生物吸附/MBR/硫铁自养反硝化组合工艺运行特性及蛋白质源污泥增量研究

为实现污水处理的深度脱氮除磷及蛋白质源污泥增量,进行了生物吸附/MBR/硫铁自养反硝化组合工艺处理城镇污水的试验研究.结果表明,生物吸附池可以快速富集进水中的大部分有机物,COD平均去除率为55.1%,剩余污泥采用厌氧发酵方式处理,用于生产优质碳源.通过组合工艺系统中的硝化、硫自养反硝化及铁屑除磷作用,出水氨氮、总氮和总磷分别达到1、5和0.4 mg·L~(-1)以下.优质碳源投加到MBR工艺段,碳源环境的改善使得污泥增长率从0.17 g VSS/g COD提高至0.49 g VSS/g COD,进水中总氮的同化比例从40%提高至59%.此外,污泥中蛋白质及氨基酸含量也显著增长,增长率分别为18.3%和19.7%.组合工艺在获得高排放标准水质的同时,实现了高蛋白质源污泥的增量,可为污泥资源化利用提供优质原料.     

秸秆压块与燃煤供热系统生命周期环境排放对比研究

为证明采用秸秆压块燃料替代煤炭进行供热的可持续性,对秸秆压块和燃煤供热系统的生命周期环境排放进行了对比分析.基于我国2012年投入产出表,构建了投入产出生命周期评价(IO-LCA)和过程生命周期评价(PLCA)相结合的混合生命周期评价(Hybrid-LCA)模型,核算了玉米秸秆压块和燃煤供热系统供应1 GJ热的生命周期CO2、SO2、NOx和PM2.5排放.结果显示,秸秆压块供热系统的生命周期CO2排放量为7 kg·GJ-1热,比燃煤供热排放减少121 kg.此外,秸秆压块供热系统比燃煤供热系统可以分别减少SO2排放98%、NOx排放76%和PM2.5排放58%.控制原料水分,通过减少原料收集和能源转化过程中的耗损,减少能源转化过程的电力消耗以及控制原料收集半径等可以有效改进秸秆压块供热系统环境表现.     

城市热岛效应下浅层土中混凝土的酸腐蚀试验研究

针对城市热岛效应引起城区浅层土地温场升高这一观测结果,采用室内快速模拟试验方法,对城区酸性土壤腐蚀混凝土材料的温度效应开展了试验研究.试验研究了在温度为5℃、20℃和40℃条件下,混凝土试样在酸浓度分别为0%、5%和10%的沙土介质中放置30 d、90 d后的抗压强度变化规律,并对混凝土试样在腐蚀过程中的腐蚀系数变化规...     

爆炸冲击波作用下圆形通风设施的动态破坏特性

为了研究瓦斯爆炸对通风设施造成的严重破坏及其导致的通风系统紊乱与灾情迅速扩展问题,基于LS-DYNA有限元软件,模拟研究巷道中瓦斯爆炸冲击波作用下圆形通风设施的动态破坏特性,分析应力、应变、速度、位移的动态特征及其破坏过程,并对圆形通风设施动态破坏机理进行初步探索。研究结果表明:爆炸冲击波作用下,圆形通风设施正、反面出现压应力与拉应力分布圆环,且压应力与拉应力峰值处于在外部受约束边界径向圆环附近区域与圆心位置,应变、速度和位移最大值均分布在次区域;爆炸冲击波作用下,通风设施表面形成多圈的正向和反向的应变相互交替,呈现W型的褶皱变形;爆炸冲击波作用下,环向裂纹集中在受约束的边界区域附近,发生脆性破坏,其他区域会出现较多的径向裂纹,可发生韧性破坏,整个断裂过程是脆性与韧性断裂的混合型断裂。     

