Graduation Semester and Year

2016

Language

English

Document Type

Dissertation

Degree Name

Doctor of Philosophy in Industrial Engineering

Department

Industrial and Manufacturing Systems Engineering

First Advisor

Susan Ferreira

Abstract

Sustainability of energy systems is one of the most important challenges currently facing humanity. Access to energy is critical to ensure economic and social development of a nation (UNDP et al., 2000); however, extraction, production and consumption of energy resources are also associated with high volumes of greenhouse gas (GHG) emissions, environmental damage and, in some cases, adverse health effects in communities where energy facilities are located. Renewable energy sources have been considered as an alternative to traditional energy sources to meet energy demand in a sustainable manner (Del Rio and Burguillo, 2008). Wind energy is considered to be one of the cleanest sources of energy. Furthermore, wind energy is one of the fastest growing energy sources worldwide. Wind energy systems are large complex systems that involve heterogeneous stakeholders as well as various system elements. It is critical to better understand the sustainability of wind energy systems from a holistic perspective over the lifecycle of the system to ensure its favorable contribution to the sustainability of the energy system as a whole. Wind energy system sustainability focuses on a balance between economic, social and environmental objectives. Systems thinking studies a system of interest as a whole, where all the system’s parts interact with each other as well as with other systems. System dynamics, a systems thinking methodology, has been used to evaluate the sustainability of wind energy systems. A wind energy system sustainability causal model has been developed to represent key factors and factor relationships related to wind energy system sustainability during the installation, operation and maintenance, and decommissioning phases. A system dynamics simulator was developed to represent causal model factors and model the behavior of these factors. The aim of the simulator is to help decision makers to understand the impacts of their decisions. A better understanding of factors and factor relationships associated with wind energy system sustainability would provide energy decision makers a way to assess sustainability of a wind energy system.

Keywords

Wind energy system, Sustainability, System dynamics, Systems thinking

Disciplines

Engineering | Operations Research, Systems Engineering and Industrial Engineering

Comments

Degree granted by The University of Texas at Arlington

25772-2.zip (5232 kB)

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