物理化学与环境科学

环境化学从化学的角度来研究污染中的化学规律。物理化学的理论和方法被运用到环保中 ,为生态系统中能量流动提供理论依据 ,探索污染的形成机理 ,研究O3层的破坏机理 ,为环境检测提供了新技术     

海南三亚近岸海域水化学要素的分布特征和变化规律

本文调查研究了海南三亚近岸海域水化学要素的浓度和分布，结果表明：（１）表层ＤＯ、ＮＯ－２、ＮＯ－３、ＮＨ＋４、ＰＯ３－４和ＣＯＤ的平均浓度分别为４１１．９、０．０５、０．４７、１．７９、０．１６μｍｏｌ／ｄｍ３和１．３１ｍｇ／Ｌ。（２）河流输入对沿岸海域水化学要素的影响主要集中于ＮＨ＋４和ＣＯＤ，对ＰＯ３－４和ＮＯ－３的浓度影响不明显，海域总体为一贫营养盐区域。采用主成分分析表明控制水化学要素的主要因子是河流的输入和由此导致了的生物旺发。     

超声波降解水溶液中叔丁醇的研究

研究了超声场降解水溶液中叔丁醇的行为，并探讨了反应动力学模式。实验表明．在本实验条件下超声波降解叔丁醇能够达到较好的降解效果。叔丁醇的去除率随着超声辐射时间的延长而提高，在频率为20kHz、功率为1500W的超声场下，作用80min能够达到90％左右的去除率。反映体系的降解速率随着反应温度的提高而升高，随着初始浓度的增大而降低：反应体系的pH值对叔丁醇的降解率影响不大：溶液中溶解气体的种类对降解效果有一定影响。反应速率常数按照由快到慢的顺序为ko2〉k未作处理〉kN2。在一定的初始浓度条件下，超声波降解叔丁醇的反应符合假一级反应动力学模式。     

A straightforward synthesis in aqueous medium of enantiomerically enriched S(-)2,2′-dihydroxy-1,1′-binaphthyl

Chiral, atropisomeric 2,2'-dihydroxy-1,1'-binaphthyl has been extensively used to direct asymmetric processes. Its key role in asymmetric catalysis has spurred efforts to synthesize it in the optically pure form, but the reported synthetic routes have a significant environmental impact. In an aqueous peroxydase-cyclodextrin system the oxidative coupling of 2-naphthol took place very rapidly in almost quantitative yield and resulted in an enantiomeric excess. This one-pot synthesis do not require any organic solvents and oxidising metal cations.     

用磁选与浮选实现碱洗废液的净化与再用

碱洗是硅钢生产的重要环节。碱洗液随使用时间的延长 ,其中会累积大量杂质 ,造成碱液清洗效率下降而失效。本文使用磁选与浮选联合法去除碱液中的杂质 ,达到了提高碱洗效率并实现碱液的循环再用     

酸雨对污染环境中重金属化学行为的影响

综述了酸雨对污染环境中重金属化学行为的影响。在酸雨作用下 ,不同环境介质中重金属活性明显增强 ,化学形态转化明显 ,迁移能力和生态危害能力亦明显加强。探讨了控制酸雨发生、重金属污染环境修复技术以及开展复合污染环境化学风险评价的必要性     

有机物的结构──活性定量关系及其在环境化学和环境毒理学中的应用

有机物的结构──活性定量关系及其在环境化学和环境毒理学中的应用王飞越（北京大学城市与环境学系，北京１００８７１）陈雁飞（武汉大学环境科学系）最近几十年来，有机物结构──活性定量关系研究（ＱＳＡＲ，ＱｕａｎｔｉｔａｔｉｖｅＳｔｒｕｃｔｕｒｅ－Ａｃｔｉｖ...     

