Integrated Radon Measurement & Electrical Prospecting for Geothermal Exploration: Lantian Section Case Study (Jiangxi, China)

 

1. Introduction

Geothermal energy exploration requires accurate subsurface characterization to reduce drilling risks and improve resource assessment. This research introduces an integrated methodology combining radon gas measurement and conventional electrical prospecting to enhance geothermal detection efficiency. By analyzing radon anomalies associated with subsurface fault zones and correlating them with resistivity data, the study demonstrates a multidisciplinary approach to identifying geothermal reservoirs. The Lantian Section case study provides a practical framework for sustainable geothermal exploration and contributes to advancing renewable energy resource mapping techniques.

2. Radon Measurement in Geothermal Prospecting

Radon gas anomalies are closely linked to tectonic fractures and geothermal pathways. This topic examines radon concentration mapping techniques and their role in identifying permeable zones associated with geothermal reservoirs. The study highlights how radon surveys serve as cost-effective geochemical indicators for subsurface heat flow systems.

3. Electrical Resistivity Methods in Subsurface Analysis

Electrical prospecting techniques such as resistivity profiling and vertical electrical sounding are widely used to characterize subsurface lithology and fluid distribution. This research discusses how resistivity contrasts help delineate geothermal reservoirs and structural faults in complex geological formations.

4. Integrated Geochemical and Geophysical Interpretation

Combining radon measurement with electrical resistivity data improves exploration accuracy by reducing ambiguity. This topic explores data integration models that correlate gas anomalies with resistivity patterns, strengthening predictive mapping and geothermal targeting efficiency.

5. Case Study Insights from Lantian Section, Jiangxi Province

The Lantian Section case study provides empirical evidence supporting the integrated exploration model. This topic analyzes field data interpretation, anomaly distribution patterns, and reservoir identification processes, offering practical insights into geothermal exploration in similar geological environments.

6. Policy and Sustainable Energy Implications

The research underscores the importance of adopting integrated exploration frameworks to support renewable energy expansion. This topic discusses implications for sustainable energy planning, reduced exploration risk, and enhanced geothermal development strategies aligned with low-carbon transition goals.


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