污泥中重金属处理方法

污泥特别是燃煤电厂脱硫废水污泥中的重金属严重超标,属于危险固体废物。据统计,我国市政污泥年产量已经突破5000万吨,脱硫废水污泥每年产量更是高达9000万吨,如果不进行妥当的重金属处置,会造成严重的二次污染和环境健康风险。本文介绍了污泥处理的国内外现状和污泥重金属的测定及评价方法,并从原理、反应装置、研究进展和热点等方面详细总结了化学法、电动法、生物法、热处理法和稳定化法的优缺点,阐明了各种方法中的现存问题和发展前景,最后对多方法联合方案提出了前景展望。     

处理含铅废水的现状及研究进展

废水中的铅严重危害环境及人体的健康,如何处理含铅废水引起了很多科研人员的重视。本文综述了近年来处理含铅废水的研究进展,详细介绍了吸附法、膜分离法、离子液体萃取法、化学沉淀法、电解法、电絮凝法、微生物絮凝法和植物修复法等处理含铅废水的现状,分析了各种处理方法的优缺点,并展望了未来深度处理含铅废水的发展趋势。     

稀土厂废水及其中氡的放射性比活度测量

以直接法和蒸干法制样后用液闪仪测量了稀土厂废水的总(α+β)放射性比活度(Bq.L-1,下称比活度),以萃取法制样后测量了废水中氡的比活度。测量结果表明,在本实验条件下,以直接法和蒸干法制样测得结果有较大差异,废水的总比活均高于排放标准(GB8978-1996),由直接法所得结果远高于标准;三种废水中的氡均具有较高的比活度和放射性比重(80%)。指出了常规方法制样测量结果偏低的原因是忽略了废水中氡的放射性"贡献";讨论了废水中氡的来源、迁移和危害性。为综合评估稀土厂"三废"的放射性及其危害性提供了依据。     

辐射技术在环境保护中的应用

由于高能电子束和γ射线本身具有的特性,其辐射技术在环境保护领域具有巨大的应用潜力。本文介绍了国内外利用辐射技术在废水、废气和固体废物(“三废”)处理中的研究和应用,涉及印染废水、造纸废水、硝基苯胺类物质、卤系阻燃剂类物质、环境内分泌干扰物和藻毒素的处理,燃煤尾气脱硫脱硝,以及挥发性有机物、污泥等方面的处理研究,并对辐射处理各种有机污染物的机理进行了探索和分析。表明辐射技术是处理“三废”的一种十分有效的方法。同时,讨论了辐射技术在环境处理应用中的有限性,并对该技术的研究和发展方向进行了展望。     

放射性废水中铯的去除方法研究进展

随着核工业的发展,放射性废液的去除越来越受到重视。本文介绍了离子交换法、溶剂萃取法、吸附法、膜分离法和化学沉淀法以及组合工艺等放射性废水中铯的去除方法,对每种方法的原理、特点及应用情况进行了评述,对放射性铯去除方法的研究方向和发展趋势进行了展望。本文对于针对不同情况的放射性污染科学选用放射性铯的去除方法具有较大参考价值。     

废水中阴离子污染物处理方法的研究进展

废水中的阴离子污染物大部分具有毒性且对人体有害,其广泛存在于水体中,严重制约了国民经济和社会的发展.阴离子污染物及其处理已成为全球面临的一项挑战.因此,研究阴离子污染物的高效处理方法迫在眉睫.本文综述了废水中阴离子污染物的处理方法,分别从物理法、化学法、物理化学法及生物法展开,总结了不同处理方法对废水中阴离子污染物的处理效果,对比分析了各类处理方法的优缺点,并展望了废水中阴离子污染物的处理技术研究方向,以期为废水中阴离子污染物的处理及实际应用提供理论支撑.     

纳米零价铁富集水溶液中铀的表面化学及应用展望

由于铀矿采冶、核能利用等类活动的影响, 铀引起的水体污染问题日益严重. 纳米零价铁(nanoscale zero-valent iron, nZVI)及其复合材料可高效富集水溶液中低浓度的铀, 在放射性废水的处理与铀的资源回收方面具有巨大的应用潜力. 但是, 不同研究对nZVI分离铀的机理和性能尚未形成一致的解释. 因此, 本综述归纳了nZVI分离铀的研究进展, 概括了溶液及固相反应机理(如吸附作用、还原作用、沉淀作用), 重点分析了水质因素(如pH、U(VI)浓度、阳离子、阴离子、溶解氧)的影响机制. 后续研究可注重分析铀废水中nZVI的结构转化规律及水质因素的协同作用对nZVI固定铀的机理、性能的影响; 并基于放射性废水的水质或水处理工艺的特征, 优化nZVI材料结构且评估其处理放射性废水的长期稳定性和生态毒性; 确定nZVI固定铀的性能与水质组分及水处理工艺运行参数的数学相关性, 建立监测和调控工艺的方法.     

