淡江大學機構典藏:Item 987654321/102725
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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/102725


    Title: 太陽能系統應用在簡易供水設施的水質改善
    Other Titles: Application of integrated solar power disinfection system on small water treatment facilities
    Authors: 陳學仁;Chen, Syue-Ren
    Contributors: 淡江大學水資源及環境工程學系碩士班
    陳俊成;Chen, Luke
    Keywords: 簡易自來水系統;獨立式太陽能系統;紫外光殺菌;加氯殺菌;大腸桿菌;Small Water Treatment Facilities;Off-Grid Connected Solar System;Ultraviolet Disinfection;Chlorination Disinfection;E. coli
    Date: 2014
    Issue Date: 2015-05-04 10:02:48 (UTC+8)
    Abstract: 台灣地區偏遠山區居民仍然以未經過處理之地下水或是溪水、山泉水作為飲用水源而使水體中水質無法達到環保署公告標準。本研究的目的主要針對簡易自來水系統供水問題作為研究方向,此系統是否能達到環保署法規訂定飲用水標準且針對偏遠山區民眾長期以來飲用水問題。
    本研究的目的主要針對簡易自來水系統供水問題作為研究方向,此系統是否能達到環保署法規訂定飲用水標準且針對偏遠山區民眾長期以來飲用水問題,民眾長期飲用狀況下會造成一些病媒衍生,故本研究探討太陽能系統提供電力供給兩種消毒系統,加氯消毒以及UV紫外線殺菌技術。探討此兩種消毒系統處理超過法規標準之大腸桿菌溪水的可行性。
    探討內容如下:
    1.調查水源水質季節性差異
    2.探討不同天氣狀況下太陽能發電效率是否達到自給自足效益
    3.探討以太陽光電系統應用於簡易自來水加氯消毒處理之可行性
    4.以模廠規模試驗比較簡易自來水系統中UV及加氯消毒之效益
    Residents in remote mountainous areas of Taiwan are still dealt with groundwater or streams, mountain spring water has not been used as sources of drinking water leaving the water can not reach the EPA announcement standards. The main purpose of this study for small water systems supply issue as a research direction, whether this system can achieve EPA regulations set standards for drinking water and drinking water has long been a problem for people in remote mountainous areas.
    The purpose of this study focused on small water systems supply issue as a research direction, this system is able to achieve EPA regulations set standards for drinking water and drinking water problems for a long time, long-term consumption for people in remote mountainous areas under the condition will cause some people derived vectors therefore this study was to explore the solar system provides two kinds of power supply disinfection system, chlorination and ultraviolet germicidal UV technology. To investigate the feasibility of this system over two disinfection regulations and standards of the E. coli stream processing.
    Discussion follows:
    1.seasonal variations in water quality survey
    2.Investigate under different weather conditions the efficiency of solar power has reached self-sufficiency benefits
    3.Explore the feasibility of solar photovoltaic systems used in the processing of small water chlorination
    4.plant scale tests in order to benefit a relatively simple system, UV water disinfection and chlorination
    Appears in Collections:[Graduate Institute & Department of Water Resources and Environmental Engineering] Thesis

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