Chia Nan University of Pharmacy & Science Institutional Repository:Item 310902800/26369
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    Please use this identifier to cite or link to this item: https://ir.cnu.edu.tw/handle/310902800/26369


    Title: 礁溪溫泉水溫水位監測現況分析及檢討
    Monitoring Situation Analysis and Review on Water level and Water Temperature of Jiaosi Hot-Spring
    Authors: 蔡廷翊
    Contributors: 環境工程與科學系暨研究所
    張翊峰
    Keywords: 礁溪水溫及水位
    礁溪溫泉
    溫泉監測
    Jiaosi Hot-Spring
    The monitoring of Hot Spring
    Date: 2012
    Issue Date: 2013-03-18 15:07:41 (UTC+8)
    Abstract: 藉由監測並整合分析礁溪溫泉2009年至2012年(1-3月)之監測資料。根據文獻及現有監測資料來推估,仍無法定論礁溪溫泉是否已超出該有的安全使用量。未來仍需持續監測,進而了解礁溪溫泉水資源的長期變化,並找出適當的解決方法,否則礁溪溫泉資源將會很快面臨枯竭的一天。
    本研究針對礁溪設立的13口監測井,分別置入儀器觀測其水溫及水位之變化,整理2009年至2012年(1-3月)的監測數據及各年度趨勢比較圖,最後再與宜蘭的降雨量比較,探討雨量、水溫及水位之間的關係。
    從數據顯示,監測井JS003-1、JS015、R002、R003、R004在2010年6-9月大廈住宅型施工期間水位急速下降了2-4 m,水溫也明顯上升2-5℃;而10月中因颱風帶來的大量降雨量補注,使水位立即回升了2-8 m,水溫也下降了1-3℃。由本研究監測數據分析可得知,影響礁溪水溫及水位變化最明顯的為「降雨量」與「人為施工」。未來仍需持續監測礁溪溫泉,統整起一長期監測資料庫以供參考
    This research is focus to analyze and integrate the monitored data in Jiaosi Hot Spring from 2009 to 2012 (January.-March). According to the current study and monitored data, we still cannot estimate and conclude if Jiaosi Hot Spring had exceeded its security utilization limitation. We need to keep on monitoring to understand the resource variation of Jiaosi Hot Spring in the long term and find the appropriate solutions. Otherwise, sooner or later we will be facing the day that Jiaosi Hot Springs resources run dry.
    In this study, we placed instruments in 13 monitoring wells in Jiaosi to observe the water temperature gradient and water level variation. After that, we organize the monitored data and the run chart from 2009 to 2012. Finally, that above data was not only compared with the rainfall in Ilan, but also discussed the relationship between rainfall among, water temperature and water level.
    The data shows that the water level of those monitoring wells JS003-1, JS015, R002, R003, and R004 had rapidly declined 2-4 m and the temperature of water had significantly increased by 2-5℃ during the period of the residential building construction in June-September, 2010; the water level increased by 2-8m and the water temperature declined 1-3℃ due to the rainfall of typhoon in September. What we can learn from the analysis of monitored data is that the most obvious effects upon the water temperature and water level in Jiaosi are rainfall and construction. In order to build up a database for long-term reference, it''s necessary to constantly monitor the Jiaosi Hot Spring in the future.
    Relation: 校內外均一年後公開 ,學年度:100,114頁
    Appears in Collections:[Dept. of Environmental Engineering and Science (including master's program)] Dissertations and Theses

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