Identification of Geothermal System In “Diana” Area, Indonesia Based On Magnetotelluric Data Modelling

JGEET Journal of Geoscience Engineering Environment and Technology Pub Date : 2022-03-30 DOI:10.25299/jgeet.2022.7.1.7448

Fajar Alpine, Y. Yatini, I. Takodama

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Abstract

These days, the number of geothermal explorations is being increased to obtain a greater new potential of geothermal energy. One of the methods that is often used is magnetotelluric (MT). By MT, the components of a geothermal system can be delineated based on the resistivity values. This research’s main purpose is MT data modelling in 1 D and 2 D to delineate the geothermal system in the research area. There are 18 point of soundings, with a distance of about 1 – 3 km for each point. Bostick Transformation is used in 1 D modelling while Non-Linear Conjugate Gradient inversion is used as 2 D modelling with L – curve analysis as a method to obtain an optimal value of regularization parameter. Based on the analysis of 1 and 2 D models, the caprock zone was identified with a resistivity value of < 50 Ωm at a depth of 500 m with a thickness of about 250 m. The reservoir zone was identified with a resistivity value range of (50 – 100) Ωm located at a depth of 1000 with a thickness of about 500 m. Also, fault structures have been identified at the center of the research area. The regularization parameter used for the 2 D modelling is 5, which has obtained RMS values of 2.25% and 2.21% for each line.

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基于大地电磁数据建模的印尼“Diana”地区地热系统识别

目前，地热勘探的数量正在增加，以获得更大的新的地热能源潜力。其中一种常用的方法是大地电磁法(MT)。利用大地电磁法，可以根据电阻率值圈定地热系统的组成部分。本研究的主要目的是利用大地电磁学的一维和二维数据建模来圈定研究区的地热系统。共有18个测点，每个测点的测深距离约为1 - 3公里。一维建模采用Bostick变换，二维建模采用非线性共轭梯度反演，利用L曲线分析方法求正则化参数的最优值。通过1维和2维模型分析，确定了深度500 m、厚度约250 m的盖层带，其电阻率值< 50 Ωm。利用电阻率值范围(50 ~ 100)Ωm确定了储层，储层深度1000，厚度约500 m。此外，在研究区中心还发现了断裂构造。二维建模的正则化参数为5，得到每条线的RMS值分别为2.25%和2.21%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

JGEET Journal of Geoscience Engineering Environment and Technology

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审稿时长

16 weeks

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