用于污水处理和中水回用的可自控膜—生物反应器成套设备

由惠州市雄越保环科技有限公司开发的用于污水处理和中水回用的可自控膜—生物反应器成套设备,适用于有机废水的处理及回用。主要技术内容一、基本原理膜生物反应器(简称MBR)是指将膜分离技术中的超滤组件与污水处理中的生物反应器相结合而成的一种新型废水处理系统。它利用膜处理单元代替了二沉池,超滤膜将污泥和大分子污染物截留在反应器内,既提高     

MBR处理工艺的发展与应用

MBR处理技术目前发展的新工艺有：改良式序列间歇反应器（MSBR）、MBR与氧化沟结合工艺、MBR与高效生物反应器相结合（MHCR）等。MBR技术推广应用的关键是解决膜污染问题和降低膜成本。MBR技术已经在水处理领域应用，和常规水处理工艺相比，MBR工艺具有处理效果好、出水水质稳定，设备简单、占地空间省等优势，对于发展城市污水回用具有重要意义。     

MBR法/高级氧化技术在中水处理中研究进展

膜生物反应器(MBR)作为一种新型高效的污水处理方法,正受到人们的广泛关注。同时由于高级氧化技术在处理污水过程中无二次污染、易控制,与其他处理过程相结合可提高处理能力,降低处理成本等优点也备受研究者亲睐。本文系统介绍了MBR法的定义、分类、优势及其发展趋势,并对高级氧化技术和中水做了简单说明,阐述了高级氧化技术在膜生物反应器(MBR)中的应用,同时列举了两种工艺相结合在中水处理领域中的作用和地位。     

用于工业废水回用的MBR成套技术

由北京伊普国际水务有限公司开发的用于工业废水回用的MBR成套技术,适用于有机工业废水的回用。主要技术内容一、基本原理膜生物反应器技术是将膜分离技术与生物处理技术结合起来而开发的一种新型水处理技术,它由微滤膜组件和生物反应器组成。在分离膜生物反应器中,活性污泥对污染物进行高效降解处理,膜组件的作用相当于常规生物处理中的二沉池,用以将污泥混合液和已净化的水通过微滤膜过滤实现固液分离,出水水质达到《城市污水再生利用     

长庆油田生活污水回用技术研究

文章分析了目前长庆油田站场生活污水处理工艺存在的问题,对生活污水处理工艺进行了改进,采用膜生物反应器工艺处理生活污水以得到优质的中水,从而回收利用。通过对实际工程进行水质监测,COD、氨氮、浊度的去除效果好于GB 18920-2002《城市污水再生利用城市杂用水水质》中冲厕、绿化等用水要求。通过中水回用,形成"给水→利用→处理→循环利用"的中水回用模式,既节约了新鲜水,又减少了污水排放,保护了油区生态环境。     

膜生物反应器工艺的优点及膜组件设计

对比传统活性污泥法与膜生物反应器MBR的工艺原理,简要阐述了膜生物反应器工艺的优点。对工艺中的设计依据、构型、膜组件和有机负荷、固体停留时间、水力停留时间等生物反应器的技术参数进行了探讨,为膜生物反应器中试设计提供了借鉴。     

MBR技术在石化污水处理中的应用

膜生物反应器(MBR)作为当前一项热门的水处理技术,在污水资源化领域已经显示了它的巨大潜力。文章介绍了MBR的发展概况、工艺特点以及在石化污水处理中的应用,并提出了应用中所存在的问题,对MBR工艺在石化系统中的应用研究方向进行了探讨。     

3AMBR工艺在污水资源化和城市水环境治理中的应用

北京碧水源科技股份有限公司是专业从事污水资源化膜生物反应器技术的设备制造、整体技术解决方案与技术服务的高科技公司，注册资本1．1亿元，是中国膜生物反应器技术大规模工业化应用的先行者。公司以膜生物反应器（MBR）为核心的污水资源化技术居国际领先水平，其技术和产品先后在奥运水环境、     

MBR膜生物反应器污水处理装置

天津清华德人环境工程有限公司开发、天津市环境保护局推荐的MBR膜生物反应器污水处理装置适用于城市生活污水、工业有机废水和垃圾填埋渗滤液处理及回用、净水厂进水预处理及后续处理工艺的泥水分离。主要技术内容一、基本原理：膜生物反应器（MembraneBio－reac－tor，MBR），是２０世纪末发展起来的水处理高新技术，是生物技术与膜技术的结合，它既利用了膜分离的选择透过性与高效性，又利用了生物处理的有效性与彻底性。可将水中有害物质最大限度地去除。在处理生活污水方面：（１）高效地进行固液分离，分离效果远好于传统的沉淀池…     