Principles and perspectives

BACKGROUND, AIM AND SCOPE: With respect to the enormous increase of chemical production in the last decades and the tens of thousands of individual chemicals on the market, the permanent improvement of chemical management is a permanent target to achieve the goals of sustainable consumption and production set by the WSSD in Johannesburg 2002. MAIN FEATURES: Several approaches exist to describe sustainability of chemistry. However, commonly agreed criteria are still missing. There is no doubt that products of modern chemistry help to achieve important goals of sustainability and that significant improvements have occurred regarding direct releases from production sites, but several facts demonstrate that chemistry is far from being sustainable. Still too many chemicals exhibit hazardous characteristics and pose a risk to health and environment. Too many resources are needed to produce chemicals and finished products. RESULTS AND CONCLUSION: Therefore, a strategy for sustainability of chemistry should be developed which comprises the following main elements: 1. Sustainable chemicals: sustainable chemical management includes a regulatory framework which makes no difference between new and existing chemicals, contains efficient information flow through the supply chain which allows users to handle chemicals safely and offers an authorisation procedure and/or an efficient restriction procedure for substances of high concern. This regulatory scheme should promote the development of inherently safe chemicals. 2. Sustainable chemical production: Sustainable chemical production needs the development and implementation of emerging alternative techniques like selective catalysis, biotechnology in order to release less CO2 and less toxic by-products, to save energy and to achieve higher yields. Information exchange on best available techniques (BAT) and best environmental practices (BEP) may help to promote changes towards more sustainability. 3. Sustainable products: An integrated product policy which provides a framework for sustainable products promotes the development of products with a long-term use phase, low resource demand in production and use, low emission of hazardous substances and properties suitable for reuse and recycling. This may be promoted by eco-labelling, chemical leasing concepts and extended information measures to enhance the demand of consumers and various actors in the supply chain for sustainable products. RECOMMENDATION AND PERSPECTIVE: Important tools for the promotion of sustainable chemistry are the abolition of barriers for innovation in legislation and within the chemical industry, more transparency for all users of chemical products, a new focus on sustainability in education and research, and a new way of thinking in terms of sustainability.     

桐油水解制备咪唑啉缓蚀剂及其量子化学研究

目的 开发原料价廉易得、能实际应用的缓蚀剂。方法 以桐油为原料,水解后得到桐油酸,然后与二乙烯三胺经过酰胺化和环化反应,生成桐油咪唑啉缓蚀剂。在模拟现场环境的条件下对所合成的桐油咪唑啉缓蚀剂进行电化学测试和高温高压性能评价。利用量子化学计算对桐油咪唑啉缓蚀剂的分子动力学进行模拟,探讨其在Fe表面的吸附作用。结果 红外光谱显示,桐油水解后可生成桐油酸,最终合成物为桐油咪唑啉。电化学测试表明,随着桐油咪唑啉缓蚀剂添加量的增大,20#测试钢片的自腐蚀电位逐渐提高,腐蚀电流降低。高温高压模拟实验显示,加入油酸咪唑啉后,腐蚀速率明显降低,由0.3181 mm/a降到了0.0392 mm/a。量子化学计算表明,桐油咪唑啉分子中的咪唑啉环会平行吸附于铁表面,形成一层缓蚀剂膜。结论 价廉易得的桐油经水解后可得桐油酸,再与二乙烯三胺经过酰胺化和环化反应最终合成了桐油咪唑啉缓蚀剂。该缓蚀剂添加量越大,对20#钢片的缓蚀效果越好,呈现出了较好的缓蚀效果,其分子结构中的咪唑环能平行吸附于铁表面,属于抑制阳极型缓蚀剂。     

FeCl3改性MOFs在低温下对Hg0的吸附性能

为提高吸附剂对Hg0（零价汞）的吸附效率,利用MOFs（金属有机框架）材料发达的孔隙结构和高比表面积（1 997.010 0 m2/g）,采用FeCl₃溶液浸渍改性,制备了吸附剂FeCl₃@MIL-101（Cr）用于脱除Hg0.在小型固定床反应器上考察了浸渍浓度、反应温度、氧含量等对Hg0去除的影响.结果表明:FeCl₃@MIL-101（Cr）在进口ρ（Hg0）为2×10-3 mg/L,c（FeCl₃）为0.2 mol/L,反应温度60℃,气体流速400 mL/min,φ（O₂）为1%的条件下,吸附穿透时间长达62 h,相应的吸附容量为14.27 mg/g.在此基础上,进一步利用BET（比表面积测试）、SEM（扫描电镜）-EDX（能量色散X射线光谱）、XRD（X射线衍射）、XPS（X射线光电子能谱）等常用表征手段研究了改性前后吸附剂的物理化学特性,证明了吸附剂FeCl₃@MIL-101（Cr）吸附零价汞是物理吸附与化学吸附共同作用的结果,含氯官能团在吸附Hg0过程中也发挥了相当大的作用,并且氧气可促进其吸附效果.最后,分析了其吸附机理.研究显示,该种吸附剂在低温条件下具有较为优良的脱汞性能,应用前景良好.