| 講演要旨(和文) | | JOGMECの地熱貯留層探査技術開発では,地熱資源の探査リスク低減のため,弾性波探査技術に注目している.平成25年度は葛根田,大霧,雄勝及び秋ノ宮の各地熱地域の既存反射法データに対する再処理を実施し,1) 複合ノイズ抑制処理,2) 初期モデルランダム化による屈折トモグラフィー,3) PSDM,4) トモグラフィーに基づく屈折静補正,5) クロスディップ補正,6) 共通反射面重合法 の各手法の評価を実施した.大霧では,各種ノイズの特性に準拠した抑制処理の複合適用により断裂系イメージングが改善された.葛根田では,初動走時を用いた屈折法のトモグラムにおいて,坑井に基づく地質解釈と良好な相関が確認された.雄勝-秋ノ宮では,屈折法トモグラムをPSDMの速度モデルに利用することで,深部構造イメージの改善が見られた。本講演ではこれら解析成果を紹介するとともに,抽出された課題について議論する. |
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| | 講演要旨(英文) | | Improving success rates in geothermal reservoir exploration, a project that aims to develop geothermal reservoir exploration techniques has started by JOGMEC. Seismic exploration method, which is widely used in the oil industry, is one of the optimistic techniques for geological risk mitigation. Evaluating the validity of applications of recent seismic processing techniques to the geothermal field data, reprocessing of the legacy data from Kakkonda, Ogiri, Ogachi and Akinomiya was conducted and the following techniques were examined: 1) simultaneous application of various noise elimination techniques, 2) a refraction tomography with a Monte Carlo uncertainty analysis, 3) prestack depth migration (PSDM), 4) a tomographic refraction statics correction, 5) a crossdip correction, and 6) common reflection surface stack methods. In Ogiri field, a significant improvement in fracture imaging was achieved by the noise elimination. The refraction tomography of Kakkonda data showed a consistent result with a former geological study based on well data. The PSDM depicted a steeply dipping reflector at a depth of 1,000 m in Ogachi-Akinomiya field. We also discuss some issues which relates to difficulties in seismic exploration in geothermal areas. |
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