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41.
长江流域主要干/支流水化学特征及外源酸的影响 总被引:4,自引:4,他引:0
为了探究人类活动对长江流域水化学特征的影响,本文以流域内主要干/支流代表断面的采样点为研究对象,分别于2016年丰水期和平水期采集地表水样各13组,通过离子比值法、主成分分析法和化学离子平衡计算法,综合分析水化学特征,并估算碳酸和外源酸参与碳酸盐岩的溶蚀比例.结果表明,水化学类型主要为HCO3-Ca型,指示流域内水化学的主要影响因素为碳酸盐岩的溶解,在碳酸盐岩风化过程中,碳酸与碳酸盐岩的相对快速风化为主导反应.此外,丰水期和平水期各采样点碳酸溶蚀比例均值分别为60.33%和59.14%,不同采样点的溶蚀比例差值较大,指示外源酸对河流与岩石侵蚀风化过程的影响不容忽视,且阳离子交换对水化学有一定影响,但并不是主要的反应过程.与多年前水文监测初期的数据相比,硫酸和硝酸对岩石风化作用加强,人为因素对长江的水质影响增大. 相似文献
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应用生命周期评价法(LCA),采用日本农林水产省和环境省的调查数据和统计数据,对不同资源化技术处理食品废物碳排放进行评价.10种资源化技术相比于3种非资源化(主要是焚烧)技术的结果表明,食品废物生命周期各阶段碳排放最多的是预处理+处理阶段,约占85%;最少的是回收阶段,可抵消部分排放.此外,全生命周期总排放,甲烷化(循环消化液)是最有利于温室气体减排的技术,可减排380.6kg CO2e/t,通过调节参数核算日本城市生活垃圾的减排潜力每年约为5586万tCO2e.甲烷化(单纯)、肥料化均减少温室气体排放,并且前者减排效果优于后者.而废物固形燃料(RDF)、甲烷化(与地下水混合)、饲料化(液化)、甲烷化(混合焚烧)、碳化、乙醇化、饲料化(额外干燥)与发电焚烧、无发电焚烧、焚烧可燃垃圾(无发电)依次增加了温室气体的排放.不考虑再生品的异地运输,则甲烷化(与地下水混发电焚烧合)相比饲料化(液化)产生更少的温室气体排放,其他次序按照技术的优劣性保持不变. 相似文献
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An area where a free-product accumulation of trichloroethylene (TCE) dense non-aqueous phase liquid (DNAPL) occurs at the bottom of a 10-m-thick surficial sand aquifer was studied to determine the integrity of the underlying, 20-m-thick, clayey silt aquitard formed of glaciolacustrine sediment. TCE concentration-versus-depth profiles determined from aquitard cores collected at five locations indicated penetration of detectable TCE 2.5 to 3.0 m into the aquitard. Two of the profiles show persistent DNAPL at the aquitard interface, while two others indicate that DNAPL, present initially, was completely dissolved away producing concentration declines at the aquitard interface. The fifth profile suggests shallow DNAPL penetration (<0.5 m) into the aquitard, however, this penetration, which was likely caused by cross-contamination during core collection or cone penetrometry (CPT) of the aquitard interface, did not increase the maximum depth of TCE penetration. Combining the field profiles with one-dimensional model simulations, downward migration of the aqueous TCE front, defined as the EPA MCL of 5 microg/l, which was below the analytical detection limit, was projected to a distance between 4 and 5 m below the top of the aquitard. Using a single set of estimated aquitard parameter values, simulations of aqueous TCE migration into the aquitard provided a good fit to four of the field profiles with a migration time of 35 to 45 years, consistent with the history of TCE use at the site. These simulations indicate aqueous TCE migration is diffusion-dominated with only small advective influence by the downward groundwater velocity of 2 to 3 cm/year or less in the aquitard due to pumping of the underlying aquifer to supply water to the facility in the past 50 years. The applicability of the parameter values was confirmed by in situ diffusion experiments of 1-year duration, in which stainless steel cylinders containing DNAPL were inserted into the aquitard. The diffusion-dominated nature of the profiles indicates that the aquitard provides long-term protection of the underlying aquifer from contamination from this DNAPL zone. Simulations of long-term migration of the TCE solute front indicate breakthrough to the lower aquifer at 1200 years for the no advection scenario and at 500 years if the strong downward hydraulic gradient persists. However, even after breakthrough, the mass flux through the aquitard to the underlying aquifer remains relatively low, and when considered in terms of potential impacts to pumping wells, concentrations are not expected to increase significantly above present-day MCLs. The use of contaminant profiles of different time and distance scales, in addition to hydraulic data, dramatically improves the ability to assess aquitard integrity, and provides improved transport parameter values for estimating contaminant arrival times and fluxes. The apparent lack of deep preferential pathways for TCE migration, such as open fractures, is probably due to the softness of the silty aquitard deposit and minimal physical or chemical weathering of the aquitard provides long-term protection of