Discovery Early Career Researcher Award - Grant ID: DE160100131
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Multifunctional micro/nano-engineered solar thermal receivers. This project is designed to develop a new class of thermal receivers that overcome key challenges in today's concentrating solar thermal systems. The development of accurate micro/nanofabrication and characterisation techniques in recent years has made it possible to achieve thermofluid devices that are engineered from the bottom up to achieve high performance at relatively low cost. This project aims to develop a new class of solar ....Multifunctional micro/nano-engineered solar thermal receivers. This project is designed to develop a new class of thermal receivers that overcome key challenges in today's concentrating solar thermal systems. The development of accurate micro/nanofabrication and characterisation techniques in recent years has made it possible to achieve thermofluid devices that are engineered from the bottom up to achieve high performance at relatively low cost. This project aims to develop a new class of solar thermal receivers which use micro/nanotechnology to directly absorb concentrated solar energy with very little pumping power and minimal radiative heat loss. By tailoring the geometry and materials inside the receiver, the project expects to achieve a unique level of integrated optical, heat transfer and fluid flow control.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100127
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Controlled radiation facility to investigate turbulence-radiation-chemistry interactions in high-flux solar reactors. This project's facility will support the transition of Australia’s energy intensive industries, including minerals and resources, to a much lower carbon intensity. It will also underpin collaborations with internationally leading partners to develop novel solar-combustion hybrid reactors for the production of solar fuels and for minerals processing.
Thermal transport in multi-phase flows for concentrating solar applications. This project seeks to advance the field of heat transfer in high-temperature systems involving liquid metals, with emphasis on energy storage and solar power technologies. The concept couples a tubular sodium boiler with a sodium chloride phase-change storage system for continuous energy supply. Sodium chloride is low cost and has a melting temperature suitable for a wide range of industrial processes. The project plans ....Thermal transport in multi-phase flows for concentrating solar applications. This project seeks to advance the field of heat transfer in high-temperature systems involving liquid metals, with emphasis on energy storage and solar power technologies. The concept couples a tubular sodium boiler with a sodium chloride phase-change storage system for continuous energy supply. Sodium chloride is low cost and has a melting temperature suitable for a wide range of industrial processes. The project plans to address the challenge of sodium stability in highly irradiated tubes by investigating mass, momentum, energy and radiative transport in liquid metals. It is intended that this will inform the design and testing of novel sodium boilers to provide stable and isothermal process heat for continuous or on-demand production of power, chemical fuels and commodities.Read moreRead less