日本地球惑星科学連合2019年大会

講演情報

[E] ポスター発表

セッション記号 M (領域外・複数領域) » M-GI 地球科学一般・情報地球科学

[M-GI29] Near Surface Investigation and Modeling for Groundwater Resources Assessment and Conservation

2019年5月28日(火) 17:15 〜 18:30 ポスター会場 (幕張メッセ国際展示場 8ホール)

コンビーナ:Jui-Pin Tsai(National Cheng Kung University, Taiwan)、Hwa-Lung Yu(National Taiwan University)、Ching-Chung Cheng(National Chiao Tung University Taiwan)、Jing-Sen Cai(China University of Geosciences)

[MGI29-P02] Estimating the Hydraulic Conductivity and Heat Capacity of the Aquifer between the River and Well Site Using Joint Inversion Approach

*Jui-Pin Tsai1Chin-Tsai Hsiao4Liang-Cheng Chang2You-Cheng Chen2 Chun-Hung Chen3 Yun-Ta Cheng3Jen-Hung Yu3 (1.National Cheng Kung University, Taiwan 、2.National Chiao Tung University, Taiwan 、3.Water Resources Planning Institute, Water Resources Agency, Taiwan、4.Department of Information Management, Chung Chou University of Science and Technology)

キーワード:Hydraulic conductivity, Soil heat capactiy , Joint inversion, Temperature, Groundwater head , Interaction between groundwater and river water

This study continued to measure the water temperature and pressure at the riverbed, agricultural waterway, and groundwater monitoring well from Oct. to Nov. 2018. These observations were then used to estimate the hydraulic conductivity (K) and flux between the river and the aquifer of the well site. The water pressure data reveal that the correlation coefficient between river and groundwater level reaches 0.9 and that between the agricultural waterway and groundwater level is almost 0. This reveals that the groundwater head variation mainly affected by the river stage of the nearby river. The temperature data show that the groundwater temperature is correlated to the temperature of the river water and is uncorrelated to the air temperature. Accordingly, the temperature and head data of the groundwater and river water were used to estimate K and heat capacity of the aquifer between the river and well site using a joint inversion approach. The results show that the estimated K and heat capacity are 67.53 m ⁄ day and 4485000 J ⁄ (m3–℃), respectively.