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According to Associate Professor Gregor Verbic, solving the sustainable energy supply puzzle holds the key to the prosperity of humankind. As many in the community are aware, our current reliance on fossil fuels needs to be replaced with a renewable alternative - not only because using fossil fuels cause global warming, but also because we are about to run out of cheap fossil fuels. Finding a technically sound and socially acceptable solution is the focus of Associate Professor Verbic's research.
"My research aims to find ways of harnessing the untapped potential of distributed energy resources connected at lower voltage levels - including small-scale distributed generation, energy storage systems, electric vehicles and smart appliances - to be used as a system resource, which will make it possible for us to transform our fossil fuel-based electricity supply into a more sustainable one based on renewable energy sources such as wind and solar.
"A good example is energy management in residential buildings. Many Australians have solar panels installed on their roofs, and use mains power as a back-up. With improved energy storage and a home energy management system, they'll be able to reshape their energy consumption pattern to avoid using mains electricity when it's most expensive. Network operators will benefit from the more efficient use of resources and reduced peak demand, and users will have more control over their energy expenditure by being able to use energy more economically.
"My work is contributing towards the transformation of our current electricity infrastructure into a 'smart', electronically automated system that delivers services to customers more economically and with improved energy efficiency. My ultimate goal is to enable zero-carbon grids with minimal impact to society.
"I've been working in this field since the late 1990s, and joined the University of Sydney in 2010. My main reason for coming here was to find a productive and encouraging academic environment, and this has turned out to be a real boost to my research."
According to Associate Professor Gregor Verbic, solving the sustainable energy supply puzzle holds the key to the prosperity of humankind. As many in the community are aware, our current reliance on fossil fuels needs to be replaced with a renewable alternative - not only because using fossil fuels cause global warming, but also because we are about to run out of cheap fossil fuels. Finding a technically sound and socially acceptable solution is the focus of Associate Professor Verbic's research.
"My research aims to find ways of harnessing the untapped potential of distributed energy resources connected at lower voltage levels - including small-scale distributed generation, energy storage systems, electric vehicles and smart appliances - to be used as a system resource, which will make it possible for us to transform our fossil fuel-based electricity supply into a more sustainable one based on renewable energy sources such as wind and solar.
"A good example is energy management in residential buildings. Many Australians have solar panels installed on their roofs, and use mains power as a back-up. With improved energy storage and a home energy management system, they'll be able to reshape their energy consumption pattern to avoid using mains electricity when it's most expensive. Network operators will benefit from the more efficient use of resources and reduced peak demand, and users will have more control over their energy expenditure by being able to use energy more economically.
"My work is contributing towards the transformation of our current electricity infrastructure into a 'smart', electronically automated system that delivers services to customers more economically and with improved energy efficiency. My ultimate goal is to enable zero-carbon grids with minimal impact to society.
"I've been working in this field since the late 1990s, and joined the University of Sydney in 2010. My main reason for coming here was to find a productive and encouraging academic environment, and this has turned out to be a real boost to my research."
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Smart Energy (2023): 100117-100117
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IEEE Transactions on Smart Gridno. 4 (2023): 2874-2889
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