从高放废液中去除锕系元素的TRPO 流程发展三十年

放射性废物,尤其是高放废物的妥善处理处置是各国政府和民众非常重视的一个问题,也是影响核能可持续发展的关键因素之一。高放废液是后处理Purex流程排放出来的废液,它集中了乏燃料中95%以上的放射性,其中α放射性核素的存在决定了需要将其处置在地质处置库中与生物圈隔离10万年以上。“分离-嬗变”方法处理高放废液可以有效缩减地质处置库与生物圈隔离的时限。TRPO具有良好的物性、辐照稳定性和对三价、四价和六价锕系元素良好的萃取选择性。基于此,我国提出了从高放废液中分离锕系元素的TRPO流程。多次热验证实验和中间规模冷台架实验结果证明TRPO流程处理我国生产堆高放废液,可完全实现高放废液的非α化。TRPO流程具有我国自主知识产权,在我国生产堆高放废液和动力堆高放废液处理中都具有良好的应有前景。     

放射性废物微波处理装置有效输出功率的测定

以微波为热源处理放射性废物的相关技术和装备的研究,在国外已经达到较高水平,在我国的相关研究较少。微波加热即物料在微波场中吸收消耗微波能量,并转化为热能用于物料温度升高。对于物料的处理效果主要与微波的有效输出功率有关。参考Schillman法测定了包括放射性废物微波处理装置的微波炉的有效输出功率,且经验证测定结果准确。微波有效输出功率的确定将对放射性废物微波处理工艺的研究打下基础。     

淀粉磷酸酯基高吸水树脂对Cu2+的等温吸附行为研究

含重金属离子废水的处理一直是人们关注的重点和难点.近年来,吸附法是处理重金属废水的一种比较有效的方法。本文以马铃薯淀粉磷酸酯为原料合成高吸水树脂,并且检测了高吸水树脂对Cu2+的静态等温吸附性能。讨论了不同丙烯酸中和度的高吸水树脂产品、Cu2+离子浓度、树脂用量和吸附时间对吸附容量的影响,并由X射线光电子能谱验证了铜离子在树脂上的吸附。     

Potential application of aluminum phosphate binder in the treatment of waste containing strontium: effects of SrO content on structures and leaching stabilities of aluminum phosphate solidified systems

Journal of Radioanalytical and Nuclear Chemistry - Solidification of radioactive waste containing strontium is a significant procedure in the nuclear waste treatment and disposal. In this research,...     

Concentration of radioactive components in liquid low-level radioactive waste by membrane distillation

The paper addresses some aspects of liquid low-level radioactive waste (LLLW) purification. Since the volume of liquid low-level wastes is usually large and the activity is rather low, the radioactive substances separated from the non-active portion have to be concentrated into the small volume for subsequent conditioning and disposal. The need for the improvement of decontamination and minimisation of the costs have led to new specific methods being under examination and development. The method proposed in the paper is membrane distillation. The experimental work described below supports the statement that membrane distillation can be an attractive alternative for liquid radioactive waste treatment. The advantages of membrane distillation over the other processes commonly used for the processing of LLLW are discussed in the paper.     

Decorating Channel Walls in Metal–Organic Frameworks with Crown Ethers for Efficient and Selective Separation of Radioactive Strontium(II)

Nuclear accidents and the improper disposal of nuclear wastes have led to serious environmental radioactive pollutions. The rational design of adsorbents for the highly efficient separation of strontium(II) is essential in treating nuclear waste and recovering radioactive strontium resources. Metal–organic frameworks (MOFs) are potential materials for the separation of aqueous metal ions owing to their designable structure and tunable functionality. Herein, a novel 3D MOF material MOF-18Cr6, in which 1D channels are formed using 18-crown-6-ether-containing ligands as channel walls, is fabricated for strontium(II) separation. In contrast to traditional MOFs designed by grafting functional groups in the framework pores, MOF-18Cr6 possesses regular 18-crown-6-ether cavities on the channel walls, which not only can transport and intake strontium(II) via the channels, but also prevent blockage of the channels after the binding of strontium(II). Consequently, the functional sites are fully utilized to achieve a high strontium(II) removal rate of 99.73 % in simulated nuclear wastewater. This study fabricates a highly promising adsorbent for the separation of aqueous radioactive strontium(II), and more importantly, can provide a new strategy for the rational design of high-performance MOF adsorbents for separating target substances from complex aqueous environments.     

