摘要
为解决海岛地区的生活饮用水安全问题,介绍了一种集雨水、岛水和海水处理为一体的海岛多元供水装置,整套装置由纤维过滤、活性炭过滤、超滤和反渗透等组成。通过应用示范对装置的稳定性和运行费用进行考察,结果表明,该装置在三种水源环境下产水水量和产水水质稳定,产水水质达到饮用水标准,运行费用较低。综上所述,海岛多元供水装置可为海岛生活安全、饮用水安全提供可靠保障,在海岛地区具有一定的应用前景。
In order to solve the problem of drinking water safety in sea island area,a water supply device of integrated water treatment processes for treating rain water,island water and sea water was introduced.This device consisting of fiber filter,activated carbon filter,ultrafiltration and reverse osmosis membrane modules,can treat several water sources in a single device through water sources intelligent identification and automatically matching corresponding process.The stability and operation cost of the device are examined via application demonstration.Test results show that water yield and water quality are stable in the condition of three types of water resources,effluent water quality can meet drinking water standard with a low operation expense.In summary,the island multi-water supply device can provide reliable protection for sea islands safe drinking water,and has certain application prospects in island regions.
引文
[1]冯宾春,张子皿.风光互补式微网海水淡化系统[J].可再生能源,2015,33(9):1281-1286.
[2]黄浩,陈彬,刘正华,等.厦门岛西水东调对海岛地下水质的影响分析[J].工程地质学报,2008,16(5):688-693.
[3]蓝俊.海岛村镇饮用水膜处理技术的研究与应用[D].杭州:浙江大学,2012.
[4]王慧,沈建锋,张岗,等.海岛反渗透海水淡化技术发展现状与研究前景[J].广州化工,2013,41(11):54-55.
[5]王锐浩,刘玮,黄鹏飞,等.海岛地区非常规水资源开发利用现状及保障对策研究[J].环境科学与管理,2015,40(10):18-21.
[6]张鹏.浅析物探方法在寻找地下水方面的应用[J].城市地理,2017(22):79-80.
[7]文盼.含风/光/柴/储及海水淡化负荷的海岛微电网容量优化配置[D].南宁:广西大学,2017.