Difference between revisions of "2019s2-25501 Allocation of Storage Resources"
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Abstract here | Abstract here | ||
== Introduction == | == Introduction == | ||
− | + | Intermittent renewable sources such as wind and solar are highly competitive with fossil fueled generations in South Australia. Currently, Renewable Energy makes up about over 50% of total generations in SA. However, this introduces many issues on balancing sources within the grid due to meet power demand. These balancing sources can be in the form of responsive gas turbines, demand respond and grid storage which consists of hydro pump storage and battery storage. It is important that as the intermittent renewable sources increasing, balanced sources are allocated in a coordinated and economically efficient way. | |
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=== Project team === | === Project team === | ||
==== Project students ==== | ==== Project students ==== |
Revision as of 01:32, 21 September 2019
Abstract here
Contents
Introduction
Intermittent renewable sources such as wind and solar are highly competitive with fossil fueled generations in South Australia. Currently, Renewable Energy makes up about over 50% of total generations in SA. However, this introduces many issues on balancing sources within the grid due to meet power demand. These balancing sources can be in the form of responsive gas turbines, demand respond and grid storage which consists of hydro pump storage and battery storage. It is important that as the intermittent renewable sources increasing, balanced sources are allocated in a coordinated and economically efficient way.
Project team
Project students
- Aiman Arif Bin Amir
- Nur Amira Batrisyia Binti Rozmizan
- Xinzhou Cao
Supervisors
- David Vowles
- A/Prof. Soong Wen Liang
Objectives
To investigate the techniques for optimizing the allocation of balancing sources within a grid.