Sorbent extraction behavior of a nonionic surfactant,Triton X-100, onto commercial charcoal from low level radioactive waste

In nuclear power plants and nuclear laboratories, laundry wastewater is generated from decontaminating polluted instruments, worker’s clothes and taking shower after work. Laundry wastewater contains radionuclides and surfactants. The surfactants included in laundry wastewater affect the extraction of radionuclides. Therefore, surfactants should be removed before extraction of radionuclides. The objective of the present work is to assess the ability of commercial charcoal for the removal of nonionic surfactants, where, commercial charcoal is a commonly available adsorbent for treatment. Charcoal was characterized using different analytical techniques. The isotherm models and thermodynamic parameters were evaluated. Charcoal was applied to the removal of surfactant from liquid radioactive waste. The data obtained can be used for designing a plant for treatment of surfactant rich water and wastewater economically.     

Review of biomass-based materials for uranium adsorption

Journal of Radioanalytical and Nuclear Chemistry - Uranium is for a long time the main nuclear fuel on the global level. However, in nuclear energy mining and disposal, radioactive elements may...     

Endlagerung radioaktiver Abfälle

Chemical processes become relevant in a nuclear waste repository if water accesses the disposal area. The extend of potential radionuclide releases is determined by a variety of radio‐, geo‐, and biochemical reactions. Radiolysis and corrosion of waste form, container, and backfill material influence significantly the chemical environment in close vicinity of the waste form. Released radionuclides interact in the farfield of a repository with dissolved and colloidal groundwater constituents and react with mineral surfaces. For the safety case of a nuclear waste repository, the chemical behavior of radioactive waste components is elucidated and reactions are quantified by the derivation of thermodynamic data.     

功能化金属有机骨架材料在放射性离子检测中的应用

With the shortage of fossil energy and increasing environmental pollution, nuclear energy has received extensive attention by its virtue of high energy density and low emission of greenhouse gases. However, radioactive nuclear waste remains a serious task for its safe and effective disposal due to their harmful effects on human health and the environment. As a new type of multifunctional nanomaterial, metal-organic frameworks (MOFs) are synthesized via the self-assembling combination of inorganic metals and organic ligands. Compared with traditional porous materials, MOFs have broad application prospects in the adsorption and detection of radioactive ions. In this paper, we reviewed the functional modification strategies of MOFs and summarized the progress in the applications of functionalized MOFs in removal and fluorescence sensing of contaminated ions in recent years. Besides, the future development trends are also discussed.     

Treatment of sugar processing industry wastewater using copper electrode by electrocoagulation: Performance and economic study

This paper demonstrates the use of copper electrode for the treatment of sugar processing industry wastewater (SPIW) in terms of chemical oxygen demand (COD) by applying electrocoagulation (EC) method. EC process was carried out in batch mode with electrode effective area of 0.0112 m², supplied current intensity (CI) of 44.64 A/m² - 223.21 A/m², electrode gap (EG) of 0.5–2.5 cm, electrolyte (NaCl) dose (ED) of 0.5–2.5 g/L to treat SPIW with initial chemical oxygen demand (COD) of 6000 mg/L. The maximum COD removal 73% of SPIW is achieved at optimized condition of SPIW pH: 7, CI: 89.28 A/m², EG: 1.5 cm & ED: 1.5 g/L. Sludge and scum generated during EC process were characterized by FTIR, TGA/DTA/DTG, proximate & ultimate analysis to find its applicability and their disposal. Additionally, economic study of EC treatment process at optimum condition suggest treatment cost was 11.2 US$/m³ and it indicate economic results as comparison to other available treatment processes.     

核化学与放射化学的研究进展

在我国核能快速发展的新形势下,新型核能资源的开发、乏燃料后处理、放射性废物处理与处置等核燃料循环化学研究日益活跃。随着科学技术的不断发展,离子加速器、反应堆、各种类型的探测器和分析设备、以及计算机技术等的发展,核化学与放射化学研究的范围和成果在不断扩展和增加,如核安全、环境放射化学、放射分析化学、放射性药物与标记化合物等,研究成果对于国防建设、核能发展、核技术应用等方面具有重要支撑作用。本文综述了近年来国内在上述领域所取得的研究进展。共引用参考文献161篇。     

The Legacy and Future of Radioactive Waste Management at the Millennium

Wastes containing radioactive materials have been produced ever since ore recovery and processing began; however, such materials did not become of public concern until the large-scale activities involving uranium and thorium ores and nuclear fission during and after World War II. Efforts to provide disposal sites for radioactive wastes, especially those associated with nuclear weapons and nuclear energy, have been largely unsuccessful for the past 40 years or so and are nearing crisis proportions as the new millennium begins — its eventual resolution is believed to require greater reliance on stewardship and a larger governmental presence.