Sustainable energy efficiency and energy security in developing countries: a case study of airports in South Africa.
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Date
2022
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Abstract
When looking at the penetration of energy efficiency into the built environment and progress in the
decrease in reliance on fossil fuel sources for energy generation, there is a definite challenge in obtaining
the priority it requires to arrest the exponential increase in carbon emissions. Energy being key to
economic development and improvement of the human way of life, developing countries face unique
challenges to secure and sustain low carbon energy sources and effectively inculcate energy efficiency.
This study aimed to present a solution in the form of an engineering approach entrenched in the three
dimensions of business sustainability, i.e., environmental, social, and economic, to ensure that efforts
towards energy efficiency and energy security in developing countries are effective and sustained in
reducing carbon emissions. This solution was implemented in a live environment for nine airports in
South Africa, and the results are presented in the form of case studies. The thesis investigated the global
context of the climate change challenge and the global trends regarding carbon emissions from energy
generation. The barriers that developing countries face with respect to achieving energy efficiency and
energy security are presented together with the focuses required to overcome the barriers. Energy
efficiency is investigated from the point of resource extraction to the point of energy end use,
investigating energy conversion efficiencies, showing its best-matched end-use, resulting in the
determination of principles for energy efficiency from component to system to infrastructure ecosystem.
The principles developed were used to write an energy efficiency policy for all new infrastructure
adopted at Airport Company South Africa’s (ACSA’s) nine airports in South Africa. An approach to
interpreting onsite low carbon energy sources and their generation potential using available commercial
technologies is proposed. Principles are created to determine an optimum low carbon energy mix that
is suitable to available resources, business focus, operating environment and efficiently matching the
site energy demand. The resulting energy mix based on these principles is presented as a case study for
ACSA’s airports. The technologies identified for implementation to reduce energy consumption of the
airports as well as their carbon footprint through the energy mix are tested for their financial viability
using an economic model run via Microsoft Excel. These initiatives are SMART (specific, measurable,
achievable, relevant, timed) in that they are specifically chosen for an organisation in a developing
country, measurable in economic return and environmental benefit, achievable for the business, relevant
to the airports’ geographical location and timed to map a pathway to carbon neutrality in electricity
consumption for the airports by 2030. To ensure that the principles defined are sustained through the
necessary changes in legislation, personnel and technologies, a set of key factors that underpin energy
efficiency and energy security were determined and are presented. A case study of the implementation
of these factors for airports in South Africa are presented. The thesis concludes with leveraging the
fourth industrial revolution for innovative engineering solutions, presenting smart solutions to close the
large development time gaps required for building human capacity, engineering capability and costly storage technologies to mature due to inherent intermittency of renewable energies. The results of the
study and its implementation show that the solutions presented for energy efficiency and a low carbon
energy mix are realistic and successful, while being grounded in sound scientific and engineering
principles and sustained through inevitable changes. This is evident in the various strategies, company
policies, technical guidelines and other programmes being approved and implemented by the senior
management of the organisation that owns and operates the nine South African airports presented in
this case study. The findings of the implementation show that a low carbon energy mix makes business
sense, provides energy security and that achieving carbon neutrality is possible through the adoption of
carbon offsetting. The “acid test” showing the solution presented in this thesis is being implemented for
the nine airports in South Africa is that it still remains as a valid and a business focus even in the
financial crisis faced by the aviation industry since the COVID-19 pandemic.
Description
Doctoral Degree. University of KwaZulu-Natal, Durban.