K2CO3生产中NH4Cl废水的回收技术

分析了反渗透的基本原理，详细介绍了采用反渗透膜分离技术回收利用K2CO3生产过程中产生的含NH4Cl废水的工艺过程。处理低浓度含NH4Cl废水100m^3／h和高浓度含NH4Cl废水40m^3／h工业化装置建成投产后，处理前低浓度废水含NH4Cl1000mg／L，高浓度废水含NH4Cl10000mg／L，pH=8～10；处理后，产品淡水含NH4Cl≤10mg／L、pH=7～8，产品浓水含NH4Cl≥60000mg／L、pH=8～lO。该装置的投运，取得了明显的经济效益和社会效益。     

油田采出水的精细过滤技术

低渗透油层渗透率〈0．1μm^2，孔喉半径小，容易被堵塞，对注入水质要求高，目前缺乏对含有原油、化学添加剂、粉质颗粒和无机盐的油田采出水适应性强的精细过滤设备。本文介绍了油田采出水回注精细过滤材料试验和采用旋流配水、脉冲水流反洗技术的改性聚四氟乙烯滤芯过滤装置的小试和中试研究情况，研究开发的改性聚四氟乙烯精细过滤装置，当进水含油量〈20mg／L、悬浮物含量〈20mg／L时，出水达到了（《碎屑岩油藏注水水质推荐指标》（SY5329-94）规定的A1级注水水质标准。     

低压反渗透复合膜NTR—7250的脱盐性能

测定了ＮＴＲ－７２５０膜的脱盐性能。结果表明，该膜水通量约为ＣＡ膜的５倍；脱盐率主要受阴离子控制，并随电荷数递增；水中结垢成分被优先除去，ＳＯ４＾２－，硬度和ＨＣＯ３＾－除去率分别大于９７％，８１％，７６％；该膜抗氧化能力与ＣＡ膜相当，而适用ＰＨ范围更宽，并且可在较高水温下长期使用。     

Evaluation of wastewater reclamation processes in a high-tech industrial park

The objectives of this research were to evaluate two different processes using for wastewater reclamation in a hightech industrial park area in Taiwan. The major units of the first AC-RO-IE system included sand filter, an activated carbon (AC) bed, microfiltration module, a reverse osmosis (RO) membrane and ionic-exchange (IE) columns. The second DAF-AC-RO system was comprised of coagulation/flocculation, dissolved air flotation (DAF), an activated carbon bed, microfiltration module and reverse osmosis membrane units. This study was carried out at a pilot-scale plant in situ that operated for approximately 1 year. According to the long-term experimental results, both the AC-RO-IE and the DAF-AC-RO processes illustrated excellent performances on inorganic and organic contaminant removal. Comparing the removal efficiency of the filtration-AC units in the AC-RO-IE system with the coagulation-DAF-AC units in the DAF-AC-RO system, the removal efficiency of TDS, SiO₂ and COD increased by 19.8%, 70.1% and 44.4% in the latter system, respectively. In addition, the combination of PAC-coagulation and DAF units could improve hardness removal, modify the form of dissolved silica, and reduce the SDI and MFI values. It showed good potential as a pretreatment unit in wastewater reclamation processes. Therefore, based on the reclaimed wastewater quality and process operational stability, the DAF-AC-RO system was suggested as a potential process for further application.     

Hybrid systems in seawater desalination—practical design aspects, present status and development perspectives

Ever since seawater desalination has been applied on an industrial scale, and particular in the countries of the Arabian Gulf, the application of desalination processes in dual-purpose facilities—water and power—as a hybrid configuration has been discussed in many feasibility investigations and also planning concepts. It is above all the combination of reverse osmosis with thermal processes that has found increasing interest with the aim of ensuring, as economically as possible, uniform water supplies under the specific, greatly varying load conditions in the Gulf countries. Such design concepts for hybrid configurations encompass straightforward structures with a low degree of coupling between membrane and thermal desalination processes, but range up to very complex configurations with strong interconnections on both the water side and thermally, as well as with several desalination processes connected in series or in parallel. Classical hybrid concepts in which the permeate from an RO desalination component is mixed with distillate from thermal desalination have already been implemented in Saudi Arabian dual-purpose plants, like Jeddah and Yanbu-Medina. Although hybrid systems of greater complexity have been addressed in many design studies and publications, up to now none has been brought to fruition. Coming into consideration asthe design basis for determining the capacity shares of the various desalination processes operated in a hybrid configuration are: arrangement of thermal cycle of the power plant component; water/power ratio of the dual-purpose seawater desalination and power plant; provision of undiminished water production of the desalination plant as electricity generation varies; provision of a specified drinking water quality with regard to composition and salt content; combination of all these aspects. Also gaining in importance are concerns of environmental pollution and sustainable development when selecting seawater desalination and power plant configurations, as well as their optimization when considering desalination and electricity generation as a whole. In the practical design of hybrid membrane and thermal systems, aspects come to light, though, that restrict linking of the two systems and joint utilization of facilities, as conceived in studies and conceptual design investigations. This applies both for common utilization of intakes and the use of heated up cooling water from thermal processes as a feed stream for the RO part of the desalination process. Additionally, requirements of drinking water composition, particularly chloride content, TDS and compliance with a specific residual content of boron, influence specifically the design of the membrane process part and its share in the total desalination capacity. Such practical aspects have greatly influenced the design and configuration of the Fujairah hybrid plant for which, from a total desalination capacity of 100 MIGD (454,600 m³/d), the share of 37.5 MIGD (170,500 m³/d) makes its seawater RO plant the biggest currently being constructed anywhere in the world. From the findings of the engineering of this plant and the idea that, by increasing interconnection between the two processes on the water side, it is possible to advance a hybrid configuration of this type with regard to cost optimization in the membrane installation, but also by joint utilization of the intake equipment, perspectives result for applied research efforts over the near and long terms, for example: long-term behavior of membranes at elevated temperatures; tendency for biofouling in membrane process with common utilization of cooling water and brine; influences of such interconnections on the overall availability of the facility. But also for the operation and maintenance organization of such large facilities, consequences can be foreseen for the future development of hybrid plants, particularly for operation management and organisation of the interplay of the different power plant and desalination systems, monitoring of SWRO membrane replacement and cleaning, as well as controlling water quality.     

