Earth resistance measurements in urban contexts: Problems and possible solutions

Both EN 50522 and IEEE Std. 81 propose the Fall of Potential Method (FPM) to carry out the measurement of the resistance to earth of an Earthing System (ES). However, in urban areas, the recommended distances between the ES and auxiliary electrodes are not easy to respect, due to the presence of buildings and tarmac. Moreover, unknown buried metallic parts, as well as the interconnection among the ESs made by the Distributor System Operator, could modify the earth potential profile of the area, affecting the measurement results. In this paper, the issues that could affect the measurement result if FPM is used in an urban context are presented. A parametric analysis, carried out with Comsol Multiphysics, quantifies the errors due to wrong positioning of the auxiliary electrodes with reference to the ES under test. In addition, a field measurement is described, emphasizing the main aspects that could compromise the results. Finally, practical suggestions to reduce errors are provided.

[1]  L. Martirano,et al.  The Global Grounding System: Definitions and guidelines , 2015, 2015 IEEE 15th International Conference on Environment and Electrical Engineering (EEEIC).

[2]  Jozsef Ladanyi,et al.  Influence of auxiliary electrode arrangements on earth resistance measurement using the Fall-of-Potential method , 2013, 2013 4th International Youth Conference on Energy (IYCE).

[3]  A. Mujezinovic,et al.  Application of finite element method in calculation of large and complex grounding systems , 2012, 2012 International Conference and Exposition on Electrical and Power Engineering.

[4]  Caixin Sun,et al.  Finite element modeling of the Grounding System in consideration of soil nonlinear characteristic , 2010, 2010 International Conference on High Voltage Engineering and Application.

[5]  A. Campoccia,et al.  Analysis of interconnected earthing systems of MV/LV substations in urban areas , 2008, 2008 43rd International Universities Power Engineering Conference.

[6]  L. Martirano,et al.  A practical method to test the safety of HV/MV substation Grounding Systems , 2015, 2015 IEEE 15th International Conference on Environment and Electrical Engineering (EEEIC).

[7]  O. C. Zienkiewicz,et al.  A novel boundary infinite element , 1983 .

[8]  Sponsor,et al.  IEEE guide for safety in AC substation grounding , 2013 .

[9]  Enrico Pons,et al.  Global Earthing System: Can Buried Metallic Structures Significantly Modify the Ground Potential Profile? , 2015, IEEE Transactions on Industry Applications.

[10]  Enrico Pons,et al.  Dangerous touch voltages in buildings: The impact of extraneous conductive parts in risk mitigation , 2017 .

[11]  Luigi Martirano,et al.  Currents Distribution During a Fault in an MV Network: Methods and Measurements , 2016, IEEE Transactions on Industry Applications.

[12]  Luigi Martirano,et al.  Simplified Conservative Testing Method of Touch and Step Voltages by Multiple Auxiliary Electrodes at Reduced Distance , 2015, IEEE Transactions on Industry Applications.

[13]  E. B. Curdts Some of the fundamental aspects of ground resistance measurements , 1958, Transactions of the American Institute of Electrical Engineers, Part I: Communication and Electronics.

[14]  A. Stohchniol,et al.  A general transformation for open boundary finite element method for electromagnetic problems , 1992 .

[15]  Enrico Pons,et al.  A Comparative Review of the Methodologies to Identify a Global Earthing System , 2017, IEEE Transactions on Industry Applications.

[16]  Enrico Pons,et al.  Impact of MV Ground Fault Current Distribution on Global Earthing Systems , 2015, IEEE Transactions on Industry Applications.

[17]  G. F. Tagg Measurement of earth-electrode resistance with particular reference to earth-electrode systems covering a large area , 1964 .

[18]  Enrico Pons,et al.  The identification of global earthing systems: A review and comparison of methodologies , 2016, 2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC).