日本地熱学会誌 37 巻, 2 号

福岡県水縄断層系周辺における精密重力探査 ―断層構造と温泉湧出との関係―

It is important to understand the faults and basement rock structure in hot spring area. Precise gravity survey has been conducted around the Minou fault system, Fukuoka prefecture. We set 913 measurement points in Kurume, Asakura and Ukiha cities. We carried out the frequency analysis in order to remove the regional trend and noises. A three-dimensional gravimetric modeling was conducted under the assumption of two homogeneous layers condition. The survey result indicates that there are three graben structures on the north side of the Minou fault system. The maximum depth of the grabens was estimated at about 2000 m. A steep slope with north dipping exists on the southern side of graben. We compared the locations of hot springs with the basement rock structure, which is estimated from our precise gravity survey. The result of survey indicates that almost all of the hot springs are located above the steep slope portion of the basement rock, while some of them are above the deepest or gentle slope portions of the basement.

大岳地熱発電所における補充蒸気井(O-21) 掘削―出力と貯留層の安定維持を目指して

九州電力㈱大岳発電所は日本で最も活発な地熱地帯の1つである大岳−八丁原地熱地帯に位置する。本発電所は1967年に運開され，1988年以降は4本の蒸気井のみで比較的安定的に運転されていた。しかし2006年頃から，主力蒸気井であるO-22のスケール析出によって出力は減衰傾向を示すようになった。そのため2010年に，補充井の掘削ターゲットの選定を目的としたMT 探査が実施された。2012年にそのターゲットに補充蒸気井掘削(O-21)が行われ，蒸気・熱水の噴出に成功したことで，現在大岳地熱発電所の出力は回復に転じている。貯留層及び出力の安定維持のため、各種モニタリング等を継続し、適切な運用を行っていくことが求められる。

Seasonal Thermal Energy Storage in Shallow Geothermal Systems: Thermal Equilibrium Stage

Soil thermal properties are significant parameters affecting heat transfer between ground and buildings. This paper is dedicated to the study of seasonal heat storage in shallow geothermal installations in unsaturated soils for which hydrothermal properties such as degree of saturation and thermal conductivity vary with time throughout the profile. In the model, a semi-analytical model which estimates time-spatial thermal conductivity is coupled with a 2D cylindrical heat transfer modeling using finite difference method. We apply a time-spatial dependent boundary condition at far field of soil region. Finally, we perform the modeling of a Borehole Heat Exchanger (BHE) for in in-situ soils in Alsace region in France. Generally, we can observe that a thermal equilibrium stage can be reached after several heating and cooling cycles.