Mathematical modeling of reverse osmosis systems

The present investigation pertains to modeling of seawater desalination system. A simulation model was developed and verified for a small-scale reverse osmosis system. The proposed model combines material balances on the feed tank, membrane module andproduct tank with membrane mass transfer models. Finally a comprehensive simulation model has been developed incorporating the effect of mass transfer inhibition The model is non-linear differential equation representing the feed concentration as a function of operating time and space. The solution of the simultaneous differential equations was obtained using the fourth order Runge-Kutta method, due to self starting and stability. The model was verified using the experimental data from the literature [17,24]. Parameter sensitivity was carried out to select the proper step size. The simulation was run for over 1000 11 enabling a prediction of operational performance at high overall system recoveries.     

聚多巴胺-聚乙烯亚胺改性反渗透膜制备与表征

饮用水短缺和水污染问题严重影响着人类和社会的发展。反渗透技术提供了一种高效经济的方法来生产纯水和处理废水,以缓解这个问题。但是,反渗透膜的污染尤其是生物污染严重制约着其高效应用。膜表面改性技术是提升膜抗污染性能的最常用手段,通过多巴胺盐酸盐(DA)在聚酰胺反渗透膜表面自聚,生成超薄聚多巴胺涂层(PDA),进一步利用PDA涂层上的活性基团将聚乙烯亚胺(PEI)接枝到反渗透膜表面,得到稳定持久的PDA-PEI改性反渗透膜。通过对改性膜的XPS测试,亲水性和抗菌性试验,得到以下结论:PDA成功涂层于反渗透膜表面,且PEI成功接枝于PDA涂层表面;PDA-PEI改性增大了膜表面的亲水性,提升了反渗透膜抗污染的能力,使其具有了一定的抗菌能力。     

A review of the current status of small-scale seawater reverse osmosis desalination

The current status of small-scale desalination (produced water capacity 100 m³/day or less) is reviewed to provide an overview of the market segment. The use of energy-recovery devices in this market segment is also reviewed. We find that the Middle East accounts for the largest market share worldwide at present, and reverse osmosis is overwhelmingly dominant among the desalination technologies adopted. Implementation of energy-recovery devices at small scale is rare, which leads to relatively high energy consumption for small-scale seawater reverse osmosis desalination systems.     

Viability study of different reverse osmosis membranes for application in the tertiary treatment of wastes from the tanning industry

The tanning industry uses large quantities of water and produces a correspondingly large amount of wastewater with high levels of salts and organic materials. Before these wastewaters can be eliminated, they must be submitted to a suitable depuration treatment. However, conventional treatments such as those used for urban wastewater are not able to reduce the salt content sufficiently and new methods need to be studied in the light of new technologies. In this aspect, membrane technology is increasingly used as a separation technique in chemical and environmental engineering, including desalination, selective separation and wastewater treatment. In this paper, we describe a comparative study of six different reverse osmosis membranes, which were tested for their ability to reduce the salt content in the tertiary treatment after the elimination of chromium salts and organic matter of an effluent from a pilot plant for treating industrial wastewater from the tanning industry to reach the legal levels established for their safe disposal. The membranes were checked using a 3×10⁻³ m² flat cell, where the concentrated streams were recirculated to the feed reservoir.     

集成膜工艺海水淡化与浓海水综合利用

综述了反渗透一电渗析集成工艺海水淡化与浓缩水综合利用研发现状与发展趋势。指出具有特殊分离功能的离子交换膜电渗析技术是高度分离、富集海洋化学元素的关键技术。提出了目前需要研究的几个问题。