Akwasi Acheampong Aning

Physics

About

Akwasi Acheampong Aning is a geophysicist at the Department of Physics, KNUST. He holds BSc Physics and MSc Physics degrees from KNUST, PhD Geophysics form KNUST and PhD Earth Sciences from Université de Paris-Sud 11, France. His research interest is impact cratering science, groundwater and environmental geophysics.

Research Summary

(inferred from publications by AI)

The researcher has demonstrated a strong focus on geophysical methods across various domains, integrating advanced techniques like electrical resistivity tomography into hydrogeology, groundwater exploration, and subsurface mapping. Their work also emphasizes the importance of interdisciplinary approaches, combining datasets such as electromagnetic and radiometric data for comprehensive mapping in hydrogeological settings. Additionally, they have contributed to advancing predictive models using compressional sonic logs and soil resistivity studies, highlighting their expertise in integrating geophysical techniques with real-world applications.

Research Themes

All (21 Papers)

Physical Sciences (19 Papers)

Social Sciences (1 Papers)

Life Sciences (1 Papers)

All Papers

Delineation of graves using electrical resistivity tomography(2016)

Forensic Investigations of Clandestine Burials Using Ground Penetrating Radar (GPR)(2025)

Groundwater Exploration using 1D and 2D Electrical Resistivity Methods(2016)

2D Electrical Resistivity Imaging for Delineation of Crystalline Basement Aquifer in Northern Ghana(2019)

2D Electrical Resistivity Tomography (ERT) Survey using the Multi-Electrode Gradient Array at the Bosumtwi Impact Crater, Ghana(2016)

The Bosumtwi meteorite impact crater, Ghana : New Results on the impact direction of the meteorite from 2D Electrical Resistivity Tomography (ERT) Survey(2013)

Prediction of compressional sonic log in the western (Tano) sedimentary basin of Ghana, West Africa using supervised machine learning algorithms(2023)

Implications Of Soil Resistivity Measurements Using The Electrical Resistivity Method: A Case Study Of A Maize Farm Under Different Soil Preparation Modes At KNUST Agricultural Research Station, Kumasi(2015)

Mapping the subsurface structure of the suevite deposit in the north of the Bosumtwi impact crater using electrical resistivity and seismic refraction tomographies(2020)

Application of Electromagnetic and Electrical Resistivity Methods for Borehole Siting in Low-Grade Metavolcanic and Metasedimentary Rocks, Sunyani West, Ghana(2020)

Electrical Resistivity And Induced Polarization Imaging For Refuse Dump Site(2020)

Prospecting for Groundwater Using the Continuous Vertical Electrical Sounding Method(2018)

Integrated Geophysical and Geological Mapping of the Lithological and Geological Structures at a Proposed Generator Site(2019)

L'impact du cratère du lac Bosumtwi : l'utilisation de la tomographie de la résistivité électrique (TRE) pour tracer la carte géométrique de la paroi internet du cr&tère et de l'impact associé à la structure(2012)

Bosumtwi impact crater : use of electrical resistivity tomography (ERT) to map the geometry of the inner wall of the crater and the impact related structures(2012)

Application of the electrical resistivity tomography (ERT) method in identifying high groundwater potential sites in the Atebubu municipality of Ghana(2025)

Interpretation of Geological Structures Hosting Potential Gold Deposits in the Konongo Gold Mine Using Airborne Magnetic, Electromagnetic and Radiometric Datasets(2019)

KNUST SEG Geophysics Field Camp: A project to study slavery-related archaeology in West Africa(2024)

GEOPHYSICAL CHARACTERISTICS OF THE BOSUMTWI IMPACT CRATER FROM SEISMIC, GRAVITY AND MAGNETIC MEASUREMENTS(2013)

Some Physical Properties of Suevites from the Bosumtwi Impact Crater, Ghana(2013)

Groundwater potential and quality assessment of the Oti Pendjari and Obosum Groups of the Atebubu municipality(2025)

Collaboration Network

219456a1-b7ea-4132-ab1f-a405429d4a7e

Research Collaboration Map

Collaboration Frequency

Less

About This Profile

This profile is generated from publicly available publication metadata and is intended for research discovery purposes. Themes, summaries, and trajectories are inferred computationally and may not capture the full scope of the lecturer's work. For authoritative information, please refer to the official KNUST profile.