等离子体技术应用于气相污染物治理综述

近年来利用等离子体技术对气态污染物的氧化分解研究受到了广泛的关注.介绍了等离子体概念、分类及产生方法,简述了非平衡等离子体技术对气体污染物的降解原理,较全面地介绍了等离子体技术在脱硫、脱硝以及降解挥发性有机物(VOCs)等方面的研究.最后指出了今后等离子体处理废气的应用研究方向.     

催化湿式氧化法处理吡虫啉农药废水的优化工艺条件

采用催化湿式氧化技术在2 L高压反应釜中处理吡虫啉农药废水,分别以复合金属氧化物Cu/Mn、Cu/Ce、Ce/Mn及Ce/Ag为催化剂来考察对废水COD去除率的影响.发现Cu/Ce、Ce/Mn、Cu/Mn催化剂有较高的催化活性;Ce/Mn催化剂最稳定;Ce/Ag催化剂的Ag溶出量很大.选用性能良好的Ce/Mn催化剂,考察了反应温度、反应压力和废水的初始pH对催化湿式氧化效果的影响.结果表明,催化剂的加入可使COD去除率提高37%左右,同时处理后废水的BOD5/COD从0.19提高到0.65以上;当反应温度为150～230 ℃时,处理效率随温度升高明显增加;总压4.8 MPa、氧分压1.2～2.4 MPa时,适当增加氧分压亦能提高氧化效率;废水初始pH对氧化效果影响不大,但对催化剂的稳定性有影响.优化工艺条件最终为:催化剂为Ce/Mn;温度190 ℃;氧分压1.6 MPa;进水pH为6.21;反应时间120 min.     

Evaluating local air pollution control administration efectiveness

Data were collected on the Los Angeles County Air Pollution Control District (APCD) and on Los Angeles air pollution and its effects. The information collected was used to define the air pollution control system in terms of inputs to the agency, agency actions and accomplishments, and outputs from the agency. It was further analyzed to determine which parameters of the system could be quantitatively assessed and how. Quantitative measures were normalized to facilitate comparisons between different time periods (and to allow comparisons between cities, regions, states, and nations). Preparations are underway for using these data to assess the severity of the air pollution problem in Los Angeles, to determine the overall effectiveness of the APCD, and to evaluate its administrative operation.     

Pattern recognition methods in air pollution control

Pattern recognition methods are used to predict future developments in terms of historical data by comparing graphs of atmospheric pollution concentrations. The method is then applied to a practical example of crisis prediction for CO concentration.     

A systems approach to air pollution control

A preliminary study for the systematic investigation and the control of the pollution of the atmosphere over a wide region is considered and discussed.     

生物过滤技术在大气污染控制中的应用

生物过滤技术是一项新兴的废气污染治理技术 ,正在逐步得到应用。本文主要介绍了生物过滤技术处理废气的使用范围、操作的基本原理及目前的应用情况 ,并且预测今后的发展方向。     

A model for interprovincial air pollution control based on futures prices

Based on the current status of research on tradable emission rights futures, this paper introduces basic market-related assumptions for China’s interprovincial air pollution control problem. The authors construct an interprovincial air pollution control model based on futures prices: the model calculated the spot price of emission rights using a classic futures pricing formula, and determined the identities of buyers and sellers for various provinces according to a partitioning criterion, thereby revealing five trading markets. To ensure interprovincial cooperation, a rational allocation result for the benefits from this model was achieved using the Shapley value method to construct an optimal reduction program and to determine the optimal annual decisions for each province. Finally, the Beijing–Tianjin–Hebei region was used as a case study, as this region has recently experienced serious pollution. It was found that the model reduced the overall cost of reducing SO₂ pollution. Moreover, each province can lower its cost for air pollution reduction, resulting in a win–win solution. Adopting the model would therefore enhance regional cooperation and promote the control of China’s air pollution.

Implications: The authors construct an interprovincial air pollution control model based on futures prices. The Shapley value method is used to rationally allocate the cooperation benefit. Interprovincial pollution control reduces the overall reduction cost of SO₂. Each province can lower its cost for air pollution reduction by cooperation.     

Biofiltration: an innovative air pollution control technology for VOC emissions

Biofiltration is a relatively recent air pollution control (APC) technology in which off-gases containing biodegradable volatile organic compounds (VOC) or inorganic air toxics are vented through a biologically active material. This technology has been successfully applied in Germany and The Netherlands in many full-scale applications to control odors, VOC and air toxic emissions from a wide range of industrial and public sector sources. Control efficiencies of more than 90 percent have been achieved for many common air pollutants. Due to lower operating costs, biofiltration can provide significant economic advantages over other APC technologies if applied to off-gases that contain readily biodegradable pollutants in low concentrations. Environmental benefits include low energy requirements and the avoidance of cross media transfer of pollutants. This paper reviews the history and current status of biofiltration, outlines its underlying scientific and engineering principles, and discusses the applicability of biofilters for a wide range of specific emission sources.