基于结构参数响应的内循环流化床流体特性优化数值模拟

流化床是一种结构复杂而能量转化高效的反应器型式,为了实现系统化的内循环流化床优化设计,利用欧拉-欧拉双流体模型构建了不同结构的CFD流化床模型,在分别改变高径比、导流筒与反应器的直径比和底隙高度3个结构因素的情况下,考察流化床内全流场、局部流场、液相运动速度及气含率等气液两相流的响应特性,分析结构因素及操作因素对流体运动的内在影响,阐明工程优化设计的方向.数值模拟结果表明:高径比主要影响气液流动型态,低高径比时容易出现漩涡和返混,工程中应采用导流内构件并重视气体分布装置的合理设计;导流筒与反应器的直径比主要影响液体循环速度,存在一个合理的区间,考虑流动速度与气含率,流化床直径比可取0.6～0.8,最佳取值为0.7;底隙高度影响流化床底泥区的流体运动,应约等于流化床下降区的缝隙长度.CFD模拟可作为污染控制技术工业放大和优化设计的辅助工具.     

Microbial community structures in an integrated two-phase anaerobic bioreactor fed by fruit vegetable wastes and wheat straw

The microbial community structures in an integrated two-phase anaerobic reactor（ITPAR）were investigated by 16 S r DNA clone library technology. The 75 L reactor was designed with a 25 L rotating acidogenic unit at the top and a 50 L conventional upflow methanogenic unit at the bottom, with a recirculation connected to the two units. The reactor had been operated for 21 stages to co-digest fruit/vegetable wastes and wheat straw, which showed a very good biogas production and decomposition of cellulosic materials. The results showed that many kinds of cellulose and glycan decomposition bacteria related with Bacteroidales,Clostridiales and Syntrophobacterales were dominated in the reactor, with more bacteria community diversities in the acidogenic unit. The methanogens were mostly related with Methanosaeta, Methanosarcina, Methanoculleus, Methanospirillum and Methanobacterium; the predominating genus Methanosaeta, accounting for 40.5%, 54.2%, 73.6% and 78.7% in four samples from top to bottom, indicated a major methanogenesis pathway by acetoclastic methanogenesis in the methanogenic unit. The beta diversity indexes illustrated a more similar distribution of bacterial communities than that of methanogens between acidogenic unit and methanogenic unit. The differentiation of methanogenic community composition in two phases, as well as pH values and volatile fatty acid（VFA） concentrations confirmed the phase separation of the ITPAR. Overall, the results of this study demonstrated that the special designing of ITPAR maintained a sufficient number of methanogens, more diverse communities and stronger syntrophic associations among microorganisms, which made two phase anaerobic digestion of cellulosic materials more efficient.     

废焦油沥青的回收利用研究

采用混合乳化剂和超声乳化法 ,以炭素厂废焦油沥青为原料生产沥青乳化燃料。分别考察了调配剂用量、不同HLB值乳化剂、乳化剂用量、加水量等条件对乳化过程的影响 ,并对乳化燃料的粘度和稳定性进行了测定 ,制得的沥青乳化燃料 4 0℃粘度仅为 36 0mPa·s,在常温下放置 7d无水析出 ,放置一个月后稳定性良好 ,使废焦油沥青得到了合理的回收利用     

我国电子废弃物的管理现状及发展方向

全球日益严重的电子废弃物污染已直接或间接危害到人类的生存和发展,目前发达国家都已制定了电子废弃物法律法规和管理体系,我国电子废弃物管理起步较晚,在借鉴国外先进经验的同时,更应结合本国国情,提高公众参与意识、建立健全电子废弃物回收处置网络,疏堵结合,逐步完善电子废弃物法律体系和管理制度。     

Tributyltin exposure causes brain damage in Sebastiscus marmoratus

Tributyltin (TBT) is a ubiquitous marine environmental contaminant characterized primarily by its reproductive toxicity. However, the neurotoxic effect of TBT has not been extensively described, especially in fishes which have a high number of species in the marine environment. This study was conducted to investigate the neurotoxic effects of TBT at environmental levels (1, 10, and 100ngl(-1)) on female Sebastiscus marmoratus. The results showed that TBT exposure induced apoptosis in brain cells of three regions including the pallial areas of the telencephalon, the granular layer of the optic tectum, and the cerebellum. In addition, the increase of reactive oxygen species and nitric oxide levels, and the decrease of Na(+)/K(+)-ATPase activity were found in the brain. The results strongly indicated neurotoxicity of TBT to fishes. According to the regions in which apoptosis was found in the brain, TBT exposure might influence the schooling, sensory and motorial functions of fishes.     

农田氮素淋溶损失影响因素及防治对策研究

农田氮素损失是造成农业非点源污染的主要原因之一,其中由于大量施用氮肥引起的土壤氮素淋溶损失又是农田氮素损失的重要途径.因此,农田氮素损失研究已成为国际土壤化学和环境科学领域研究的热点问题之一.根据近年来国内外在农田氮素运移领域的研究成果,从降雨和灌溉、施肥状况、土壤性质、耕作方式、作物种类和种植方式等方面分析了影响农田氮素淋溶损失的主要因素,提出了改进施肥方式、优化氮肥管理、推广缓释氮肥以及改善土地利用方式等提高氮肥利用率、减小氮素淋溶损失的防治对策.     

Realizing stable operation of anaerobic ammonia oxidation at low temperatures treating low strength synthetic wastewater

The low activity of Anammox bacteria at low temperatures and competition from nitrite oxidation bacteria(NOB) when treating low strength wastewater have been major bottlenecks in implementing Anammox in mainstream wastewater treatment. By intermittent high strength feeding(IHSF) and stepwise temperature reduction, stable operation of a granular Anammox reactor was realized at low temperatures(down to 15°C) for 28 days when treating low strength synthetic wastewater. The nitrogen loading rate reached 1.23–1.34 kgN/m~3/day,and the total nitrogen removal rate reached 0.71–0.98 kgN/m~3/day. The IHSF enriched the Anammox sludge in high strength cycles and compensated for sludge loss in low strength cycles, and the high concentration of ammonium in high strength cycles inhibited NOB. The 16 SrRNA gene sequencing results revealed that Candidatus Kuenenia was predominant in the reactor at low temperatures.     

造纸废水处理人工湿地系统规划研究

造纸废水是最难治理的废水之一，现在处理技术上并没有得到最大突破；但在土地资源相对比较丰富的地区，通过对处理废水人工湿地系统的合理规划与设计，可以实现污染的零排放，并最终使污水资源化。本文对射阳双灯纸厂造纸废水处理人工湿地系统进行研究，提出合理的废水处理工艺流程与设计，以期达到经济发展与环境保护的协同。     

地质环境约束下三峡库区经济可持续发展研究

三峡库区地质环境呈现地质灾害频发、水体污染严重、易产生崩塌与滑坡体、地方病患者比率较高等特征,通过经济、社会、环境三条路径约束着库区经济可持续发展,对经济子系统的约束主要表现在制约库区经济总体发展、对经济带来波动性影响,对社会子系统的约束主要体现在对人类生命财产安全、基础设施和工程的破坏,对环境子系统中水环境、岩土环境的约束等,应采取增加防治投入、合理开发资源、减少环境污染、加强水土治理等措施来促进库区经济的可持续发展。