Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand

Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand

In 2015, a 1-km core hole was drilled into granitic rock at the Muang Rae geothermal area. Previous drilling in 1993 to 200 m was unsuccessful in obtaining flows, but one of the "dry" wells began flowing in August, 2013 at 9.75 L/s of 96.9°C water from a fracture zone 80 m deep. In the san...

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Main Authors: Wood S., Pirarai K., Fuangswasdi A., Kaentao W., Waibel A., Singharajwarapan F.
Format: Conference Proceeding
Published: 2017
Online Access:https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85018580209&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/42632
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Institution: Chiang Mai University
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spelling th-cmuir.6653943832-426322017-09-28T04:28:12Z Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand Wood S. Pirarai K. Fuangswasdi A. Kaentao W. Waibel A. Singharajwarapan F. In 2015, a 1-km core hole was drilled into granitic rock at the Muang Rae geothermal area. Previous drilling in 1993 to 200 m was unsuccessful in obtaining flows, but one of the "dry" wells began flowing in August, 2013 at 9.75 L/s of 96.9°C water from a fracture zone 80 m deep. In the sandy bed of the Pai River, 150 m south of that well is a 600-m long line of hot seeps, oriented NE, with highest temperature measured at 94.5°C. Geology is foliated Triassic () granitic rock cut by a NE-SW-trending normal fault zone (dip 65° NW) with extensive fluorite mineralization. Mineral equilibrium geothermometer analysis predicts a reservoir temperature of 132°C. The core hole was sited NW of the seep zone to drill into the fault zone at 600 m. MT indicated a low-resistivity anomaly 150-500 m deep at the site. The well did not flow, but was pumped at 6.4 L/s of 86°C water with 2.5 m of drawdown. Temperature logs indicate the well intersects a fracture with flowing hot water of 91.5°C at 600 m. The log shows a temperature inversion related to the transient effect of conductive heating of the surrounding rock by hot-water flow in the fracture. The bottom 150 m of the well shows a 23°C/km temperature gradient, which reflects the regional crustal conductive gradient. 2017-09-28T04:28:12Z 2017-09-28T04:28:12Z 2016-01-01 Conference Proceeding 01935933 2-s2.0-85018580209 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85018580209&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/42632
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
description In 2015, a 1-km core hole was drilled into granitic rock at the Muang Rae geothermal area. Previous drilling in 1993 to 200 m was unsuccessful in obtaining flows, but one of the "dry" wells began flowing in August, 2013 at 9.75 L/s of 96.9°C water from a fracture zone 80 m deep. In the sandy bed of the Pai River, 150 m south of that well is a 600-m long line of hot seeps, oriented NE, with highest temperature measured at 94.5°C. Geology is foliated Triassic () granitic rock cut by a NE-SW-trending normal fault zone (dip 65° NW) with extensive fluorite mineralization. Mineral equilibrium geothermometer analysis predicts a reservoir temperature of 132°C. The core hole was sited NW of the seep zone to drill into the fault zone at 600 m. MT indicated a low-resistivity anomaly 150-500 m deep at the site. The well did not flow, but was pumped at 6.4 L/s of 86°C water with 2.5 m of drawdown. Temperature logs indicate the well intersects a fracture with flowing hot water of 91.5°C at 600 m. The log shows a temperature inversion related to the transient effect of conductive heating of the surrounding rock by hot-water flow in the fracture. The bottom 150 m of the well shows a 23°C/km temperature gradient, which reflects the regional crustal conductive gradient.
format Conference Proceeding
author Wood S.
Pirarai K.
Fuangswasdi A.
Kaentao W.
Waibel A.
Singharajwarapan F.
spellingShingle Wood S.
Pirarai K.
Fuangswasdi A.
Kaentao W.
Waibel A.
Singharajwarapan F.
Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand
author_facet Wood S.
Pirarai K.
Fuangswasdi A.
Kaentao W.
Waibel A.
Singharajwarapan F.
author_sort Wood S.
title Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand
title_short Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand
title_full Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand
title_fullStr Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand
title_full_unstemmed Muang rae geothermal system: Drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern Thailand
title_sort muang rae geothermal system: drilling and borehole geophysics, 1000-m core hole into granitic rock, amphoe pai, mae hong son province, northern thailand
publishDate 2017
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85018580209&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/42632
_version_ 1681422226167955456

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