曝气池中的新文

本文着重阐述了当前设计、运行污水处理厂作好曝气池这篇文章的重要意义,并在短期的实际运行中取得了好效果。为中国石化总公司倡导的“优化水处理”作出了示范。     

含膦羧酸共聚物的阻垢缓蚀剂在燃煤电厂灰水回收系统稳定处理的应用研究

本文总结介绍了含膦羧酸共聚物ＴＳ－６１７组份的阻垢缓蚀剂的在灰水回收系统中稳定处理的实验方法及情况。     

飞灰颗粒物介导活性氧氧化损伤与金属离子浸取浓度的关系研究

本文利用脱氧核糖氧化法考察了飞灰颗粒物氧化能力与络合剂及盐酸浸取颗粒物上金属浓度的关系。结果表明,代表氧化损伤程度指标的脱氧核糖氧化物,通过硫代巴比妥酸似丙二醛加合物显色反应,其吸光度值与飞灰颗粒物被浸取剂盐酸及氨三乙酸作用后的金属离子铁、锌、镉、铅和锰的浓度显著相关。基于铁在自然环境中的高含量及在活性氧催化反应中的特殊性,本文认为二乙三氨五乙酸、乙二胺四乙酸及柠檬酸浸取液中的金属浓度不能很好地表     

660MW锅炉燃烧优化调整试验研究

针对某电厂1号锅炉燃烧器改造后锅炉结焦、飞灰及炉渣可燃物含量高、锅炉效率低等问题,在对锅炉结焦原因深入分析的基础.上,进行了燃烧优化调整试验。通过采取降低一次风压、降低煤粉细度等措施,炉内结焦得到了有效控制,飞灰、炉渣可燃物含量从10.37%、4.75%降低至2.99%、0.91%。结果表明:优化调整试验效果明显,煤粉细度、一次风速均可控在合适范围之内,锅炉效率显著提高,有效防止了炉内结焦现象的发生,提高了锅炉运行的安全性和经济性。     

Mechanism of complexation of toxic arsenate,selenate, and molybdate with hydrotalcites

Environmental Chemistry Letters - Wastewater from the uranium mining industry contains toxic arsenate (AsO43–), selenate (SeO42–), and molybdate (MoO42–) that can be removed by...     

Synthesis of branched allylic sulfones by regioselective boron-catalysed hydrosulfonylation

Environmental Chemistry Letters - Branched allylic sulfones are scaffolds widely distributed in bioactive molecules and organic functional materials. The synthesis of allylic sulfones has been...     

Highly efficient and selective removal of phosphate from wastewater of sea cucumber aquaculture for microalgae culture using a new adsorption-membrane separation-coordinated strategy

● A new adsorption-membrane separation strategy is used for phosphate removal. ● PVC/Zr-BT shows a selective adsorption ability to low-concentration phosphate. ● Low concentration of P below 0.05 mg/L was achieved in actual wastewater treatment. ● Algal biomass production served as a demonstration of phosphorus recycling. Enhanced phosphorus treatment and recovery has been continuously pursued due to the stringent wastewater discharge regulations and a phosphate supply shortage. Here, a new adsorption-membrane separation strategy was developed for rational reutilization of phosphate from sea cucumber aquaculture wastewater using a Zr-modified-bentonite filled polyvinyl chloride membrane. The as-obtained polyvinyl chloride/Zr-modified-bentonite membrane was highly permeability (940 L/(m²·h)), 1–2 times higher than those reported in other studies, and its adsorption capacity was high (20.6 mg/g) when the phosphate concentration in water was low (5 mg/L). It remained stable under various conditions, such as different pH, initial phosphate concentrations, and the presence of different ions after 24 h of adsorption in a cross-flow filtration system. The total phosphorus and phosphate removal rate reached 91.5% and 95.9%, respectively, after the membrane was used to treat sea cucumber aquaculture wastewater for 24 h and no other water quality parameters had been changed. After the purification process, the utilization of the membrane as a new source of phosphorus in the phosphorus-free f/2 medium experiments indicated the high cultivability of economic microalgae Phaeodactylum tricornutum FACHB-863 and 1.2 times more chlorophyll a was present than in f/2 medium. The biomass and lipid content of the microalgae in the two different media were similar. The innovative polyvinyl chloride/Zr-modified-bentonite membrane used for phosphorus removal and recovery is an important instrument to establish the groundwork for both the treatment of low concentration phosphate from wastewater as well as the reuse of enriched phosphorus in required fields.     

