Project Abstract

Abstract
Geothermal energy has gained considerable attention as a renewable and sustainable energy source with the potential to reduce reliance on fossil fuels. The exploration and development of geothermal resources require accurate and efficient methods to assess subsurface conditions. In this study, the application of Magnetotelluric (MT) method in geothermal exploration is investigated to understand its effectiveness in mapping subsurface structures associated with geothermal reservoirs. The research aims to evaluate the capabilities of the MT method in identifying potential geothermal resources and enhancing exploration strategies. The introductory chapter provides a comprehensive overview of the study, including the background, problem statement, objectives, limitations, scope, significance, structure of the research, and definition of key terms. The literature review chapter delves into existing research on geothermal exploration techniques, with a focus on the principles and applications of the MT method. The chapter synthesizes information on the advantages and limitations of MT in geothermal exploration and highlights key findings from previous studies. The research methodology chapter outlines the approach and procedures used in the study, including data collection, processing, and interpretation. The chapter discusses the selection of study areas, instrumentation, data acquisition techniques, and data processing methods. Various aspects of the MT method implementation in geothermal exploration are considered, such as site selection criteria, survey design, and interpretation of subsurface structures. In the discussion of findings chapter, the results of the MT surveys conducted in geothermal areas are presented and analyzed. The chapter discusses the identification of subsurface structures, anomalies, and potential geothermal reservoirs using MT data. The interpretation of MT data in relation to geological features and geothermal systems provides insights into the effectiveness of the method in characterizing subsurface properties. The conclusion and summary chapter encapsulate the key findings of the study and highlight the implications for geothermal exploration. The chapter discusses the strengths and limitations of the MT method in geothermal applications and proposes recommendations for future research and field investigations. The study contributes to the advancement of geothermal exploration techniques and provides valuable insights into the use of MT for identifying geothermal resources. Overall, this research project contributes to the growing body of knowledge on geothermal exploration methods and demonstrates the potential of the Magnetotelluric method as a valuable tool in assessing geothermal reservoirs. The findings of this study offer valuable insights for geoscientists, researchers, and industry professionals seeking to optimize geothermal exploration strategies and enhance sustainable energy development. Keywords Geothermal Energy, Magnetotelluric Method, Exploration, Subsurface Structures, Renewable Energy, Geothermal Reservoirs.

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