共存物及其投加方式对Tween 80 在中砂上吸附损失的影响

通过静态吸附实验,研究了25℃条件下,表面活性剂冲洗液Tween 80在中砂上的吸附,以及CaCl2、SDS和木质素磺酸盐(木质素磺酸钠和木质素磺酸铵)对其吸附量的影响.结果表明,向Tween 80溶液中加入CaCl2和SDS都可以显著增加其吸附量.投加量越多,吸附量越大,当投加量达到一定程度后,吸附达到饱和,不会继续增大.SDS以预吸附的方式注入同样会导致Tween 80吸附量升高.而木质素磺酸盐与Tween 80共混则可大大降低Tween 80的吸附量.随着投加量的增加,Tween 80吸附量明显下降.在低投加比例(1:10)时,木质索磺酸铵效果较好,可以减少20%-75%的吸附量.而木质素磺酸钠只能减少10%-60%.当投加较高比例(1:2)时,两者都口1以明显降低Tween 80的吸附量,可达70%-90%.而采用木质素磺酸盐预吸附的方式注入的效果较混合注入要好,相同投加最的情况下,所降低Tween 80的吸附量是混合注入时的1.2-1.8倍.因此.在表面活性剂原位冲洗过程中用木质素磺酸盐进行预冲洗,能够减少表面活性剂吸附量,降低冲洗成本,可以作为原位冲洗过程中降低吸附损失的一种手段.     

Membrane fouling control by ultrasound in an anaerobic membrane bioreactor

In this study, ultrasound was used to control the membrane fouling online in an anaerobic membrane bioreactor (AMBR). Short-term running experiments were carried out under different operating conditions to explore feasible ultrasonic parameters. The experimental results indicated that when the crossflow velocity was more than 1.0 m/s, membrane fouling could be controlled effectively only by hydrodynamic methods without ultrasound. When ultrasound was applied, an ultrasonic power range of 60–150 W was suitable for the membrane fouling control in the experimental system. The experimental results showed that the membrane fouling was controlled so well that membrane filtration resistance (ΣR) could stay at 5 × 10¹¹ m^?1 for more than a week with the crossflow velocity of 0.75 m/s, which equaled the effect of crossflow velocity of more than 1.0 m/s without ultrasound.     

Rapid degradation of carbon tetrachloride by commercial micro-scale zinc powder assisted by citric acid

We developed an effective method for degradation of carbon tetrachloride (CT) in contaminated water. Zinc metal as a reducing agent for CT in aqueous solutions has been previously studied in some detail, but the rapid corrosion of zinc surface usually reduces its efficiency in removing CT. We assumed that citric acid could enhance the degradation of CT by zinc powder due to the elimination of a passivation layer of Zn(II) (hydr)oxides on the surface of zinc powder through chelating of organic ligands with Zn(II) produced from the reaction and keeping the exposure of active sites to targets. Here the influence of citric acid on the decomposing of CT by commercial micro-scale zinc powder was investigated in a pH range of 3.5–7.5 at 25°C in batch experiments. Reaction mixtures were analysed by gas chromatography/headspace analysis, and Cl⁻ concentration was determined by turbidimetry. The results demonstrate that the degradation of CT by zinc metal alone is very weak, but the addition of citric acid can assist zinc powder to decompose CT more completely and rapidly at all pHs. Degradation of CT took place mainly in the first 10 min of reaction, coupled with 75–95% of CT removal. Maximum dechlorination percentage (82.4%) of CT was obtained at pH 5.5. In that case, chloroform and dichloromethane, as main intermediates, were found at low levels during the whole reaction, suggesting that CT may be sequentially and multiply degraded so quickly that methane is yielded before the intermediates can be desorbed and released to aqueous solution. When compared with the current methods of nano-scale zinc and bimetallic systems, the application of commercial micro-scale zinc particles assisted by organic ligands is of environmental significance since it allows decontamination of aqueous chlorinated organic compounds at low cost and with high efficiency.     

