Difference between revisions of "Projects:2020s1-2274 Economic Optimisation of Water Distribution Pumping Systems with Integrated Renewable Power Generation"

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[[Category:Final Year Projects]]
 
[[Category:Final Year Projects]]
 
[[Category:2018s1|106]]
 
[[Category:2018s1|106]]
Abstract here
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At present, up to 80% of costs surrounding water distribution are attributed to energy expenses from pumping. This power is purchased from the National Electricity Market with volatile prices that can cause variations of up to half a million dollars in pumping expenses. Water distribution companies are now seeking to eliminate this issue by integrating renewable power generation into their systems with the aim of having zero net electricity costs. Doing so gives rise to questions such as: What should we be doing with this power? When should we be buying, storing or selling power? And what is the most economical way to pump while satisfying water demand?
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The project aims to apply model predictive control as an approach to solving this problem for a case study of the Sellicks Hill pipeline in South Australia.
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== Introduction ==
 
== Introduction ==
 
Project description here
 
Project description here

Revision as of 17:26, 25 March 2020

At present, up to 80% of costs surrounding water distribution are attributed to energy expenses from pumping. This power is purchased from the National Electricity Market with volatile prices that can cause variations of up to half a million dollars in pumping expenses. Water distribution companies are now seeking to eliminate this issue by integrating renewable power generation into their systems with the aim of having zero net electricity costs. Doing so gives rise to questions such as: What should we be doing with this power? When should we be buying, storing or selling power? And what is the most economical way to pump while satisfying water demand?

The project aims to apply model predictive control as an approach to solving this problem for a case study of the Sellicks Hill pipeline in South Australia.

Introduction

Project description here

Project team

Project students

  • Daniel Mignanelli
  • Adam Kitto
  • Zhiyuan Ren

Supervisors

  • Professor Lang White
  • Professor Angus Simpson

Objectives

Set of objectives

Background

Topic 1

Method

Results

Conclusion

References

[1] a, b, c, "Simple page", In Proceedings of the Conference of Simpleness, 2010.

[2] ...