防灾减灾学报
防災減災學報
방재감재학보
JOURNAL OF DISASTER PREVENTION AND REDUCTION
2013年
4期
67-69
,共3页
李婧%吴海波%朱家明%柴红泽%李希文
李婧%吳海波%硃傢明%柴紅澤%李希文
리청%오해파%주가명%시홍택%리희문
观测井水温%梯度测量%信噪比
觀測井水溫%梯度測量%信譟比
관측정수온%제도측량%신조비
water temperature of observation well%gradient test%signal to noise ratio
根据《SZW-1A型数字式温度计(2004)》安装规范要求,对延寿台1号观测井进行水温梯度测量,找到该井温度波动最小部位,重新确定地热探头投放位置,以提高水温观测数据质量,得到信噪比较高的地热前兆信息。
根據《SZW-1A型數字式溫度計(2004)》安裝規範要求,對延壽檯1號觀測井進行水溫梯度測量,找到該井溫度波動最小部位,重新確定地熱探頭投放位置,以提高水溫觀測數據質量,得到信譟比較高的地熱前兆信息。
근거《SZW-1A형수자식온도계(2004)》안장규범요구,대연수태1호관측정진행수온제도측량,조도해정온도파동최소부위,중신학정지열탐두투방위치,이제고수온관측수거질량,득도신조비교고적지열전조신식。
According to the code requirements to install SZW-1A digital thermometer , temperature gradient measurement was carried out in Yanshou well I, and to find out the smallest position wave of temperature in the well. Selection of the optimum position for geothermal probe again. The key work is to improve the quality by temperature observation date. Results of higher signal-to-noise geothermal precursory information obtained from temperature gradient measurement.
