环境危机考验中国智慧

在保持经济高速增长的前提下．如何协调环境与发展之间的关系,已经成为中国和平崛起的一个重大课题。一方面是短短27年改革开放所取得的举世瞩目的经济成就．而另一方面则是主要污染物排放总量和生态破坏的趋势仍未得到有效遏止。更为严峻的是,电力短缺和对石油、矿产等资源的强劲需求严重威胁着中国的能源安全和资源保障。     

Physical,chemical and biological behaviour of fumigants on cottonseed

Fumigation is required to protect cottonseed in storage and pre-shipment from insect pests and/or microorganisms. Fumigation of cottonseed with carbon disulphide (CS₂), carbonyl sulphide (COS), ethanedinitrile (C₂N₂), ethyl formate (EF), methyl bromide (MB) and phosphine (PH₃) showed that >85% of the fumigants disappeared within 5?h of exposure. COS maintained >20?mg L^–1 for 24?h. After 1?day of aeration, 75%–85% of the absorbed COS and MB and 20%–40% of the absorbed CS₂, EF and PH₃ were released from treated cottonseed. The fumigant residues were reduced by 80% for COS, 50% for EF or MB and 25% for CS₂ after 1?day of aeration. After 13?days of aeration, fumigant residues were reduced by 95% for MB, 65% for EF, 55% for CS₂ and to natural levels in the COS residue. Carbon disulphide, COS, PH₃, EF and C₂N₂ had no effect on the germination of cottonseed, but germination was reduced to 50% by MB. COS has potential as a fumigant for control of insect pests in cottonseed because it dissipates quickly and does not negatively impact germination. On the other hand, MB appears to strongly absorb and requires an extended period for residues to dissipate, and it negatively impacts germination.     

Assessment of long-range transport potential of polychlorinated Naphthalenes based on three-dimensional QSAR models

Environmental Science and Pollution Research - Experimentally determined octanol–air partition coefficients (K OA) for 43 polychlorinated naphthalene (PCN) congeners and experimentally...     

城市排水系统在水污染防治中的作用

本文介绍了城市排水系统的组成、分类和功能,通过介绍目前国内外城市的排水体制,对比了合流制和分流制的优缺点,并重点对雨污分流排水系统存在的问题、改造措施以及雨污分流效益分析进行了详细的介绍,最后指出城市排水系统在水污染防治中的作用和发展前景。     

孔结构和表面化学性质对活性炭吸附性能的影响

测定了室温下3种活性炭(GAC-C、GAC-P和GAC-T)对CO2、CH4和N2的吸附性能,并对颗粒活性炭孔结构和表面化学性质进行了表征,探讨了孔结构和表面化学性质对活性炭吸附性能的影响。结果表明:由于吸附机理、孔结构、表面含氧官能团和分子极性的差异,CO2、CH4和N2在活性炭上的饱和吸附量和吸附常数的关系为CO2>CH4>N2;CH4和N2的饱和吸附量主要受活性炭微孔孔容的影响,N2和CO2饱和吸附量的差异分别是由0.572～2.0 nm的微孔和0.4～6 nm的孔引起的;CH4吸附常数主要受较大中孔和大孔影响,N2吸附常数与微孔密切相关,大孔对CO2的吸附常数影响最大。     

用我国各地实测资料拟合的高架源大气扩散参数

采用Ｂｒｉｇｇｓ大气扩散参数的一般式（σ＝ａｘ（１＋βｘ）＾－１／２）将国内一些实测大气扩散参数组织拟合,求出高架源大气扩散参数。拟合大气扩散参数经与ＧＢ３８４０－９１和Ｂｒｉｇｇｓ大气扩散参数比较结果合理,一般适用于１００ｍ 以上的高架源扩散情况。因此在大气扩散计算中有实用价值。     

N2O and NH3 emissions from a bioreactor landfill operated under limited aerobic degradation conditions

The combination of leachate recirculation and aeration to landfill may be an efficient way for in-situ nitrogen removal. However, nitrogenous substances contained in the landfill layer are concomitantly transformed into N2O and NH3, leading to increased emissions into the atmosphere. In the present study, the emissions of N2O and NH3 were measured under conditions of fresh or partially stabilized refuse with or without leachate recirculation or intermittent aeration. The results showed that the largest N2O emission (12.4 mg-N/L of the column) was observed in the aerated column loaded with partially stabilized refuse and recycled with the leachate of low C/N ratio; while less than 0.33 mg-N/L of the column was produced in the other columns. N2O production was positively correlated with the prolonged aerobic time and negatively related with the C/N ratio in the recycled leachate. NH3 volatilization increased with enhanced gas flow and concentration of free ammonia in the leachate, and the highest cumulative volatilization quantity was 1.7 mg-N/L of the column.     

Mechanism of ball milled activated carbon in improving the desalination performance of flow- and fixed-electrode in capacitive deionization desalination

● BACs were used in electrode material for both fixed and flowing electrodes. ● ASAR of FCDI and MCDI was improved by 134% and 17%, respectively. ● ENRS of FCDI and MCDI was improved by 21% and 53%. ● The mechanism of improving desalination performance was analyzed in detail. Capacitive deionization (CDI) is a novel electrochemical water-treatment technology. The electrode material is an important factor in determining the ion separation efficiency. Activated carbon (AC) is extensively used as an electrode material; however, there are still many deficiencies in commercial AC. We adopted a simple processing method, ball milling, to produce ball milled AC (BAC) to improve the physical and electrochemical properties of the original AC and desalination efficiency. The BAC was characterized in detail and used for membrane capacitive deionization (MCDI) and flow-electrode capacitive deionization (FCDI) electrode materials. After ball milling, the BAC obtained excellent pore structures and favorable surfaces for ion adsorption, which reduced electron transfer resistance and ion migration resistance in the electrodes. The optimal ball-milling time was 10 h. However, the improved effects of BAC as fixed electrodes and flow electrodes are different and the related mechanisms are discussed in detail. The average salt adsorption rates (ASAR) of FCDI and MCDI were improved by 134% and 17%, respectively, and the energy-normalized removal salt (ENRS) were enhanced by 21% and 53%, respectively. We believe that simple, low-cost, and environmentally friendly BAC has great potential for practical engineering applications of FCDI and MCDI.     

亚甲基蓝溶液的光催化脱色及降解

以高压汞灯为光源,在自ＴｉＯ２纳米粉末悬浮体系内,以在蓝溶液光催化降解脱色反应为模型,研究了其脱色降解动力学及其影响因素。研究表明,亚甲基蓝光催化反应动力学常数为４．５３μｍｏｌ／Ｌ．ｍｉｎ．吸附常数为３３．５５Ｌ／ｍｍｏｌ;随着ｐＨ值的上升以及Ｈ２Ｏ２的加入,其脱色降解速率加快。