造纸废水灌溉对红柳体内钠离子含量的影响

文章通过实验研究,测定分析了造纸废水灌溉对红柳体内钠离子含量的影响。不同年限以及不同生长部位的进行研究,结果显示:在造纸废水灌溉条件下,红柳体内相同生长部位的钠离子含量均随着灌溉年限的增加逐渐增大,并且与土壤中钠离子含量呈显著正相关;红柳叶片中钠离子含量明显高于根系中钠离子含量,说明盐碱胁迫下红柳叶片耐钠性大于根系耐钠性,红柳叶是钠离子累积和外排的主要部位。     

BI废水制取己二酸过程中分解反应催化剂的研究

以环己烷空气氧化装置产生的酸性洗涤废水(BI有机废水)为原料,通过分析不同条件下分解氧化产物组成,考察了分解反应催化剂种类、用量及分解反应时间对产物二元酸的分布及己二酸表观收率的影响。试验结果表明,在钴盐存在下使BI有机废水浓缩液回流反应120min以上,再经硝酸氧化可使由BI有机废水制取己二酸的表观收率达到BI有机废水总质量的10%～12%。     

废旧锂离子电池资源化技术研究

通过介绍废旧锂离子电池的组成成分及近年来废旧锂离子电池资源化处理技术的研究进展,提出目前主要回收方法有溶解分离法和直接回收正极材料的新型方法等,并对现有研究中存在的二次污染、安全性问题进行了初步探讨。     

漂白粉用于治理石化企业硫化氢恶臭气体的研究

实验采用填料吸收塔对漂白粉用于石化企业硫化氢恶臭的治理进行了初步研究,系统研究了漂白粉投加量、硫化氢浓度、进气流量、吸收氧化温度、液气比等因素对处理效果的影响。结果表明：室温下,漂白粉投加量为0．2g／100mL,液气比20L／m^3,进气浓度控制在7800mg／m^3以内,调整适宜的进气量,对硫化氢恶臭的去除率可以达到99％以上。漂白粉吸收氧化硫化氢恶臭气体不仅技术可行,而且费用低廉,操作方便,可以进行深入的研究,进行工业化放大。     

煤矿矿井水中SO4^2-的去除方法研究

制备了高效SO4^2-吸附剂,用其对某煤矿矿井水进行了试验,对影响吸附剂吸附效率的各因素进行了研究,结果表明：吸附剂用量1.0 g/L时,去除率达到最高,为93.5%。溶液在酸性范围内吸附剂对SO42-去除率明显大于碱性范围。随着SO4^2-浓度的增加,吸附剂的去除率逐渐降低。试验水温选择为25℃,最佳吸附时间为40 m in,最佳pH为7.0。     

离子色谱在气溶胶无机离子测定中的应用

综述了离子色谱技术在气溶胶可溶性无机离子测定中的应用。离子色谱技术的主要优点是检测时间短、耗费样品量少和分辨率高。它克服了化学分析法的缺点,已经成为一种优秀的样品分析检测技术,气溶胶可溶性无机离子测定中采用这一技术是很有价值的。介绍了离子色谱的原理,仪器的组成与操作,并以气溶胶中无机离子的测定流程为主线,分别概述了采样与样品处理的方法和注意事项,分离柱与淋洗液的选择和影响因素,抑制器与检测器的发展和最新动态。     

芳香有机物电化学氧化降解的研究

为了考察物质结构对难生物降解芳香化合物电催化氧化的影响,实验研究了典型的酚类和胺类芳香污染物的电化学氧化降解。结果表明:电催化氧化技术可有效处理水中的芳香化合物,苯环上取代基对有机物的电催化降解活性有很大影响,带有供电子取代基团的芳香化合物的电催化降解速率比带有吸电子取代基团的芳香化合物的电催化降解速率快。处理2 h,苯酚、苯胺和甲苯胺接近完全去除,对氯苯酚和对氯苯胺的去除率超过90%,对硝基苯酚和2,4-二氯酚的去除率也达到70%左右。     

Organically bound tritium (OBT) for various plants in the vicinity of a continuous atmospheric tritium release

In order to quantify tritium impact on the environmental, we studied vegetation continuously exposed to a tritiated atmosphere. We chose lichens as bio-indicators, trees for determination of past tritium releases of the Valduc Centre, and lettuce as edible vegetables for dose calculation regarding neighbourhood. The Pasquill and Doury models from the literature were tested to estimate tritium concentration in the air around vegetable for distance from the release point less than 500m. The results in tree rings show that organically bound tritium (OBT) concentration was strongly correlated with tritium releases. Using the GASCON model, the modelled variation of OBT concentration with distance was correlated with the measurements. Although lichens are recognized as bio-indicators, our experiments show that they were not convenient for environmental surveys because their age is not definitive. Thus, tritium integration time cannot be precisely determined. Furthermore, their biological metabolism is not well known and tritium concentration appears to be largely dependent on species. An average conversion rate of HTO to OBT was determined for lettuce of about 0.20-0.24%h(-1). Nevertheless, even if it is equivalent to values already published in the literature for other vegetation, we have shown that this conversion rate, established by weekly samples, varies by a factor of 10 during the different stages of lettuce development, and that its variation is linked to the biomass derivative.     

Runoff variation affected by precipitation change and human activity in Hailiutu River basin,China

For recent years, runoff generation and hydrological processes in Hailiutu River basin have been greatly changed by climate change and human activity, especially water and soil conservation construction. In this study, the trends in precipitation, evapotranspiration (ET) and river runoff as well as the effects of precipitation change and human activity on runoff variation have been studied. The results showed that during 1960–2000, annual precipitation and river runoff, monthly precipitation and ET in September and October as well as monthly runoff in all months showed a significant decrease. In addition, peak flow and base flow had a large decrease. Under the joint influence of precipitation change and human activity, the mean annual runoff decreased by 35 million m³ from the baseline period (1960–1985) to the change period (1986–2000), which accounted for 60.9% and 39.1% of the total runoff decrease, respectively. Precipitation change played a primary role in the decrease of annual runoff whereas human activity, particularly water and soil conservation construction, also had remarkable impacts on runoff variation.     

Effect of bioethanol and thermal barrier coating on the performance of dual fuel engine operating on Honge oil methyl ester (HOME) and producer gas induction

Alternative fuels have numerous advantages compared to fossil fuels as they are renewable, biodegradable; provide energy security and foreign exchange saving besides addressing environmental concerns and socio-economic issues as well. Renewable fuels can be used predominantly as fuel for both transportation and power generation applications. Improved engine performance with reduced engine exhaust emissions is a major research objective in engine development. Today, the use of biomass derived producer gas is more relevant for addressing rural power generation and is a promising technique for controlling both nitric oxide (NO_x) and soot emission levels. In view of this, exhaustive experiments on the use of Honge oil methyl ester (HOME)–Producer gas in a dual fuel engine have been carried out with an intension of improving its fuel efficiency. This paper mainly presents results on a single cylinder four stroke direct injection diesel engine operated in dual fuel mode using HOME–Producer gas combination with and without bio-ethanol addition and thermal barrier coating (TBC). Further, the results were compared with diesel–producer gas mode of operation. Experimental investigation on dual fuel operation using HOME+5% bioethanol (BE5)–Producer gas operation with TBC showed 12.35% increased brake thermal efficiency with decreased hydrocarbon and carbon monoxide emissions and increased NO_x emission levels compared to HOME–Producer gas mode of operation.