包装箱用碳纤维增强复合材料贮存寿命研究

目的研究碳纤维增强复合材料贮存条件下的性能变化趋势和寿命评估。方法对碳纤维增强复合材料开展四个不同温度条件下的热氧老化试验,按试验周期定期取样开展冲击性能测试,对试验数据采用寿命预估方法进行处理,对材料性能进行预估。结果通过数据计算分别得到我国热带海洋、干热沙漠等典型气候条件下的碳纤维增强复合材料贮存寿命分别为17.21~35.89年。结论碳纤维增强复合材料具有较好的贮存性能,在较为严酷的热带海洋气候和给定的失效判据条件下,寿命预计为17.21年。试验和数据处理方法可以较好地预计材料的性能变化趋势和开展寿命评估。     

鄂东鸭儿湖地区大气中有机氯农药特征及土-气交换

采用聚氨酯泡沫-被动采样法（PUF-PAS）采集鸭儿湖地区大气样,研究典型污染源地区大气中有机氯农药（OCPs）组成、来源及土-气交换现状。鸭儿湖地区大气中OCPs主要组成为艾氏剂（Aldrin）、滴滴涕（DDTs）、六六六（HCHs）、六氯苯（HCB）、甲氧滴滴涕（Methoxychlor）和a-硫丹（α-Endosulfan）,约占OCPs总量的84%。较高浓度Aldrin（平均浓度为161.25 pg/m³）广泛存在应引起高度重视。HCHs（平均浓度为89.64 pg/m³）和DDTs（平均浓度为92.29 pg/m³）普遍存在且含量高,污染程度比较明显。HCHs异构体中β-HCH高于α-HCH,远远高于γ-HCH和δ-HCH,说明HCHs经过长期降解已逐渐稳定下来;来源分析推测存在工业HCHs的使用或者受大气长距离传输影响。DDTs在各点位分布明显不同于HCHs,且各点位DDTs的六种组成均存在很大差别,可能由于点位地理位置以及农药使用情况导致;来源分析推测大气中DDTs主要来自历史残留。鸭儿湖地区OCPs土气交换研究表明,HCHs主要表现为从大气向土壤中沉降;DDTs在大多数点位源于土壤中历史残留的挥发,部分点位受到大气长距离传输影响。     

用液相催化法和脱硫除尘器脱除烟气中SO_2

在由旋风水膜和两块旋流塔板组成的处理气量为７５０ｍ￣３／ｈ的二级脱硫除尘器中，进行了用含催化剂Ｍｎ￣（２＋）的水溶液吸收ＳＯ_２的扩大试验。结果表明，在确定的条件下，脱硫率达到７３％，板效率为０．２５～０．２８。在同一设备中同时完成除尘与脱硫过程，设备投资少；以水为吸收剂，运行费用低；中性条件下吸收，长期运转不结垢，可靠性高。     

曲面零件在拉深过程中内皱时刻及影响因素

进一步推导了曲面零件悬空区上的应力分布及临界失稳公式。然后通过计算机编程 ,求解了临界失稳方程 ,得到了拉深系数、相对锥顶半径、相对圆角半径、材料相对厚度与临界失稳时刻间的关系曲线 ,并对曲线变化的规律进行了分析。     

有机液体固定顶罐储存的污染物排放与控制

以石油类储存为例，通过其在固定顶罐储存、装卸的呼吸排放和工作排放的计算分析，提出控制有机液体排放的工程技术措施和管理措施。     

PASS42在微污染饮用水原水处理中的应用研究

:用所研制的混凝剂聚硅硫酸铝对珠江中下游河段原水进行处理 ,改变混凝水力条件 ,对其混凝过程进行了研究并作了经济分析     

Land use as a mitigation strategy for the water-quality impacts of global warming: a scenario analysis on two watersheds in the Ohio River Basin

This study uses an integrative approach to study the water-quality impacts of future global climate and land-use changes. In this study, changing land-use types was used as a mitigation strategy to reduce the adverse impacts of global climate change on water resources. The climate scenarios were based on projections made by the Intergovernmental Panel on Climate Change (IPCC) and the United Kingdom Hadley Centre's climate model (HadCM2). The Thornthwaite water-balance model was coupled with a land-use model (L-THIA) to investigate the hydrologic effects of future climate and land-use changes in the Ohio River Basin. The land-use model is based on the Soil Conservation Service's curve-number method. It uses the curve number, an index of land use and soil type, to calculate runoff volume and depth. The ArcView programming language, Avenue, was used to integrate the two models into a geographic information system (GIS). An output of the water-balance model, daily precipitation values adjusted for potential evapotranspiration, served as one of the inputs into the land-use model. Two watersheds were used in the present study: one containing the city of Cincinnati on the main stem of the Ohio River, and one containing the city of Columbus on a tributary of the Ohio River. These cities represent two major metropolitan areas in the Ohio River Basin with different land uses experiencing different rates of population growth. The projected hypothetical land-use changes were based on linear extrapolations of current population data. Results of the analyses indicate that conversion from agricultural land use to low-density residential land use may decrease the amount of surface runoff. The land-use practices which generate the least amount of runoff are forest, low-density residential, and agriculture; whereas high-density residential and commercial land-use types produce the highest runoff. The hydrologic soil type present was also an important factor in determining the amount of runoff and non-point-source pollution. A runoff-depth matrix and total nitrogen matrix were created for Cincinnati and Columbus to describe possible land-use mitigation measures in response to global climate change. The differences in Cincinnati and Columbus were due to differences in geographic location, air temperature, and total runoff. The results of this study may be useful to planners and policy makers for defining the possible impacts of future global climate and land-use changes on water resources.     

Technological system for sustainable development of Chinese agriculture

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ASM1中废水和污泥组分浓度的测定方法研究

对呼吸计量法应用于校准ASM1作了简明的阐述。在呼吸速率与模型组分关系的基础上,介绍了ASM1中废水与污泥各组分浓度的测定方法,并指出模型组分细化的意义。