共查询到19条相似文献,搜索用时 93 毫秒
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集成膜过程污水深度处理工艺 总被引:3,自引:2,他引:1
介绍了集成膜过程及其在污水深度处理方面的应用.集成膜过程是将超遽/微遽与反渗透(或纳滤)相结合,形成能够满足各种回用目的的污水深度处理集成工艺.PVDF、PP、PE、PES等超滤/微滤膜,抗污染反渗透复合膜具有化学稳定性高、耐污染、装填密度高等特点,适宜于规模化污水处理.污水处理用超滤/微滤膜以中空纤维为主,系统技术采用了低压运行、频繁(气水、透过液)反冲、气水冲洗等抗污染工艺,能够维持稳定的通量、运行维护费用较低、产水质量稳定.二级出水的集成膜系统工艺已成熟并得以广泛推广,针对原废水的集成膜工艺(膜生物反应器 反渗透)还需要进一步的工程化研究. 相似文献
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庞流 《中国新技术新产品》2012,(21):223-223
电镀废水中含有大量有毒有害重金属,如处理不到位,就直接排入河流中既污染环境,又浪费资源。本文在分析电镀废水特点的基础上,实例分析了双层滤料过滤器、超滤、反渗透、纳滤等膜法工艺处理电镀废水的情况。经处理后,达到了废水回用,实现电镀废水的零排放。 相似文献
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Flash fixation of heavy metals from electroplating wastewater (EPW) and pickling waste liquor (PWL) into ferrite lattice can be investigated by microwave hydrothermal process. The toxicity of wastewater may be reduced by the redox reaction between Cr(VI) in electroplating wastewater and Fe(II) in pickling waste liquor. Box-Behnken design (BBD) experiment gives optimal process condition of ferrite formation as follows: wastewater volume ratio (VPWL:VEPW = 0.20), pH value 11 and retention time 15 min, on which formed ferrite has a soft magnetic property with high saturation magnetization (Ms) 47.4 emu/g. The rapid ferrite process has lower activation energy 7.01 kJ/mol according to grain growth kinetics. Concerning the environmental and economy, we introduced a new and interesting method for water remediation simultaneously synthesizing ferrite by using microwave mediated hydrothermal processes. 相似文献
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N. M. Jais R. M. S. R. Mohamed A. A. Al-Gheethi M. K. Amir Hashim 《Clean Technologies and Environmental Policy》2017,19(1):37-52
Wastewater generated from fresh, vegetables and meat shops contains high concentrations of nutrients, COD, BOD and TSS. Therefore, the direct discharge of wet market wastewater into natural water may increase the pollution level. Wet market wastewater is rich with nutrients necessary for microalgae growth. Therefore, it represent a superlative environment for producing high quantity of microalgae biomass which have several applications in aquaculture, human nutrition and pharmaceutical industries. Phycoremediation is a process with high potential for the treatment wastewater and removal of nutrients and heavy metals as well as the production of microalgae biomass. However, the main challenges for the phycoremediation technology lie in the wastewater composition, microalgae species, and the competition process between the microalgae strain and the indigenous organisms as well as final utilization of biomass yield. The present review discusses the dual roles of phycoremediation for nutrients and heavy metals removal and microalgae biomass production. The microbiological aspects of phycoremediation, mechanism for heavy metals removal from wastewater, as well as factors affecting wastewater treatment are reviewed. It appears that phycoremediation plays an important role in the treatment of wastewater and production of microalgae biomass. 相似文献
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The assistance of microwave process in sludge stabilization with sodium sulfide and sodium phosphate 总被引:1,自引:0,他引:1
After industrial wastewater sludge passed through an acid-extraction process to reclaim most of the copper ions in it, the residue may still need to be treated by stabilization technologies. The common method for the stabilization of hazardous waste in Taiwan is by cement solidification. However, this method has the disadvantage of an increase in waste volume. In this study, it was tried to combine the advantages of sulfur anions and phosphate anions with the characteristics of microwave energy to offer a new method which can avoid the disadvantage of cement solidification. From the results, it was found that the assistance of heating in sludge stabilization with additives was effective. Huge amounts of additives were saved. Compared with the assistance of the traditional electrical-heating in sludge stabilization with additives, that of the microwave process saved much time and was more powerful. However, when the reaction time was longer, a re-leaching situation would occur. The hybrid microwave process, a procedure of leading an inert gas into the microwave process, could overcome the disadvantage of the microwave process with regard to the long reaction time. Finally, a modified hybrid microwave process which reduced the use of gas was performed and recommended. 相似文献
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Novel biofiltration methods for the treatment of heavy metals from industrial wastewater 总被引:3,自引:0,他引:3
