Integrated Radon Measurement & Electrical Prospecting in Geothermal Exploration | Lantian, Jiangxi Case Study

 

1. Introduction

Geothermal energy exploration plays a crucial role in advancing sustainable and renewable energy systems. Accurate identification of geothermal reservoirs requires integrated geophysical and geochemical methods to reduce uncertainty and enhance exploration success rates. This study introduces the combined use of soil radon measurement and conventional electrical prospecting techniques to improve geothermal anomaly detection. By analyzing subsurface gas migration patterns alongside resistivity variations, researchers can better interpret fault structures and heat pathways, contributing to efficient geothermal resource assessment and sustainable energy planning.

2. Radon Measurement as a Geochemical Indicator

This topic explores radon gas as a tracer for identifying geothermal activity. Elevated radon concentrations often correlate with fault zones and fracture systems that facilitate heat flow. The research evaluates radon anomaly mapping techniques and discusses how soil gas sampling enhances geothermal target identification in structurally complex regions.

3. Electrical Resistivity Prospecting in Geothermal Studies

Electrical resistivity methods provide insights into subsurface lithology, fluid saturation, and structural discontinuities. This research analyzes resistivity contrasts to detect potential geothermal reservoirs and thermal fluid pathways. The integration of resistivity profiling strengthens structural interpretation accuracy.

4. Integrated Multi-Method Exploration Framework

Combining radon geochemical analysis with electrical prospecting improves anomaly verification and reduces exploration risk. This topic discusses methodological integration, data correlation techniques, and cross-validation approaches that enhance geothermal resource delineation efficiency.

5. Case Study Analysis: Lantian Section, Ningdu, Jiangxi Province

The study area demonstrates the practical application of integrated exploration methods in a geothermal context. Geological background, fault structures, radon anomalies, and resistivity results are analyzed to evaluate geothermal potential and validate the effectiveness of combined techniques.

6. Implications for Sustainable Geothermal Development

This topic examines how integrated exploration strategies support sustainable energy development goals. The findings highlight the role of advanced geophysical methods in accelerating clean energy transitions, reducing exploration costs, and promoting long-term geothermal resource management.


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