Abstract
The Chingshui geothermal area southwest of the Ilan plain is identified as a western extension of the Okinawa Trough in the northern Taiwan subduction system. Numerous geophysical, geological and geochemical investigations have been conducted since the 1970s by the Industrial Technology Research Institute, the Chinese Petroleum Corporation of Taiwan and the National Science Council of Taiwan. These studies indicated that the Chingshui stream is one of the largest geothermal areas for electricity generation in Taiwan. However, the power generation efficiency has not met initial expectations. Magnetotelluric (MT) data analyses show that the Chingshui geothermal region is a geologically complex area. A full three-dimensional (3D) inversion was therefore applied to reprocess the MT data and provide the detailed electrical structure beneath the Chingshui geothermal region. The 3D geoelectrical model displays an improved image that clearly delineates the Chingshui geothermal system geometry. Two conductive anomalies are imaged that possibly indicate high potential areas for geothermal energy in the Chingshui geothermal system. One of the potential areas is located in the eastern part of the Chingshui Fault at shallow depths. A significant conductive anomaly is associated with high heat flow and fluid content situations southwest of the geothermal manifest area at depth. A higher interconnected fluid indicates that this area contains the highest potential for geothermal energy in the Chingshui geothermal system.
Highlights
The Chingshui geothermal area in northeastern Taiwan is potentially one of the largest high-temperature areas in the country (Fig. 1)
The MT data collected in the Chingshui geothermal region demonstrated a 3D electrical feature according to the MT tensor parameters
A novel 3D electrical model clearly delineated the Chingshui geothermal system geometry, which provided an improved image for geological interpretations
Summary
The Chingshui geothermal area in northeastern Taiwan is potentially one of the largest high-temperature areas in the country (Fig. 1). The geophysical investigation was restarted to promote renewable energy in 2006 (Tong et al 2008) This investigation combines magnetotelluric (MT), magnetic, gravity, and borehole data to reconstruct a conceptual model to provide more details of the complex Chingshui geothermal system. Chang et al (2014) thought that the surface hot spring locations are inconsistent with the low resistivity region locations proposed in MT inverted images by Tong et al (2008). They reprocessed the MT data set again and integrated it with direct-current resistivity data and well logs to rebuild a new three-dimensional (3D) visualization model. A 3D inversion approach was applied in this study
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