2022年《国家先进污染防治技术目录》入选技术案例

<正>MBR-DF组合污水处理技术技术依托单位：北京碧水源科技股份有限公司工艺路线:污水经预处理后进入膜生物反应器（MBR），去除COD、TN和部分TP,MBR出水进入超低压选择性纳滤（DF）单元，去除溶解性小分子有机物、TP、重金属等。DF单元产生的浓水部分回流至MBR前端，部分经深度处理后与DF单元产水混合排放或回用。系统产生的污泥经脱水后外运处置。     

Closing the water cycle for industrial laundries: An operational performance and techno-economic evaluation of a full-scale membrane bioreactor system

To reduce the consumption of freshwater in the laundry industry, a new trend of closing the water cycle has resulted in the reuse/recycling of water. In this study, the performance of a full-scale submerged aerobic membrane bioreactor (9 m³) used to treat/reuse industrial laundry wastewater was examined over a period of 288 days. The turbidity and total solids (TS) were reduced by 99%, and the chemical oxygen demand (COD) effluent removal efficiencies were between 70% and 99%. The levels of COD removed by the membrane were significantly greater than the levels of biodegraded COD. This enabled the bioreactor to sustain COD levels that were below 100 mg/L, even during periods of low wastewater biodegradation due to bioreactor sludge. An economic evaluation of the membrane bioreactor (MBR) system showed a savings of 1.13 € per 1 m³ of water. The payback period for this system is approximately 6 years. The energy and maintenance costs represent only 5% of the total cost of the MBR system.     

Public policy for the use of reclaimed water

This article documents the general need to reuse water reclaimed from sewage effluents for beneficial purposes and then considers in detail which specific uses will be most beneficial. The analysis begins by describing five levels of wastewater treatment: primary, secondary, tertiary, advanced, and advanced plus complete treatment. Next, five major uses for reclaimed water are identified: groundwater recharge, industrial use, irrigation, recreational lakes, and direct municipal reuse. Subcategories of reuse falling under each of the five major reuse categories are also identified and discussed. The analysis then proceeds to review significant literature available on health and environmental effects, treatment and distribution costs, and public opinion concerns in relation to each of the five major uses and their related subcategories. The paper concludes with a cumulative numerical analysis of the disbenefits associated with each specific type of reuse summed over the health effects, environmental effects, treatment costs, distribution costs, and public opinion concerns. Uses of reclaimed water for industrial purposes and for irrigation of fodder and fiber crops are found to be most beneficial by the analysis here employed, and use for aquifer recharge and direct municipal reuse are found to be least beneficial.     

MBR/RO组合工艺回收处理己内酰胺废水的中试研究

对己内酰胺生产过程废水的回用处理工艺进行了研究。以某己内酰胺化工厂的LUCAS出水作为研究对象,采用膜生物反应器和反渗透膜处理工艺,研究此系统对己内酰胺废水的处理效果。试验结果表明,膜生物反应器工艺适用于该化工厂的生产废水,出水COD平均值为31.33mg/L,平均浊度为0.2NTU,氨氮平均值为2.81mg/L,可以满足反渗透膜的进水要求。在浓缩倍数为3时,反渗透膜系统运行稳定,且产水可以满足化工部循环冷却水用再生水水质标准。     

