Discovery Early Career Researcher Award - Grant ID: DE200101597
Funder
Australian Research Council
Funding Amount
$424,398.00
Summary
Integrated design optimization of novel photovoltaic envelope for buildings. The research will couple the building integrated renewable application with traditional architectural passive design strategies. A new indoor environment quality index will be proposed as an objective function to be optimized together with the net building energy consumption. Surrogate models trained for each modelling software will be incorporated into the proposed optimization algorithm to improve the calculation effi ....Integrated design optimization of novel photovoltaic envelope for buildings. The research will couple the building integrated renewable application with traditional architectural passive design strategies. A new indoor environment quality index will be proposed as an objective function to be optimized together with the net building energy consumption. Surrogate models trained for each modelling software will be incorporated into the proposed optimization algorithm to improve the calculation efficiency and provide a convenient tool to assist sustainable building designs. In addition, significant urban context parameters will be incorporated to quantify their impact. Research findings will serve as significant guidance to effectively promote the application of the passive design in green building projects.Read moreRead less
Quantum dot-sensitised solar cells: can efficiency beyond the Shockley-Queisser limit be achieved? The project will address key barriers to broader commercialisation of cost-effective titania-based solar cells by utilising novel physics of semiconductor quantum dot materials used as a sensitiser. The research outcomes will answer key questions about the ultimate efficiency of these cells, and help transform the Australian PV industry.
High efficiency magnetics for high frequency and high energy density power converters used in renewable energy systems. This project will result in the development of more efficient power conversion technologies for solar energy production and enable greater utilisation of renewable, solar-generated power in the national electricity supply. Technology developed from this proposal will provide the solar power industry with several new high frequency magnetics technologies utilised in solar power ....High efficiency magnetics for high frequency and high energy density power converters used in renewable energy systems. This project will result in the development of more efficient power conversion technologies for solar energy production and enable greater utilisation of renewable, solar-generated power in the national electricity supply. Technology developed from this proposal will provide the solar power industry with several new high frequency magnetics technologies utilised in solar power converters. These solar technology innovations will result in national benefits through reduced carbon emissions from a greater uptake of renewable (solar) power. It will enable Australia to rise to meet the renewable energy generation and utilisation standards of the United States of America and Europe.Read moreRead less
Green synthesis of organometal perovskite solar cells. This project aims to understand the mechanism that governs the formation and crystallisation process of organic-inorganic lead halide perovskite films from non-toxic, environmentally friendly, protic ionic liquids. The project will develop new ionic liquid solvent systems that deliver appropriate morphology, and electrical and optical properties to fabricate high performance perovskite solar cells using environmentally friendly, low-toxicity ....Green synthesis of organometal perovskite solar cells. This project aims to understand the mechanism that governs the formation and crystallisation process of organic-inorganic lead halide perovskite films from non-toxic, environmentally friendly, protic ionic liquids. The project will develop new ionic liquid solvent systems that deliver appropriate morphology, and electrical and optical properties to fabricate high performance perovskite solar cells using environmentally friendly, low-toxicity processes. Successful achievement of the outcomes will enable environmentally-friendly, industrial scale processing of perovskite materials, placing Australia at the forefront of organometallic perovskite materials processing with applications in renewable energy and other electro-optical applications.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101118
Funder
Australian Research Council
Funding Amount
$314,446.00
Summary
Enabling high photovoltaic penetration in power distribution networks. This project aims to develop a novel hybrid control method for power distribution grid network voltage regulation with high photovoltaic penetration. The outcome of this project will enable power utilities to cost-effectively regulate network voltage and ultimately remove barriers for future photovoltaic deployment. This will deliver significant economic benefits for both the wider community and utility providers, along with ....Enabling high photovoltaic penetration in power distribution networks. This project aims to develop a novel hybrid control method for power distribution grid network voltage regulation with high photovoltaic penetration. The outcome of this project will enable power utilities to cost-effectively regulate network voltage and ultimately remove barriers for future photovoltaic deployment. This will deliver significant economic benefits for both the wider community and utility providers, along with substantial environmental outcomes through increased use of sustainable energy sources.Read moreRead less
