环境影响评价课程教学的现状与改进思路

环境影响评价课程在环境类专业教学中具有重要地位。不断发展的环境保护法律法规以及环境影响评价规范、导则和标准对环境影响评价的教学提出了更高的要求。对目前环境影响评价课程教学中存在的教材过时、缺乏深度、与实际应用脱节、教学中无侧重点等现状进行了总结,并提出了相应的改进思路,包括及时更新教材、增加教学难度与广度、与环境影响评价工程师职业资格考试紧密结合、开展环境影响评价特色教学等,为环境影响评价课程教学明确了今后努力的方向。     

添加剂对污泥厌氧消化性能的影响

在间歇培养条件下,研究了还原型辅酶Ⅱ（NADPH）、乙酰辅酶A（Acetyl Co A）和对氨基苯甲酸（PABA）3种添加剂对污泥厌氧消化性能的影响.结果表明,3种微生物活性促进剂均能促进污泥厌氧消化产气.其中,NADPH的促进效果最为显著,消化第35 d,产甲烷量比对照组高15.90%.在污泥含固率为3%、未调初始pH（pH=6.7）和温度35℃的厌氧消化条件下,NADPH的最佳添加量为50 mg.L-1,消化第36 d,污泥累积产甲烷量127.13 mL.g-1VSS.在含固率3%、初始pH=8.5、温度55℃和NADPH添加量为50 mg.L-1的工艺条件下,污泥厌氧产气效果最佳,消化第30 d时累积产甲烷量达158.02 mL.g-1VSS.     

Experimental research on displacing coal bed methane with supercritical CO2

The high-gas and low-permeability are the common problems of China coal mine, which restrain the mining of coal-seam gas resources safely and efficiently. Hence, to solve the problem of low permeability of coal seam, an experimental system was set up and experimental research was conducted to investigate the effect of the displacement of methane by injecting supercritical CO₂ into coal samples. The experimental results indicated that, the extraction effect of supercritical CO₂ changes the coal’s porosity, and broadens the seepage channel for methane. Thus, the methane could be desorbed effectively from the coal matrix, and flow through more cracks at higher speed.     

Cadmium pollution enhanced ozone damage to winter wheat: biochemical and physiological evidences

Combined e ects of ozone (O3) and cadmium (Cd) on growth and physiology of winter wheat (Triticum aestivum L. cv. JM22) were determined. Wheat plants were grown without or with Cd and exposed to charcoal-filtered air (< 10 ppb O3) or elevated O3 (80 5 ppb, 7 hr/day) for 20 days. Results showed that O3 considerably depressed light saturated net photosynthetic rate (–20%), stomatal conductance (–33%), chlorophyll content (–33%), and total biomass (–29%) without Cd. The corresponding decreases were further enhanced by 45%, 56%, 60% and 59%, respectively with Cd, indicating a synergistic e ect of O3 and Cd on wheat. Ozone significantly increased the activity of superoxide dismutase (46%), catalase (48%) and peroxidase (56%). However, great increases in malondialdehyde (MDA) content (2.55 folds) and intercellular CO2 concentration (1.13 folds) were noted in O3+Cd treatment compared to control. Our findings demonstrated that the increased anti-oxidative activities in wheat plants exposed to O3+Cd might not be enough to overcome the adverse e ects of the combination of both pollutants as evidenced by further increase in MDA content, which is an important indicator of lipid peroxidation. Precise prediction model on O3 damages to crop should be conducted to ensure agricultural production security by considering environmental constraints in an agricultural system in peri-urban regions.     

16种农药对东亚小花蝽的生态风险评估

东亚小花蝽是我国北方林木、果园和农田的优势天敌昆虫。为评估常用化学农药对东亚小花蝽的毒害作用,首次测定了16种田间常用化学农药对东亚小花蝽的24 h急性接触毒性,并进行了生态风险评估。结果表明所试除草剂、杀菌剂和杀虫剂中的吡蚜酮对东亚小花蝽较为安全,3倍田间最高推荐剂量下的校正死亡率低于33.33%。阿维菌素、甲氨基阿维菌素苯甲酸盐、吡虫啉和啶虫脒对东亚小花蝽的半数致死浓度LC0分别为36.567、15.798、4.992和4.487 mg a.i.·L~(-1)5,农田内风险可接受。噻虫嗪、联苯菊酯和呋虫胺对东亚小花蝽的LC_(50)分别为0. 002、0. 080和0. 968 mg a. i.·L~(-1),农田内危害商值分别为3 976.36、69.03和16.93,在农田内对东亚小花蝽造成的风险均不可接受。本研究的结果有助于合理施用化学农药以保护和利用东亚小花蝽。     

洗柱废液的分析与再利用

本文通过对医药ＰＧ０５生产过程中产生的洗柱废液进行气相色谱分析，建立了洗柱废液二氯甲烷、甲醇的色谱分析条件，并且进行定性、定量的分析，从而达到重新利用的目的．该方法已在东北制药总厂三分厂应用．     

物种敏感度分布(SSD)方法在农药环境风险评估中的应用

物种敏感度分布法(Species Sensitive Distribution,SSD)能够依据不同物种对农药等胁迫因素的敏感度服从一定的累积概率分布,以统计形式将多种非靶标物种的实验室数据进行汇总分析,获得物种对农药的敏感度差异,作为效应评估指标应用于农药风险评估。本文综述了SSD概念、方法原理、国内外研究和应用进展,并以毒死蜱为例进行了数据分析。由此建议继续关注国际上对SSD及更复杂模型模拟研究进展,以便应用于我国农药环境风险评估,推动我国农药管理的持续发展。     

基于N-GAS模型的某沙发厂火灾烟气中HCN分布及烟气毒性分析

引入湍流涡耗散概念(EDC)模型,以昆明市某沙发工厂火灾,获得了含有HCN的火灾烟气浓度的时空分布,采用N-GAS模型来评价火灾烟气综合毒性并讨论HCN对于多组分烟气耦合毒性的影响。为了讨论HCN对火灾烟气毒性的影响,本文进行了A、B两组模拟计算,A组烟气组分不包含HCN,B组烟气组分包含HCN。将A、B两组的模拟结果进行对比,验证了引入EDC模型、讨论HCN对多组分火灾烟气毒性的影响具有可行性。基于N-GAS模型的计算结果,说明了HCN气体对于多组分烟气的耦合毒性的影响不可忽略,有时甚至起着至关重要的作用。     

热处理和pH调节协同作用下污泥调质过程研究

采用单因素实验和正交实验相结合的方式,考察了不同实验条件参数（温度、pH和反应时间）下,热处理和pH调节对污泥细胞溶出过程的影响。结果表明,污泥溶解性化学需氧量（SCOD）与反应温度、溶液pH、反应时间成正相关,其中pH对SCOD的影响最为显著,反应时间对其影响最小。污泥溶胞的最优条件：反应温度120℃,pH=11,反应时间为15 min,经过处理,SCOD可达14 810 mg/L,与总化学需氧量（TCOD）之比为49.29%,总有机碳（TOC）达4 560 mg/L,总氮（TN）则增加27%,总悬浮固体（TSS）和挥发性悬浮固体（VSS）去除率分别达22.85%和40.93%。热碱处理后污泥上清液分子量分布（MWD）状况结果显示：〉1 000 KDa MW物质含量随pH和温度的增加而增加,当pH=11时,该部分物质可从原污泥的20.94%增加到31.70%;当温度为120℃时,该部分物质可达49.83%。