Emergy evaluation of an integrated livestock wastewater treatment system

Wastewater treatment practices should pay more attention to their environmental performances due to their resources consumption and emissions’ impact. While reclaimed water reuse seems to have become a promising practice, is it always feasible in any condition? To address this issue, this study carried out an extended emergy evaluation of a holistic wastewater treatment system. On one hand, this method was extended to include the emissions’ impact. On the other hand, this study integrated a wastewater treatment plant, its excess sludge disposal system and treated water disposal system into an integrated wastewater treatment system (IWTS), so as to evaluate its performances more completely. And then several indicators, including cost per unit pollutant eliminated (CUPE), ratio of positive output (RPO), environmental load ratio (ELR), and sustainability index (SI), were proposed for evaluating the performances of an IWTS. Two scenarios (scenario A: wastewater treatment + sludge landfilling + treated water discharges; scenario B: wastewater treatment + sludge landfilling + reclaimed water reuse) for a livestock wastewater treatment plant in Sichuan Agricultural University located in Ya’an City in Southwest China, as cases, were researched. The results show that scenario B has lower positive output efficiency and greater environmental load than scenario A. Meanwhile, the reclaimed water reuse raises cost per unit pollutant eliminated compared with the treated water being discharged directly; emissions’ impact enhances the environmental load of the two scenarios to different degree; emissions’ impact has decisive effect on the sustainability of the two scenarios. These results mean that the reclaimed water reuse should not be advocated in this case. This study provides some policy implications: (1) wastewater treatment process should be comprehensively evaluated from its resources consumption and impact of emissions; (2) reclaimed water reuse should be carefully evaluated from its pros and cons simultaneously; (3) the local conditions should be considered when implementing reclaimed water reuse, such as local water body conditions, market demands, the related laws and regulations, corporations’ economic conditions, etc.     

The role of satellite and decentralized strategies in water resources management

Existing and projected water shortages and related factors have helped focus attention on the need for water reuse. With recent technological advances in wastewater treatment, it is now possible to produce reclaimed water of any quality. Thus, the use of reclaimed water will depend on the reuse opportunities and the cost of the required infrastructure. Historically, centralized wastewater treatment facilities have served the needs of organized societies since the mid 1800s. However, as there are limited options for expansion of most existing centralized facilities, the use of satellite and decentralized wastewater management systems offers significant advantages including being close both to the source of wastewater generation and to potential water reuse applications. The comparative advantages of satellite and decentralized wastewater management systems for a number of water reuse applications are presented and discussed in this paper. Selected case studies are presented to demonstrate the utility of satellite and decentralized wastewater management. Specific issues associated with the application of such systems in existing and in new developments are examined and discussed.     

Application of membrane bioreactor technology for wastewater treatment and reuse in the Mediterranean region: Focusing on removal efficiency of non-conventional pollutants

The Mediterranean Region is a semi-arid area whose land is facing serious erosion, causing adverse impacts on agriculture. To improve the water availability, researchers have proposed the reclamation and reuse of treated wastewater. In this paper, we report the main findings of 10 years of research on the efficiencies of a conventional activated sludge process and a submerged membrane bioreactor, with particular emphasis on the removal of non-conventional pollutants. The studies showed that the membrane bioreactor produced a virtually solids-free, high-quality permeate: most nutrients, heavy metals, and persistent organic pollutants were removed, and in particular, dioxins, furans, and polychlorinated biphenyls were typically present at concentrations below the detection limit. Moreover, the total coliforms count decreased by 4–5 log and Escherichia coli was absent from the membrane bioreactor permeate. These results, combined with the continuing reduction of the capital and operating costs for this approach, suggest that membrane bioreactors are an increasingly cost-effective technology to produce treated effluents that are suitable for reuse.     

胶州市中水回用的可行性分析

以胶州为例,分析了该市水资源现状及存在的问题,研究了建设中水回用工程的可行性及方案设想。     

再生水回用公众参与意愿两阶段影响因素分析

污水再生利用是减少水体污染、缓解水资源供需矛盾和促进城市经济社会可持续发展的重要途径,但公众的偏见和排斥严重制约再生水处理技术的推广和发展。本文整合技术接受拓展模型和技术准备度理论,构建公众参与再生水回用意愿影响因素模型,运用结构方程模型和人工神经网络进行两阶段实证检验。研究表明：感知有用性和感知易用性对公众参与再生水回用意愿有显著正向影响;便利条件和主观规范分别对感知易用性和感知有用性起显著提升作用;技术准备度的消极因素极大地阻碍了公众再生水回用意愿的提升。基于上述结论,本文提出提升宣传的有效性,完善城市再生水配套设施及相关激励政策,联合社区、学校、企业等平台协同推进再生水处理技术推广工作等对策建议,为政府制定科学有效的干预政策,引导公众使用再生水提供重要的理论参考和实践指导。     

臭氧-生物活性炭工艺在废水处理中的研究与应用＊

概述活性炭吸附工艺、臭氧氧化工艺以及臭氧-生物活性炭工艺的降解机理、发展及应用;分析臭氧-生物活性炭工艺在国内外应用的典型案例,以及介绍该工艺在污水处理、污水深度处理以及中水回用方面的研究进展。