AUTOMATED WEB GIS BASED HYDROGRAPH ANALYSIS TOOL,WHAT1

The separation of the base flow component from a varying streamflow hydrograph is called “hydrograph analysis.” In this study, two digital filter based separation modules, the BFLOW and Eckhardt filters, were incorporated into the Web based Hydrograph Analysis Tool (WHAT) system. A statistical component was also developed to provide fundamental information for flow frequency analysis and time series analysis. The Web Geographic Information System (GIS) version of the WHAT system accesses and uses U.S. Geological Survey (USGS) daily streamflow data from the USGS web server. The results from the Eckhardt filter method were compared with the results from the BFLOW filter method that was previously validated, since measured base flow data were not available for this study. Following validation, the two digital filter methods in the WHAT system were run for 50 Indiana gaging stations. The Nash‐Sutcliffe coefficient values comparing the results of the two digital filter methods were over 0.91 for all 50 gaging stations, suggesting the filtered base flow using the Eckhardt filter method will typically match measured base flow. Manual separation of base flow from streamflow can lead to inconsistency in the results, while the WHAT system provides consistent results in less than a minute. Although base flow separation algorithms in the WHAT system cannot consider reservoir release and snowmelt that can affect stream hydrographs, the Web based WHAT system provides an efficient tool for hydrologic model calibration and validation. The base flow information from the WHAT system can also play an important role for sustainable ground water and surface water exploitation, including irrigation and industrial uses, and estimation of pollutant loading from both base flow and direct runoff. Thus, best management practices can be appropriately applied to reduce and intercept pollutant leaching if base flow contributes significant amounts of pollutants to the stream. This Web GIS based system also demonstrates how remote, distributed resources can be shared through the Internet using Web programming.     

膜分离活性污泥法及膜的选择

阐述了膜分离活性污泥法的类型及关键工艺——膜组件的选择方法，并对膜分离活性污泥法在国内外的应用进行了简述。     

酚焦油资源化技术研究(Ⅱ)--裂解产物的分离

开发出一种精馏与钠盐法相结合的分离酚焦油裂解产物的新工艺，裂解产物经精馏，蒸出异丙苯等轻组分、苯酚馏分和共沸物。共沸物中加入氢氧化钠，分离出酚钠盐和苯乙酮。轻组分和酚钠盐均返回苯酚、丙酮生产装置。裂解产物中有用物质的收率为92．91％，苯乙酮的收率为82．38％，其纯度大于98％。     

挥发性有机物废气的膜法处理工艺研究进展

简要介绍了挥发性有机物废气的来源，分类及其对人体和环境的危害，以及国内外近年来的排放状况。较详细地论述了蒸汽渗透，气体膜分离，膜基吸收3种膜技术用于废气中挥发性有机化合物去除和回收的研究进展和工业应用现状。     

The city of San José's integrated waste management program: a case study for reaching high levels of diversion

The city of San José, California, USA, has a widely recognized integrated waste management program and is currently diverting close to 50% of its waste stream from landfill disposal. This paper describes the residential and commercial components of the city's waste management program. Information is presented on performance (e.g., types and quantities of materials that are collected, processed, and disposed of), customer service, and costs associated with the program. Received: October 4, 2000 / Accepted: February 15, 2001     

现代分离技术在环境分析中的应用

对样品进行预处理分离的主要目的是:①浓缩痕量污染物,降低最小检测浓度;②除去干扰物,提高测定的精确度和灵敏度;③通过化学衍生,提高被测物的灵敏度和选择性;④消除对分析系统有害的物质,使仪器保持良好稳定的运行状况。文章综合论述了固相萃取技术、固相微萃取技术、膜萃取技术、超临界流体萃取技术、毛细管电泳技术、加速溶剂萃取技术和微波萃取技术等现代分离技术在大庆油田环境分析中的应用现状以及分离技术的发展前景。     

CLASSIFICATION OF ENVIRONMENTAL HYDROLOGIC BEHAVIORS IN THE NORTHEASTERN UNITED STATES1

ABSTRACT: Environmental response to acidic deposition results from movement of water through the ecosystem. As a part of the environmental studies for acidic deposition sponsored by the U.S. Environmental Protection Agency (EPA), hydrologic classification based on regional baseflow properties was done. To obtain the amount of baseflow, a flow separation method was developed based on the division of streamflows into “baseflow” and “other” runoff sources. Because of the differences in the flow paths and exposure duration, the two components were assumed to be associated with distinct geo-chemical responses. Individual annual hydrographs were analyzed using 31 separation slopes to determine the amount of baseflow. A total of 1575 streamflow stations in the Northeastern U.S. were analyzed through the access of a long-term daily stream-flow data base. An interactive computer program was developed to obtain baseflow properties and other hydrologic characteristics of each station. The output from this analysis was used to perform cluster analysis to classify streamflow behaviors. The clustering output showed different regional boundaries than those currently used by the EPA for water quality studies.     

GROUND WATER FLOW AND RUNOFF IN A COASTAL PLAIN STREAM1

ABSTRACT: The quantity, seasonality, and sources of flow were analyzed for two segments of Four Mile Branch, a small stream on the Coastal Plain of South Carolina using data obtained from USGS gauging stations. Flows in the “upstream segment,” a 12.6-km² watershed comprising the head waters of Four Mile Branch, averaged 0.129 m³ s^?1 and showed a distinctly seasonal pattern, with maximum flows in February and March and minimum flows in September and October. Inflow to the “downstream segment,” a 2.2-km² watershed associated with the main channel, averaged 0.059 m³ s^?1 and showed no seasonal patterns. Discharges per unit area of watershed were greater for the downstream segment, 0.83 m³ per year per m² of land surface, than for the upstream segment, 0.32 m³ per year per m². The differences in discharge rates and seasonalities between the two segments reflect differences in aquifers supplying the different segments. Analyses of Streamflow by hydrograph separation and Streamflow partitioning methods indicated that greater than 90 percent of the flows in the upstream and downstream segments were due to ground water-driven base flows.     

絮凝－旋流分离工艺处理磷酸铵生产废水

磷酸生产废水经絮凝－旋流分离工艺处理后，再回用于生产过程，实现了磷酸生产废水的闭路循环，不仅回收了废水中的磷酸，还节约了大量工业用水。     

SCR反应器短直进口段混氨技术研究

摘要：OI^2-SCR技术根据流场适应型设计理论设计了喷氨装置；以“主动利用不均”代替传统的“单—尺度的平均化”理念进行喷氨操作，在SCR反应器短直进口段内实现了良好的NH3／NOx混合效果，进而解决了改造工程中常见的空间制约问题。同时，充分发挥了有限体积的催化剂的效能，在较低氨逃逸率的前提下，实现了较高的脱硝效率。