臭氧胁迫下外源喷施亚精胺和EDU对小麦生理指标的影响

采用开顶式气室模拟研究外源喷施亚精胺(Spd)和EDU对O3胁迫下小麦生理指标变化的影响,测定的生理指标包括丙二醛含量(MDA)、超氧化物歧化酶活性(SOD)、过氧化物酶活性(POD)、过氧化氢酶活性(CAT)、可溶性蛋白质含量、还原型谷胱甘肽含量(GSH)、谷胱甘肽还原酶活性(GR)、抗坏血酸含量(ASA)和抗坏血酸过氧化物酶活性(APX)。结果表明,外源喷施Spd和EDU可不同程度地提高小麦叶片的SOD、POD、CAT、APX和GR活性,降低MDA和ASA含量,提高GSH和可溶性蛋白含量。当Spd的浓度为0.25、0.50和0.75mmol·L-1时,小麦叶片POD活性比对照处理提高90.0%～226.7%,CAT活性提高21.4%～40.6%,APX活性提高164.2%～191.0%,MDA含量降低9.7%～42.5%。喷施300mg·L-1EDU可导致小麦叶片POD、CAT和APX活性分别比对照处理提高76.8%、27.4%和128.1%,MDA和ASA含量降低,GSH含量提高25.6%。以上结果说明Spd和EDU是2种比较有效的缓解小麦O3胁迫的抗氧化剂,可用来防护O3对小麦的毒害。     

遥感旱灾模型综合分析

本文在野外实验的基础上，对遥感旱灾模型进行综合分析和评价。运用四年的实地观测数据，校正了旱灾模型中的待定系数，使其能用于ＮＯＡＡ气象卫星对旱情的监测。对复杂的蒸散模型简化的可行性进行了尝试性研究。     

水力负荷对地下渗滤系统微生物分布及N2O释放的影响

通过实验室模拟实验,分析了进水水力负荷对污水地下渗滤系统脱氮微生物分布及N2O气体释放特征的影响。结果表明：随着水力负荷的升高,系统对COD、NH4+-N和TN等污染物的去除率呈下降趋势;不同深度基质层中硝化细菌数量随着水力负荷的增加而减少,靠近散水区变化最为明显,而反硝化细菌数量随水力负荷的增加而增加。在低水力负荷（≤0.12 m3·（m2·d）-1）和高水力负荷（≥0.28 m3·（m2·d）-1）时,生物脱氮作用产生N2O气体产率较低,平均值1.10 mg N2O·（m2·d）-1;在中等水力负荷（0.16 m3·（m2·d）-1）时,N2O气体的产率达到最大值（3.75±0.038）mg N2O·（m2·d）-1。综合考虑地下渗滤系统处理能力、除污效果以及N2O产率等多方面因素,建议在工程应用中,污水地下渗滤系统的进水水力负荷区间0.20~0.24 m3·（m2·d）-1。     

微电解技术在工业废水处理中的应用进展

概述了近年来传统铁碳微电解法在难降解工业废水预处理、污泥处理和重金属去除、低浓度废水处理等领域的研究进展,介绍了通过在铁碳微电解体系中投加其他金属以催化反应的改性微电解法的废水处理效果,以及微电解与电场强化、微波强化、Fenton氧化、生物处理、物化法等其他工艺联合技术在废水处理中的应用现状,探讨了相关微电解技术存在的问题及未来的发展方向。     

高档普采工作面端面顶板的有效支护

端面顶板是高档普采工作面顶板管理的重点，分析了п型钢梁支护法的不足，提出了一种新的支护方法，通过应用取得了良好效果。     

Degradation of bisphenol-A using ultrasonic irradiation assisted by low-concentration hydrogen peroxide

This study investigated the degradation of bisphenol-A (BPA) by ultrasonic irradiation in the presence of different additives (H2O2,air bubbles and humic acid) under various operating conditions,i.e.,ultrasonic frequency,power intensity and power density.The results demonstrated that the BPA degradation followed pseudo first-order kinetics under different experimental conditions.The optimum power intensities were 0.9,1.8,and 3.0W/cm 2 at the frequencies of 400,670,and 800 kHz,respectively.At the fixed frequ...     

城市污水处理厂恶臭污染源调查与研究

以H2S和NH3为主要监测指标,对广州一大型生活污水处理厂主要恶臭源H2S、NH3的排放浓度进行了8个月的连续监测.结果表明,该污水厂恶臭成分H:S的排放浓度为0.01-22 mg/m',NH,排放浓度为0～0.67 mg/m3.同时,污水厂各处理单元由于其功能和运行条件不同,所产生的恶臭气体成分也不完全一样,在污水进水区段恶臭污染物以H2S为主,其中格栅井H2S浓度最高.其中沉砂池、格栅和污泥浓缩池的H2S、NH3排放浓度呈夏秋季节高、冬春季节低的特征,与季节变化的气温有明显的相关性.对恶臭排放影响因素的研究表明,污水水温越低则H2S和NH3的排放浓度越低,此外,降雨可以显著降低污水处理厂恶臭污染物的排放浓度.