition, creation, deformation, dissection, enlargement, fragmentation, perforation, shift, and shrinkage. A novelty in this contribution is the inclusion of transformation processes causing expansion of the land cover of interest. Consequently, we propose a decision tree algorithm that enables detection of these processes, based on three parameters that have to be determined before and after the transformation of the landscape: area, perimeter length, and number of patches of the focal landscape class. As an example, the decision tree algorithm is applied to determine the transformation processes of three divergent land cover change scenarios: deciduous woodland degradation in Cadiz Township (Wisconsin, USA) 1831–1950, canopy gap formation in a terra firme rain forest at the Tiputini Biodiversity Station (Amazonian Ecuador) 1997–1998, and forest regrowth in Petersham Township (Massachusetts, USA) 1830–1985. The examples signal the importance of the temporal resolution of the data, since long-term pattern conversions can be subdivided in stadia in which particular pattern components are altered by specific transformation processes. 相似文献
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