多铵复合盐分离工艺热工优化研究

多铵复合盐分离方法是利用纯物理的方法对焦炉煤气进行处理并分离出相应的盐类,在冷却结晶的过程中,从提高物料终冷温度的角度,对该方法进行相应的节能分析。一方面可以为当前生产提供节能改造依据,另一方面可以为该方法在大规模生产中的应用提供理论依据。     

13X分子筛联合强化混凝对微污染水中氨氮去除试验研究

采用0.500,0.200,0.074 mm 3种粒径的13X分子筛联合聚合氯化铝(PAC)去除水中氨氮,比较4种不同投加方式对水中氨氮的去除情况,利用3种强化除浊方案解决因投加分子筛而带来的浊度影响。粒径为0.200 mm的分子筛对水中氨氮去除效果优于其他两种粒径,在投加量为2.5g/L时,氨氮去除率可达76.6%。采用先投加分子筛后投加混凝剂的投加方式优于其他投加方式。缩短快速搅拌时间可以有效去除因投加分子筛带来的浊度增大问题,最大去除率可达96.3%,且对水中氨氮的去除效果影响不大。分子筛联合强化混凝对水中氨氮去除效果明显,粒径不同,去除效果不同,投加方式对于处理效果差别明显,通过缩短快速搅拌的时间,可以有效解决因投加分子筛带来的浊度增加的问题。     

松花江沉积物汞的新变化:分布、演化与现状及潜在生态风险评估

分析了第二松花江中下游和松花江干流表层沉积物中总汞的含量水平和分布规律,同期采集了牡丹江、黑龙江沉积物作为对照,并采用地累积指数法以及潜在生态风险指数法,初步评价了松花江沉积物中汞的污染状况和潜在的生态风险.结果表明,松花江10个断面沉积物总汞含量范围0.029~1.317 mg·kg~(-1),均值0.183 mg·kg~(-1).第二松花江3个典型断面沉积物总汞含量均显著高于松花江干流的7个典型断面(P0.05).地累积指数(Igeo)及潜在生态风险指数(Er)表明第二松花江3个典型断面沉积物汞污染程度为偏中度至重度污染,存在高度生态风险;松花江干流7个典型断面为轻度污染,具有较高生态风险.近10年松花江沉积物汞含量变化及空间分布结果显示,现阶段第二松花江沉积物汞含量有所下降,但松花江干流个别江段沉积物汞含量有所上升,应引起重视.     

浅析城市化进程中产业集群的可持续发展问题

产业集群的可持续发展是中国城市化进程中的一个重要问题,本文从中国产业集群的发展现状入手,揭示产业集群的产生机制与类型,分析产业集群与城市化和可持续发展的关系,剖析产业集群实现可持续发展的模式与动力机制,指出中国城市化进程中产业集群可持续发展存在的三大问题,建议将城市化和可持续发展贯穿于产业集群发展中,实现良性发展。     

微细粉尘在静电除尘器中的运动状态分析

为了分析线板静电除尘器中的电流体动力学过程,利用FEMLAB软件对电势泊松方程和电流连续性方程进行联立耦合求解,得到线板放电过程中电场强度分布,估算电晕外区不同粒径粉尘所受到的电场力;利用Fluent软件采用动力风模拟离子风的方法计算放电通道的流场分布,得到空间速度分布图,并分析了气流扰动对颗粒物的运动状态的影响。结果表明:利用动力风模拟离子风流场的分布符合放电环境下离子风的形成过程,该方法可以简化复杂的电流体问题。不同粒径粉尘在电场空间中的运动受到的电场力、离子风力随粒径大小不同而变化很大。研究结果对静电除尘器的改造和设计有很重要的指导意义。     