我国土壤中重金属铜的生物配体模型的建立与应用

关于重金属污染的风险评价及其预测模型日益成为环境领域的研究热点。近年来,一种用于预测和评价环境中重金属生物毒性的机理性模型一生物配体模型(BLM)被广泛应用于水体及陆地生态系统。本研究以我国土壤的陆地生物配体模型(TBLM)建构为目标,以土壤溶液系统为媒介,通过17种土壤上重金属铜离子与大麦根长的相互作用关系,发现了土壤中Cu-TBLM的主要影响因素为Cu~(2+)、CuOH~+、Mg~(2+)以及铜离子与大麦根系表面的专性结合能力。基于模型大麦根长预测值与实测值之间的相关关系,通过数学拟合功能求得TBLM中各参数值为logK_(CuBL)=4.87、logK_(CuOH)+=7.62、logK_(MgBL)=1.91、f~(50%)=0.103、β=1.09。本研究所得到的TBLM模型能很好地预测我国土壤中铜对大麦根长的毒害程度,预测值与实测值的相关性达到了90%。本研究结果不仅可以为我们降低重金属离子生物有效性提供有力的理论借鉴,更对我国土壤环境质量保护和长期良性可持续发展具有重要意义。文160余篇。     

Dissimilatory reduction of FeIII (EDTA) with microorganisms in the system of nitric oxide removal from the flue gas by metal chelate absorption

In the system of nitric oxide removal from the flue gas by metal chelate absorption, it is an obstacle that ferrous absorbents are easily oxidized by oxygen in the flue gas to ferric counterparts, which are not capable of binding NO. By adding iron metal or electrochemical method, Fe^Ⅲ (EDTA) can be reduced to Fe^Ⅱ(EDTA).However, there are various drawbacks associated with these techniques. The dissimilatory reduction of Fe^Ⅲ(EDTA) with microorganisms in the system of nitric oxide removal by metal chelate absorption was investigated. Ammonium salt instead of nitrate was used as the nitrogen source, as nitrates inhibited the reduction of Fe^Ⅲ due to the competition between the two electron acceptors. Supplemental glucose and lactate stimulated the formation of Fe^Ⅱ more than ethanol as the carbon sources. The microorganisms cultured at 50~C were not very sensitive to the other experimental temperature, the reduction percentage of Fe^Ⅲ varied little with the temperature range of 30-50℃.Concentrated Na2 CO3 solution was added to adjust the solution pH to an optimal pH range of 6-7. The overall results revealed that the dissimilatory ferric reducing microorganisms present in the mix-culture are probably neutrophilic, moderately thermophiUc Fe^Ⅲ reducers.     

重金属人体生物有效性、吸收及毒性研究中的肠道细胞模型

重金属污染对人体健康产生极大威胁,因而备受关注.肠道吸收是人体重金属暴露的主要途径之一,因此,重金属的生物有效性、肠道吸收过程和毒性研究成为当前的研究热点.体外胃肠模拟法和动物模型被广泛用于重金属的相关研究,然而体外胃肠模拟法缺少人体肠道细胞成分,动物模型与人体存在着物种差异且实验成本高.鉴于此,研究者开发了能够部分模拟人体肠道上皮功能的体外肠道细胞模型.此模型作为研究生物有效性的重要工具,能模拟肠道对重金属的吸收转运过程,并能够结合分子生物学等技术、采用多学科交叉的研究方法探索重金属的肠吸收和肠毒性的分子机制.本文系统介绍了人肠上皮的结构功能、肠道上皮细胞对重金属吸收转运机制、肠道细胞模型的发展及其在重金属相关研究中的应用与优缺点,总结了肠细胞模型功能验证指标和优化方法.同时,还对肠道微流控培养系统(芯片肠道)和肠类器官等三维肠细胞模型技术的最新进展进行了介绍和展望.