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反渗透海水淡化技术应用 总被引:8,自引:0,他引:8
简要回顾了反渗透技术的发展过程及应用状况.针对国内典型反渗透海水淡化工程实例,分析了一期、二期不同工艺、设备的技术特点,并针对相关海域的海水水质介绍了海水预处理技术以及存在的问题. 相似文献
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海水淡化中连续膜过滤技术的工艺优化研究 总被引:1,自引:0,他引:1
研究了PVDF中空纤维膜为核心的CMF系统在海水淡化预处理应用中的工艺优化问题.经过长期的运行实验表明:最佳运行工艺条件是工作时间35 min,气水双洗30 s,反冲洗25 s,排污15 s.在气水双洗工艺中,当压缩空气储罐压力大于0.5 MPa时清洗效果最好.使用CMF进水配制的清洗剂中,NaClO和HCl相结合的化学清洗效果最好.CMF系统的出水浊度始终稳定在0.06~0.07 NTU之间,SDI值一直稳定在1~2之间,系统收率维持在96.3%. 相似文献
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江涛 《中国新技术新产品》2018,(4)
针对我国当前淡水资源不足的现象,我国提出了多种治理方案。国家在提出南水北调的方针政策的同时,也提出了海水淡化的政策来缓解我国淡水资源的压力。在海水淡化工程进行中,其产生的副产浓海水如若直接排放到海洋中,对于水资源而言是一种浪费。因此,本文通过对副产浓海水的资源化利用进行分析,以供大家参考。 相似文献
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海水淡化技术与太阳能利用 总被引:2,自引:0,他引:2
海水淡化是解决水源危机的根本措施,但海水淡化绝不能以牺牲能源为代价;现有的几种海水淡化技术各有优劣,应配套使用;河海大学和南京玻纤院等研制的太阳能加热装置,可以作为海水淡化装置中清洁、无污染的能源。 相似文献
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简要介绍了海水淡化技术及其应用现状,仔细分析了沿海电厂应用海水淡化技术的可行性、必要性和需要解决的主要问题,并给出了有关综合利用的建议。 相似文献
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由于水资源紧缺问题日益突出,海水淡化技术的研究与开发将越来越显得紧迫。海水淡化研究的根本是如何降低成本,而其中关键问题是材料的选择。本文旨在对功能无机材料应用于海水淡化技术这一新的研究方向作一详细的分析与展望。其中着重分析无机分离膜在反渗透海水淡化技术中的应用,包括无机分离膜的特点和制备方法,无机反渗透膜替代有机反渗透膜和无机超滤膜应用于海水预处理等;并讨论了无机材料中硅酸盐矿物(粘土和沸石矿物等 相似文献
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Zhong-Yi Wang Ying-Jie Zhu Yu-Qiao Chen Han-Ping Yu Zhi-Chao Xiong 《Small (Weinheim an der Bergstrasse, Germany)》2023,19(19):2206917
Solar energy-driven water evaporation is a promising sustainable strategy to purify seawater and contaminated water. However, developing solar evaporators with high water evaporation rates and excellent salt resistance still faces a great challenge. Herein, inspired by the long-range ordered structure and water transportation capability of lotus stem, a biomimetic aerogel with vertically ordered channels and low water evaporation enthalpy for high-efficiency solar energy-driven salt-resistant seawater desalination and wastewater purification is developed. The biomimetic aerogel consists of ultralong hydroxyapatite nanowires as heat-insulating skeletons, polydopamine-modified MXene as a photothermal material with broadband sunlight absorption and high photothermal conversion efficiency, polyacrylamide, and polyvinyl alcohol as reagents to lower the water evaporation enthalpy and as glues to enhance the mechanical performance. The honeycomb porous structure, unidirectionally aligned microchannels, and nanowire/nanosheet/polymer pore wall endow the biomimetic aerogel with excellent mechanical properties, rapid water transportation, and excellent solar water evaporation performance. The biomimetic aerogel exhibits a high water evaporation rate (2.62 kg m−2 h−1) and energy efficiency (93.6%) under one sun irradiation. The superior salt-rejecting ability of the designed water evaporator enables stable and continuous seawater desalination, which is promising for application in water purification to mitigate the global water crisis. 相似文献
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本文对聚丙烯中空纤维膜在海水淡化中的老化现象进行了研究,采用差热扫描、傅立叶变换红外分析、扫描电镜等方法对聚丙烯中空纤维膜在海水中应用前后的结构变化进行了表征,通过多组比对浸泡实验,分析了聚丙烯中空纤维膜海水浸泡后强度降低的原因,并对如何防止聚丙烯中空纤维膜在海水中快速老化,提高其使用寿命进行了讨论。 相似文献
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Yu-Cheng Liu Dah-Yen Yang Jin-Pei Deng Sheh-Yi Sheu 《Small (Weinheim an der Bergstrasse, Germany)》2023,19(16):2205420
Climate change is causing droughts and water shortages. Membrane desalination is one of the most widely employed conventional methods of creating a source of clean water, but is a very energy-intensive process. Membrane separation requires high salt selectivity across nano-channels, yet traditional techniques remain inefficient in this regard. Herein, a bioinspired, chemically robust, amyloid–fibril-based nanotube is designed, exhibiting water permeability and salt rejection properties capable of providing highly efficient desalination. Molecular dynamics simulations show that nano-dewetting facilitates the unidirectional motion of water molecules on the surface of amyloid beta (Aβ) sheets owing to the ratchet structure of the underlying potential surface and the broken detailed balance. The water inside the self-assembled Aβ nanotube (ABNT) overflows, while the passage of salts can be blocked using amphiphilic peptides. The designed nanofilter ABNT shows 100% desalination efficiency with perfect NaCl rejection. The production of ≈2.5 tons of pure water per day without any energy input, which corresponds to a water flux up to 200 times higher than those of existing commercial methods, is assessed by this simulation method. These results provide a detailed fundamental understanding of potential high-performance nanotechnologies for water treatment. 相似文献