Effect of pipes in heat pump system on electric vehicle energy saving

ABSTRACT

Refrigerant pressure drop and temperature change in pipes are normally ignored in the thermodynamic analysis of traditional vehicle air conditioning system, this will result in serious errors. In this Paper, pressure drop and temperature difference are simulated in different pipes of electric vehicle (EV) heat pump system to analysis the effects of pipes in the actual EV heat pump system. The results indicate that the greater the mass flow, the faster pressure drop increases, the temperature difference decreases. Pressure drop of saturated liquid refrigerant is smaller than that of saturated gas refrigerant at the same saturation pressure and mass flow rate. The higher the refrigerant pressure (no phase change), the slower pressure drop decreases, the faster the temperature difference decreases. Pressure drop decreases with the increment of bending angle of the pipe. For EV heat pump system, suitable valves and less branches are helpful for energy saving of the system. Shortening the pipe between compressor and condenser can reduce temperature change obviously. Pressure drop per unit length in the pipe between evaporator and compressor is large especially in heating mode because of lower refrigerant density. It even reaches to over 100 times of that in the pipe between condenser and throttle valve in heating mode and has negative effects on the performance of the system. If the evaporator is closer to the compressor and the number of branches is less, then pressure drop will decrease a lot, which will be advantageous for energy saving of the heat pump system.     

Characteristics of stable biodiesel emulsion fuel with the aid of lipophilic surfactant,polyglycerol polyricinoleate (PGPR)

ABSTRACT

Biodiesel emulsion fuel is reported as one of the most feasible options capable of generating lower NOx emission than that from fossil fuels. However, oil and water in the emulsion fuel are easily separated and unstable. The aim of the present study is to consider the production and stability of biodiesel emulsion fuel by using tetraglycerin ester (CR-310), i.e., one of lipophilic surfactant, polyglycerol polyricinoleate (PGPR) and biodiesel, i.e., Waste cooking Oil Methyl Ester (WOME) produced based on waste cooking oil. The corresponding heat rate, water content, and viscosity are measured. Emphasis is placed on the effects of water content and surfactant on biodiesel emulsions. It is found that: (i) stable emulsion fuel is obtained by adding at least 2.0% of CR-310 and is maintained over 1 month, (ii) there is no effect of water content on stable emulsion fuel if CR-310 is used over 2.0%, and (iii) the viscosity of emulsion fuels is higher than that of the biodiesel fuel and is gradually increased with an increase in the water content.     

太阳热反射涂料的研制

根据涂料反射太阳热的原理,以丙烯酸树脂为基料,以金红石型钛白粉、云母粉及空心玻璃微珠为原料,制备了隔热性能和耐候性能均良好的太阳热反射隔热涂料,并研究了颜料、填料种类、粒径、涂层厚度对涂料隔热性能的影响。     

分子生物标志物在污染环境早期诊断和生态风险评价中的应用

介绍了抗氧化防御系统、应激蛋白HSP70、活性氧(ROS)以及植络素(PCs)等作为分子水平上的生物标志物,在水和土壤环境污染早期诊断和生态风险评价中的研究现状及最新进展,以及污染物胁迫下活性氧的产生及对机体的氧化损伤机理,并展望了分子生物标志物在污染环境早期诊断和生态风险评价中的发展方向.     

硝基苯灌胃致小鼠蛋白质氧化损伤作用的研究

为了探讨硝基苯对小鼠多器官的蛋白质氧化损伤程度,采用不同剂量的硝基苯对小鼠进行灌胃染毒(每天1次,共30 d),用2,4-二硝基苯肼比色法测定小鼠组织蛋白质羰基含量,用以判断蛋白质的损伤程度.结果显示,各组织空白对照和油对照组间差异均不显著(p＞0.05),随着染毒剂量的增加,肝脏、肾脏、脾脏和心脏的蛋白质羰基含量呈上升趋势,脑组织只在高剂量组表现明显升高趋势;低剂量组与油对照组相比,只有肝脏蛋白质羰基含量显著性升高(p＜0.05);中、高剂量组与油对照组相比,各组织蛋白质羰基含量显著性升高(p＜0.05).以上结果表明,低剂量硝基苯可以对细胞蛋白质产生氧化损伤作用,并且随着染毒剂量的增加,小鼠各组织蛋白质羰基含量呈上升趋势,蛋白质氧化损伤程度加重.     

多热源分散程度的数学模拟及对置换通风影响

通过建立多污染热源置换通风的三维数学模型,根据数值解分析三热源位置变化对多污染源置换通风效果的影响,结果表明:热源的位置变化对多污染热源置换通风效果的影响是很大的,房间内热源应紧凑布置以利于提高通风效果和节能。