Journal Information
Research Areas
Publication Ethics and Malpractice Statement
To Scholarlink Resource Center
Guidelines for Authors
For Authors
Instructions to Authors
Copyright forms
Submit Manuscript
Call for papers
Guidelines for Reviewers
For Reviewers
Review Forms
Contacts and Support
Support and Contact
List of Issues
Indexing

 

Journal of Emerging Trends in Engineering and Applied Sciences (JETEAS)

ISSN:2141-7016

Article Title: Effect of Current Variation on Geoelectric Sounding Data Quality and Parameters in the Basement Complex Terrain
by Oladapo, Michael Ilesanmi

Abstract:
This study is aimed at evaluating effects of current variation on field data quality and reliability of derived geoelectric parameters within the Basement Complex rocks using the campus of Federal University of Technology, Akure as case study. The campus is underlain by quartzite, charnockite, migmatite-gneiss and granite-gneiss. Currents in the orders of 1, 2, 5, 10, 20, 50 and 100mA were injected. Acquisition and interpretation constraints (SD%) and RMS error respectively indicate that low currents of 1 - 5mA may provide good dataset within migmatite-gneiss, but low quality dataset within the other units. High standard deviation (s) of 4.37 and 7.061 obtained from quartzite and charnockite respectively explain low reliability of depth estimates within them at low currents while 0.6557 and 1.204 describe higher accuracy of depth estimates in granite gneiss and migmatite gneiss respectively. Low currents may enable fair environmental study assessment within charnockite (0.28?S?0.62; s = 0.1147) that exhibits heterogeneity at 1.06???1.34 (s = 0.1212), migmatite-gneiss (0.026?S?0.029; s = 0.00098) that exhibits heterogeneity at 1.5???2.24 (s = 0.3026) and granite-gneiss (0.023?S?0.026; s = 0.00168) that exhibits fair homogeneity (1.02???1.14; s = 0.0.05273) while higher current (above 50mA) may be required to make reliable assessment in quartzite (0.04?S? 0.14; s = 0.0441) that exhibits some heterogeneity (1.02???1.11; s = 0.0.0315). Thus, low current injection in remote areas of similar lithologic setting where equipment charging is unachievable will still present credible results. However, acquisition of satisfactory dataset and derivation of accurate geoelectric parameters resulting in good verdict can be best served when geoelectric soundings are undertaken at 50mA and above.
Keywords: current, basement complex rocks, data, geoelectric parameters and reliability
Download full paper

ISSN: 2141-7016

Editor in Chief.

Prof. Gui Yun Tian
Professor of Sensor Technologies
School of Electrical, Electronic and Computer Engineering
University of Newcastle
United Kingdom

 

 

Copyright © Journal of Emerging Trends in Engineering and Applied Sciences 2010