the underlying aquifer from contamination from this DNAPL zone. Simulations of long-term migration of the TCE solute front indicate breakthrough to the lower aquifer at 1200 years for the no advection scenario and at 500 years if the strong downward hydraulic gradient persists. However, even after the breakthrough, the mass flux through the aquitard to the underlying aquifer remains relatively low, and when considered in terms of potential impacts to pumping wells , concentrations are not expected to increase significantly above present-day MCLs. The use of contaminant profiles of different time and distance scales, in addition to hydraulic data, dramatically improves the ability to assess aquitard integrity, and provides improved transport parameter values for estimating contaminant arrival times and fluxes. The apparent lack of deep preferential pathways for TCE migration, such as open fractures, is probably due to the softness of the silty aquitard deposit and minimal physical or chemical weathering of the aquitard. 相似文献
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预处理是提高木质纤维材料酶解效果的关键步骤,更是木质纤维材料制造生物乙醇的重要环节.因此,对木质纤维材料进行预处理以促进酶解糖化过程具有重要意义.本研究以稻秆为原料,探讨不同类型表面活性剂(包括阳离子型、阴离子型、非离子型、生物)联合离子液体对木质纤维材料转化率及酶解初速度的影响,并通过稻秆成分分析、FTIR、XRD对处理前后稻秆的结构、结晶性进行了分析比较.结果表明,与单独离子液体处理相比,表面活性剂联合离子液体预处理稻秆可提升纤维转化率,效果为:生物表面活性剂-离子液体非离子型表面活性剂-离子液体阴离子型表面活性剂-离子液体阳离子型表面活性剂-离子液体.与未处理及单独离子液体处理稻秆相比,生物表面活性剂-离子液体预处理稻秆的纤维转化率分别提高55.38%和22.03%. 相似文献
48.
目的制备一种新型功能化离子液体修饰层状复合材料,研究其对L-酪氨酸(L-Tyr)的电催化氧化行为。方法通过静电自组装方式将氮氧自由基功能化离子液体(TEMPO-IL)与钙铌酸钾(KCa_2Nb_3O_(10))进行复合,并运用XRD,FTIR,SEM,HRTEM等测试手段对所作材料的微观形貌和结构进行分析表征。另外,将其作为电极修饰剂修饰于电极表面通过电化学工作站测试其电化学性质。结果该修饰电极对于电催化氧化L-Tyr有着较高的电化学活性。同时实验还表明,当L-Tyr的浓度在1×10~(-4)~1.16×10~(-2) mol/L之间时,峰电流值与L-Tyr浓度呈良好的线性相关,检测下限为6.2×10~(-5) mol/L(信噪比为3)。结论静电自组装是一种能够快捷、高效的制备层状复合材料方法,且得到的复合材料显示出在生物传感器方面的应用前景。 相似文献
49.
Kurt Haerens Edward Matthijs Andrzej Chmielarz Bart Van der Bruggen 《Journal of environmental management》2009,90(11):3245-3252
Ionic liquids are studied intensively for different applications. They tend to be denoted as “green solvents”, largely because of their low vapour pressure. In recent years toxicity and biotoxicity of ionic liquids have also been investigated, which proved that not all of these are “green”. In this paper the use of ionic liquids based on choline chloride and ethylene glycol in electrochemistry is discussed in the context of their use as green solvents. Due to their low toxicity and ready biodegradability, these deep eutectic solvents are promising for the electrodeposition of metals. The influence of the use of these liquids as metal deposition baths on the waste water is investigated. Drag-out was found to be the most influencing parameter on the environmental impact of the process, as it is three times higher compared to classical solutions due to the higher viscosity of the ionic liquid. There are no major changes needed in the rinsing configuration of classic electroplating plants, and ion exchange to remove the metal out of the waste water was not hindered by the presence of the ionic liquid. The formation of by-products during the deposition of metals has to be further investigated and evaluated in consideration of the environmental impact. 相似文献
50.
Development of a novel mathematical model using a group contribution method for prediction of ionic liquid toxicities 总被引:2,自引:0,他引:2
Ismail Hossain M Samir BB El-Harbawi M Masri AN Abdul Mutalib MI Hefter G Yin CY 《Chemosphere》2011,85(6):990-994
A new mathematical model has been developed that expresses the toxicities (EC50 values) of a wide variety of ionic liquids (ILs) towards the freshwater flea Daphnia magna by means of a quantitative structure-activity relationship (QSAR). The data were analyzed using summed contributions from the cations, their alkyl substituents and anions. The model employed multiple linear regression analysis with polynomial model using the MATLAB software. The model predicted IL toxicities with R2 = 0.974 and standard error of estimate of 0.028. This model affords a practical, cost-effective and convenient alternative to experimental ecotoxicological assessment of many ILs. 相似文献