Framework for Measuring the Resilience of Utility Poles of an Electric Power Distribution Network

Md Morshedul Alam,Berna Eren Tokgoz,Seokyon Hwang

doi:10.1007/s13753-019-0219-8

Md Morshedul Alam, Berna Eren Tokgoz + Show 1 more

Open Access

https://doi.org/10.1007/s13753-019-0219-8

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Abstract

The utility poles of an electric power distribution system are frequently damaged by wind-related disasters. This study notes that the wooden poles are particularly vulnerable to such disasters and the failures of the poles can cause a network-level failure leading to short- or long-term power outages. To mitigate the problem, this study proposes a framework for measuring the resilience of the wooden utility poles based on the angular deflection of a pole due to the wind force. Given the existing inclination angle of a pole, the angular deflection is measured by finite element analysis using ANSYS® Workbench1 to determine the resilience area under various wind speeds. For this, the conditions of load and support for a pole, which are called boundary conditions in ANSYS®, are generated. The proposed framework also includes an approach to cost–benefit analysis that compares different strategies for corrective action. The results of the case study in which the framework was applied show that the proposed framework can be effectively utilized by electric power distribution companies to increase the resilience of their systems.

Highlights

The power distribution system is one of the most vital components of modern society
The utility poles of an electric power distribution system are frequently damaged by wind-related disasters
Among the various components of the power distribution system, the poles are frequently damaged by wind-related disasters, which leads to hours of power outages that extend for days or even weeks, depending on the intensity of a particular disaster

Summary

Introduction

The power distribution system is one of the most vital components of modern society. This system is vulnerable to disasters caused by wind-related events such as tornados and hurricanes, which frequently incurs power outages. Extreme weather events and climate change are the two most significant causes of power outages in various parts of the world (Mukherjee et al 2018). Among the various components of the power distribution system, the poles are frequently damaged by wind-related disasters, which leads to hours of power outages that extend for days or even weeks, depending on the intensity of a particular disaster. Hurricane Harvey seriously damaged approximately 5000 power distribution poles in Texas in 2017 (AEP Texas 2017). As the severity and frequency of natural hazard-induced disasters are increasing year by year (NOAA 2017), it is imperative for power utility companies to develop resilient utility poles for the electric power distribution network

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