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Professor Chengwang Lei's research has implications for the daily lives of everyone on the planet, from urban-dwelling residents of the world's biggest cities to residents of remote communities in developing countries. He is currently focusing on two main areas: increasing energy efficiency in the built environment, and improving the quality of water sources. Both areas of research are vital to the future health of our planet and its inhabitants.
"Nowadays greenhouse gas emissions, climate change and global warming are all major topics of debate. We know that sooner or later we're going to run out of our conventional non-renewable sources of energy, so we need to both find new sources of renewable energy and increase the efficiency of our use of existing sources. So the two aims of my work in energy efficiency are to minimise our energy consumption for uses such as heating, cooling and ventilation of buildings, and to switch to more natural or renewable sources of energy such as solar or wind power.
"An example of my work on water quality is that I look at how pollutants enter a water system, what happens to them next, how they are transported throughout the water system and how they would affect the quality of our water supply. This research can be applied to small- to medium-scale water systems such as reservoirs and lakes.
"My research involves laboratory experiments, computer modelling and analysis, and the combination of these three approaches is a unique strength of my research group.
"I have been working in these fields for about two decades. Working in The University of Sydney has enabled me to strengthen and broaden my collaborations with people here and in the wider research community."
Professor Chengwang Lei's research has implications for the daily lives of everyone on the planet, from urban-dwelling residents of the world's biggest cities to residents of remote communities in developing countries. He is currently focusing on two main areas: increasing energy efficiency in the built environment, and improving the quality of water sources. Both areas of research are vital to the future health of our planet and its inhabitants.
"Nowadays greenhouse gas emissions, climate change and global warming are all major topics of debate. We know that sooner or later we're going to run out of our conventional non-renewable sources of energy, so we need to both find new sources of renewable energy and increase the efficiency of our use of existing sources. So the two aims of my work in energy efficiency are to minimise our energy consumption for uses such as heating, cooling and ventilation of buildings, and to switch to more natural or renewable sources of energy such as solar or wind power.
"An example of my work on water quality is that I look at how pollutants enter a water system, what happens to them next, how they are transported throughout the water system and how they would affect the quality of our water supply. This research can be applied to small- to medium-scale water systems such as reservoirs and lakes.
"My research involves laboratory experiments, computer modelling and analysis, and the combination of these three approaches is a unique strength of my research group.
"I have been working in these fields for about two decades. Working in The University of Sydney has enabled me to strengthen and broaden my collaborations with people here and in the wider research community."
研究兴趣
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Journal of Soils and Sedimentspp.1-12, (2024)
OCEAN ENGINEERING (2023): 116389
PHYSICS OF FLUIDSno. 7 (2023)
INTERNATIONAL JOURNAL OF THERMAL SCIENCES (2023): 108604-108604
International Journal of Thermal Sciences (2023): 108352-108352
International Journal of Heat and Fluid Flow (2023): 109208
SCIENCE OF THE TOTAL ENVIRONMENT (2023): 166374-166374
arXiv (Cornell University) (2023)
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