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反渗透净水机水效提高方法研究
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作者 李文明 《家电科技》 2022年第6期72-74,79,共4页
反渗透净水机由于受水的硬度、废水阀污堵等因素影响,其水效提高受到制约。为了在现有净水机水效基础上再进一步提高,把软化水技术运用到净水机里,通过对比测试,该技术能够降低水的硬度,使净水机的总净水量提升约20.6%,净水产水率提升约... 反渗透净水机由于受水的硬度、废水阀污堵等因素影响,其水效提高受到制约。为了在现有净水机水效基础上再进一步提高,把软化水技术运用到净水机里,通过对比测试,该技术能够降低水的硬度,使净水机的总净水量提升约20.6%,净水产水率提升约15%,从而有效提高净水机的水效。另外,废水阀自清洁技术能够提高阀的耐堵性能,可以减少冲洗水和浓水的排放量,使净水产水率提升约5%,同样也能够提高净水机的水效。 展开更多
关键词 反渗透净水机水效 软化水技术 废水阀自清洁技术
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反渗透净水机水效提高方法研究
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作者 章洁 《中华传奇(下旬)》 2021年第24期0175-0176,共2页
随着社会和经济的不断发展,被释放到自然水体中的污染物种类明显增多。为了确保居民饮用水安全问题,多功能绿色净水剂的开发一直是国际高度关注的热点问题。高铁酸盐是六价铁的含氧铁酸盐,其在酸性条件下的氧化还原电位高达+2.2V,可以... 随着社会和经济的不断发展,被释放到自然水体中的污染物种类明显增多。为了确保居民饮用水安全问题,多功能绿色净水剂的开发一直是国际高度关注的热点问题。高铁酸盐是六价铁的含氧铁酸盐,其在酸性条件下的氧化还原电位高达+2.2V,可以破坏多种官能团。高铁酸盐还原生成的新生态纳米铁(氢)氧化物颗粒具有良好的吸附性能,对水中的金属离子具有很强的亲和力,这使得高铁酸盐具有氧化、消毒、吸附、絮凝等多种功能,可在饮用水处理过程中用于去除水中嗅味物质、去除可溶性铁锰、减少消毒副产物的生成、控制藻类污染等。高铁酸盐在解决复合污染问题、经济高效地提高饮用水水质方面发挥着重要作用。 展开更多
关键词 反渗透净水机水效 软化水技术 方法
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Economic and Technical Analysis of a Reverse-Osmosis Water Desalination Plant Using DEEP-3.2 Software 被引量:1
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作者 Ali AI-Karaghouli Larry Kazmerski 《Journal of Environmental Science and Engineering(A)》 2012年第3期318-328,共11页
Reverse osmosis (RO) is proved to be the most reliable, cost effective, and energy efficient in producing fresh water compared to other desalination technologies. It is the fastest-growing desalination technology wi... Reverse osmosis (RO) is proved to be the most reliable, cost effective, and energy efficient in producing fresh water compared to other desalination technologies. It is the fastest-growing desalination technology with a greater number of installations around the world. The economic and technical performance of a medium-capacity RO desalination plant (2,000 m^3/day) proposed to be installed in Umm Qasr city south of Basra, Iraq is analyzed using DEEP-3.2 software created by the International Atomic Energy Agency (IAEA). This port city is located on the Gulf shore and does not have any fresh water resources. The analysis shows that the cost of fresh water produced by this plant is US$0.986/m^3 with a good quality of fresh water (279 ppm), which is a reasonable price for this remote area. The analysis also shows an increase in water production cost of about 12% at increased electricity price from 0.06 to 0.1 US$/kWh, 53% when the seawater salinity increased from 35,000 to 45,000 ppm, 2.5% when the seawater temperature decreased from 33 ℃ to 20 ℃, and 0.71% when the interest rate increased from 0% to 5%. Pumping fresh water from the Basra purification plant (located 175 km north of Umm Qasr) is 22.16 times the cost and 236.7% poorer quality than the fresh water produced by the RO plant. 展开更多
关键词 Water desalination reverse osmosis DEEP-3.2 software economic analysis technical analysis.
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