Managing water for life

Water is essential for life. In spite of the entire engineering infrastructure devoted to the treatment, regulation and beneficial uses of water, occasionally sufficient quantities and qualities of water become scarce. When this happens, just how do we decide how much less water to allocate to all of us and the activities we engage in to sustain and enhance our quality of life? This paper addresses some of the complexities of answering such a question, especially as society increasingly recognizes the need to provide flow regimes that will maintain healthy aquatic and floodplain ecosystems that also impact the economic, physical and even the spiritual quality of our lives. For we depend on these ecosystems to sustain our wellbeing. We are indeed a part of our ecosystems. We depend upon on aquatic ecosystems to moderate river flow qualities and quantities, reduce the extremes of floods and droughts, reduce erosion, detoxify and decompose waterborne wastes, generate and preserve flood plain soils and renew their fertility, regulate disease carrying organisms, and to enhance recreational benefits of river systems. This question of deciding just how much water to allocate to each water user and for the maintenance of viable aquatic ecosystems, especially when there is not enough, is a complex, and largely political, issue. This issue is likely to become even more complex and political and contentious in the future as populations grow and as water quantities and their qualities become even more variable and uncertain.     

An approach to calculating allowable watershed pollutant loads

To improve the management of discharge pollutants loads in the reservoirs’ watershed, an approach of the allowable pollutants loads calculation and its allocation, based on the water environment model, was proposed. Establishment of the approach framework was described at first. Under the guidance of this framework, two major steps were as follows: modeling and scenario analysis were involved and should be applied to support the decision of discharge loads management; Environmental Fluid Dynamic Code (EFDC) model was selected as the kernel model in this framework. In modeling step, spatial discretization for establishing cell map in model, data preprocessing, parameter calibration and uncertainty analysis (which is considered as the significantly relevant factor of the margin of safety (MOS)), were conducted. As a result of the research, the model-based approach presented as a combination of estimation and precise calculation, which contributed to scenario analysis step. Some integrated modules, such as scenario simulation, result analysis and plan optimization were implemented as cycles in the scenario analysis. Finally, allowable pollutant loads under various conditions were calculated. The Chaihe Reservoir in Liaoning Province, China was used as a case study for an application of the approach described above. Results of the Chaihe reservoir water quality simulation, show good agreement with field data and demonstrated that the approach used in the present study provide an efficient and appropriate methodology for pollutant load allocation.     

不同喷油策略对柴油-四氢呋喃混合燃料燃烧和排放的影响

为了解决环境污染和能源短缺等问题,本研究针对四氢呋喃作为一种含氧替代燃料展开研究.在一台六缸增压柴油机上开展了不同喷油策略下四氢呋喃和柴油混合燃料对柴油机燃烧和排放的影响研究,所用3种燃料分别为：纯柴油、5%四氢呋喃和95%柴油、15%四氢呋喃和85%柴油混合燃料（混合比例均为体积比）,以原机国六脉谱图为基准调节主喷时刻和喷油压力.结果表明,添加5%四氢呋喃使燃油消耗率增加,有效热效率降低,当加入15%四氢呋喃后燃油消耗率进一步升高,有效热效率相比于添加5%四氢呋喃有一定程度改善,但仍低于纯柴油燃料;当喷油压力高于100 MPa时,混合燃料的燃油消耗率和有效热效率随喷油压力的提高基本保持不变.四氢呋喃加入使小负荷下NO_x、CO和HC排放增加;大负荷下使NO_x排放增加,CO和HC排放逐渐降低,各工况下的碳烟排放均降低.由此可见,柴油-四氢呋喃混合燃料的有效热效率相比于纯柴油降低了1%~2%,加入四氢呋喃可有效降低碳烟排放和改善部分工况下的气体污染物排放.     

烧结烟气活性炭脱硫研究

研究了烧结烟气脱硫剂活性炭的反应原理。根据烧结厂烟气参数,在活性炭烧结烟气脱硫试验装置中,研究了活性炭粒度,烟气温度及活性炭质量对烧结烟气脱硫率的影响。研究结果表明:利用活性炭脱硫效率可以达到95.5%以上,为进一步工业应用奠定了基础。