Synthetic storage for improving flexibility and security of micro-grids. This project aims to remove the need for energy storage in micro-grids via adoption of synthetic storage. Micro-grids encounter high renewable energy penetrations early, given their small size. Typically, micro-grid variability is managed with technologies such as energy storage. Synthetic storage involves replacing fixed speed diesel assets with variable speed diesel technology. This project offers a cost-effective way to ....Synthetic storage for improving flexibility and security of micro-grids. This project aims to remove the need for energy storage in micro-grids via adoption of synthetic storage. Micro-grids encounter high renewable energy penetrations early, given their small size. Typically, micro-grid variability is managed with technologies such as energy storage. Synthetic storage involves replacing fixed speed diesel assets with variable speed diesel technology. This project offers a cost-effective way to improve renewable penetration and reduce diesel fuel consumption in micro-grids by removing the need for expensive energy storage. The expected project outcomes include reductions in cost and complexity for high renewable energy penetration micro-grids, reduced emissions and improved micro-grid reliability.Read moreRead less
No load diesel application in remote power systems. No load diesel application in remote power systems. This project aims to investigate and optimise no-load diesel application within remote area renewable hybrid power systems. While hundreds of remote Australian communities rely on expensive diesel for power generation, this project intends to increase penetration of alternative renewable sources into remote and isolated power systems. Using dual thermodynamic and electrical modelling, this pro ....No load diesel application in remote power systems. No load diesel application in remote power systems. This project aims to investigate and optimise no-load diesel application within remote area renewable hybrid power systems. While hundreds of remote Australian communities rely on expensive diesel for power generation, this project intends to increase penetration of alternative renewable sources into remote and isolated power systems. Using dual thermodynamic and electrical modelling, this project will investigate low to no-load diesel threshold capability, reducing diesel consumption at minimal costs. The project is expected to return immediate benefits to remote mining, defence and tourism based communities, providing a pathway to reduced diesel usage and increased renewable penetration.Read moreRead less