Most heavy metals are well-known toxic and carcinogenic agents and when discharged into the wastewater represent a serious threat to the human population and the fauna and flora of the receiving water bodies. In the present review paper, the sources have discussed the industrial source of heavy metals contamination in water, their toxic effects on the fauna and flora and the regulatory threshold limits of these heavy metals. The various parameters of the biofiltration processes, their mechanism for heavy metals removal along with the kinetics of biofilters and its modeling aspects have been discussed. The comparison of various physico-chemical treatment and the advantages of biofiltration over other conventional processes for treatment of heavy metals contaminated wastewater have also been discussed. The applications of genetic engineering in the modification of the microorganisms for increasing the efficiency of the biofiltration process for heavy metals removal have been critically analyzed. The results show that the efficiency of the process can be increased three to six folds with the application of recombinant microbial treatment. 相似文献
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Abstract The purpose of this study is the investigation of the adsorption of heavy metals from wastewater with waste activated sludge (WAS) so as to increase the operational flexibility of activated sludge processes for the shock loading problems of heavy metals. By contacting the raw wastewater with WAS, before it entered the activated sludge process unit, some heavy metals in the wastewater were removed, and the pH value of the acidic wastewater rose. Five metals, Cu, Zn, Ni, Cd and Pb, were studied, some factors which affected this biosorption phenomena were investigated, and expressions of the adsorption isotherms were discussed. A semi‐empirical mass transfer‐adsorption model was developed to describe the kinetic experimental data. 相似文献
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燃煤发电中常采用湿法烟气脱硫技术,该工艺会产生含有重金属污染物的脱硫废水和污泥,潜在环境危害性强,需谨慎处理。介绍了燃煤电厂脱硫废水和脱硫污泥的产生来源、成分组成、重金属污染物含量水平和排放处置标准,对沉淀法等脱硫废水重金属处理技术和脱硫污泥重金属去除及固化技术的原理、优点、适用性和局限性进行总结对比分析。脱硫废水重金属控制方法中,目前普遍使用的三联箱工艺难以满足日益严格的排放标准,需进行改进;吸附法、微生物法等新型方法也因成本和技术等问题而难以普及;零排放技术因其无污染的特性将逐渐成为研究和推广的主流。脱硫污泥重金属控制方法大多仍处于研究中,化学修复和药剂固化方法因效果好、适用性强将逐渐在电厂生产实践中推广。 相似文献
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Removal and recovery of heavy metals from electroplating wastewater by using Kyanite as an adsorbent 总被引:9,自引:0,他引:9
Kyanite, a commercial mineral has been utilized as an adsorbent for the removal of heavy metals, such as Ni(II), Zn(II), Cr(VI) and Cu(II) from electroplating wastewater. The effect of contact time, pH, concentration, adsorbent doses, particle size of the adsorbent, salinity and hardness, both in natural and wastewater on the adsorption of Cu(II) have been studied in detail. The adsorption of metal ions seems to be an ion exchange process. The adsorbed metals ions from electroplating wastewater were recovered by batch as well as column operation using dilute HCl solution. The column operation was found to be more effective compared to batch process. 相似文献
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Treatment of phenol in synthetic saline wastewater by solvent extraction and two-phase membrane biodegradation 总被引:2,自引:0,他引:2
Phenol in synthetic saline (100gL(-1) NaCl) and acidic (pH 3) wastewater was treated by a hybrid solvent extraction and two-phase membrane biodegradation process at 30 degrees C. Kerosene was adopted to be the organic solvent because it was biocompatible and had a suitable partition coefficient for phenol. Phenol in water was first extracted by kerosene in a batch stirred vessel and the loaded solvent was passed through the lumen of a polyvinylidene fluoride (PVDF) hollow-fiber membrane contactor; in the meantime, Pseudomonas putida BCRC 14365 in mineral salt medium was flowed across the shell, to which tetrasodium phyophosphate (1gL(-1)) was added as a dispersing agent. The effect of the initial phenol level in wastewater (110-2400mgL(-1)) on phenol removal and cell growth was experimentally studied. At a cell concentration of 0.023gL(-1), it was shown that the removal of phenol from saline wastewater was more efficient at a level of 2000mgL(-1) when 0.02-m(2) membrane module was used. The effects of bigger membrane module size (0.19m(2) area) and higher initial cell concentration (0.092-0.23gL(-1)) on the performance of such a hybrid process for the treatment of higher-level phenol in saline wastewater was also evaluated and discussed. 相似文献