Power quality monitoring of grids with high penetration of power converters. The project aims to monitor and analyse power quality of grids within the frequency ranges of 0-2 kHz (existing regulations) and 2-150 kHz (new regulations). Power quality of grids deteriorate due to the high penetrations of inverter-based renewable energy systems. To estimate power quality of grids, the project expects to develop a multi-domain simulation model based on power grid configurations and operating condition ....Power quality monitoring of grids with high penetration of power converters. The project aims to monitor and analyse power quality of grids within the frequency ranges of 0-2 kHz (existing regulations) and 2-150 kHz (new regulations). Power quality of grids deteriorate due to the high penetrations of inverter-based renewable energy systems. To estimate power quality of grids, the project expects to develop a multi-domain simulation model based on power grid configurations and operating condition. Developed methodologies will assist network service providers to better analyse harmonics and resonances within low and high voltage power systems. Expected outcomes of this project are to assist partners to monitor and solve the existing communication issues of audio frequency load control and to address power quality issues arising from the increasing connection of renewable energy systems.Read moreRead less
Degradation conscious grid-scale battery energy management scheme. The project aims to develop an improved battery management system to smooth the intermittent contribution of renewable energy sources to the grid. As the level of penetration of renewable energy sources into electrical grids increases, energy storage will play an increasingly important role in solving some of the technical challenges caused by the intermittent nature of the renewable sources. The existing design methods for gri ....Degradation conscious grid-scale battery energy management scheme. The project aims to develop an improved battery management system to smooth the intermittent contribution of renewable energy sources to the grid. As the level of penetration of renewable energy sources into electrical grids increases, energy storage will play an increasingly important role in solving some of the technical challenges caused by the intermittent nature of the renewable sources. The existing design methods for grid-scale battery management systems do not take into consideration the degradation of the battery banks. Thus, this project aims to fill this gap by developing an electrochemical-based, degradation-conscious, battery management system. The proposed system aims to increase the life span and capacity use of the batteries.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100107
Funder
Australian Research Council
Funding Amount
$415,000.00
Summary
Time-resolved terahertz and optical spectroscopy facility. Time-resolved terahertz and optical spectroscopy facility:
This project aims to use time-resolved terahertz and optical spectroscopy as techniques to probe the photogenerated exciton and charge carrier dynamics at the heart of solar energy technologies. The dynamics of electrons and nuclei following the absorption of light involves processes which occur on timescales from femtoseconds to microseconds. The ability to probe these dynamics ....Time-resolved terahertz and optical spectroscopy facility. Time-resolved terahertz and optical spectroscopy facility:
This project aims to use time-resolved terahertz and optical spectroscopy as techniques to probe the photogenerated exciton and charge carrier dynamics at the heart of solar energy technologies. The dynamics of electrons and nuclei following the absorption of light involves processes which occur on timescales from femtoseconds to microseconds. The ability to probe these dynamics is of great importance for understanding the underlying photophysics and photochemistry of a range of technologies including solar photovoltaics and solar photocatalysis. This facility would enable researchers to deeply understand the photophysical processes occurring in advanced photovoltaic and photocatalysis materials and devices and may facilitate the development of advanced materials for renewable energy. Read moreRead less
New topologies optimised for co-located grid connected photovoltaic (PV) and battery storage systems. When a grid connected photovoltaic (PV) system and battery storage are co-located, many advantages can be gained by sharing and optimising the grid connection power electronics (DC-DC converters and DC-AC inverters). The specific aims of this project are to identify existing, and then develop and compare new, system topologies and configurations, for grid connecting co-located PV and (battery) s ....New topologies optimised for co-located grid connected photovoltaic (PV) and battery storage systems. When a grid connected photovoltaic (PV) system and battery storage are co-located, many advantages can be gained by sharing and optimising the grid connection power electronics (DC-DC converters and DC-AC inverters). The specific aims of this project are to identify existing, and then develop and compare new, system topologies and configurations, for grid connecting co-located PV and (battery) storage in the low voltage AC distribution network. Different optimal solutions including new solutions are expected for single and three phase systems, for varying power levels from one kilowatt to one megawatt, and for varying load shapes (for example, residential vs commercial).Read moreRead less