Difference between revisions of "Projects:2019s2-25501 Allocation of Storage Resources"
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− | Intermittent renewable sources such as wind and solar are highly competitive with fossil fueled generations in South Australia(SA). 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. This investigation will be based on the simplified model of the SA grid and recordings or the output from intermittent sources in SA. | + | Intermittent renewable sources such as wind and solar are highly competitive with fossil fueled generations in South Australia(SA). 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. There are many pros and cons for each storage that will be discussed throughout this project. Solar PV generations installed by houses, industries, consumers, will also have impacts on the grid as it is estimated that next few years, the solar PV generations installation will be increased. The impacts and effects of solar PV generations will be included as it will effect the power demand of the grid in SA. It is important that as the intermittent renewable sources increasing, balanced sources are allocated in a coordinated and economically efficient way. This investigation will be based on the simplified model of the SA grid and recordings or the output from intermittent sources in SA. |
Revision as of 23:59, 22 September 2019
Abstract here
Contents
Introduction
Intermittent renewable sources such as wind and solar are highly competitive with fossil fueled generations in South Australia(SA). 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. There are many pros and cons for each storage that will be discussed throughout this project. Solar PV generations installed by houses, industries, consumers, will also have impacts on the grid as it is estimated that next few years, the solar PV generations installation will be increased. The impacts and effects of solar PV generations will be included as it will effect the power demand of the grid in SA. It is important that as the intermittent renewable sources increasing, balanced sources are allocated in a coordinated and economically efficient way. This investigation will be based on the simplified model of the SA grid and recordings or the output from intermittent sources in SA.
Project team
Project students
- Aiman Arif Bin Amir
- Nur Amira Batrisyia binti Rozmizan
- Xinzhou Cao
Supervisors
- David Vowles
- A/Prof Soong Wen Liang
Advisors
Objectives
- To investigate the techniques for optimizing the allocation of balancing sources within a grid.
- To minimize the need for network augmentation.
- To minimize the amount storage and reserve generations.
- To minimize prioritize the use of demand respond.
Background
Topic 1
Method
Results
Conclusion
References
[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.
[2] Project:2018s1-140 Energy Storage Requirements for the SA Grid
[3] Australia Energy Market Operator Annual Report (AEMO), 2017, 2018
[4] South Australian Transmission Annual Planning Report (ElectraNET), 2018
[5] Aurecon Hornsdale Power Reserve Impact Study ,2018
[6] Snowy 2.0 Overview , 2018
[7] An Atlas of Pumped Hydro Energy Storage, Australia National University,2017