Geophysical characteristics of a fault system in the northern Central Range of Taiwan and its applications for geothermal energy exploration

IF 2.9 2区 地球科学 Q3 ENERGY & FUELS
Bing-Cheng Chen, Tito Perdana, Li-Wei Kuo
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Abstract

The northern Central Range of Taiwan is a high-potential geothermal region. Since the formations are mainly tight metasandstone and slate, permeable structures associated with faults are commonly considered as conduits of geothermal fluids. This study determines the characteristics and orientations of the permeable fault zones by analyzing the geophysical logs and microresistivity formation image log (FMI) of the JT-4 well in Jentse, an important geothermal area in the northern Central Range. Between 720 and 1480 m measured depth (MD), the effective porosity of the intact host rock is mostly below 3% calculated by the geophysical log. Zones with porosity greater than 5% are only clustered within a few thin intervals. The FMI interpretations show these porous zones are in the interior of the fractured and faulted intervals. These porous fault zones comprise fault damage zones with a high density of open fracture planes and fault cores with porous fault breccias. There is a highly brecciated fault core in 1334–1339 m MD, which would be the most permeable interval of the well. Additionally, some healed fault zones with sealed fractures are observed. The picked drilling-induced tensile fractures signify that the direction of the present-day maximum horizontal principal stress is N40–50°E, and most of the open fractures also strike parallel to the NE–SW direction. The study results show that the open fractures are concentrated in the four fault zones belonging to one major normal fault system. After integrating the orientations and locations of the fault zones, we propose that the permeable normal fault system is about 200 m wide, trends N50–70°E, and dips 70–80° to the NW. The development of the open fractures and the permeable fault system in the northern Central Range may be controlled by the current rifting of the Okinawa Trough offshore northeastern Taiwan. The study exhibits the characteristics of fractured fluid conduits of the regional geothermal system, which will benefit future geothermal exploration in northeastern Taiwan.

台湾中部山脉北部断裂系统地球物理特征及其在地热能勘探中的应用
台湾中部山脉北部是一个高潜力的地热区。由于地层主要为致密的变质砂岩和板岩,因此与断层相关的可渗透构造通常被认为是地热流体的管道。通过对中部山脉北部重要地热区Jentse JT-4井的地球物理测井和微电阻率地层成像测井(FMI)分析,确定了渗透性断裂带的特征和方向。在720 ~ 1480 m测量深度(MD)范围内,地球物理测井计算的完整寄主岩有效孔隙度大多低于3%。孔隙度大于5%的储层仅聚集在几个薄层内。FMI解释表明,这些多孔带位于裂缝和断裂层段的内部。这些多孔断裂带包括具有高密度开放断裂面的断层破坏带和具有多孔断层角砾岩的断层核。1334 ~ 1339 m MD为高角化断芯,为该井渗透率最高的段段。此外,还观察到一些愈合的断裂带,裂缝封闭。钻致张性裂缝的挑出表明现今最大水平主应力方向为n40 ~ 50°E,且大部分张开裂缝平行于NE-SW方向。研究结果表明,该区开放裂缝集中分布于4个断裂带内,属于一个主要的正断层系统。综合断裂带的走向和位置,我们认为该渗透正断层系统宽约200 m,走向n50 ~ 70°E,倾角70 ~ 80°NW。台湾东北海域冲绳海槽的裂谷作用可能控制了中部山脉北部开放裂缝和渗透性断裂体系的发育。研究结果揭示了区域地热系统裂缝性流体管道的特征,为今后台湾东北地区的地热勘探提供了理论依据。
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来源期刊
Geothermal Energy
Geothermal Energy Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
5.90
自引率
7.10%
发文量
25
审稿时长
8 weeks
期刊介绍: Geothermal Energy is a peer-reviewed fully open access journal published under the SpringerOpen brand. It focuses on fundamental and applied research needed to deploy technologies for developing and integrating geothermal energy as one key element in the future energy portfolio. Contributions include geological, geophysical, and geochemical studies; exploration of geothermal fields; reservoir characterization and modeling; development of productivity-enhancing methods; and approaches to achieve robust and economic plant operation. Geothermal Energy serves to examine the interaction of individual system components while taking the whole process into account, from the development of the reservoir to the economic provision of geothermal energy.
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