Energy cost optimisation of a complex mine pumping system / Anton Prinsloo

The purpose of this study was to do an energy cost optimisation on a specific complex mine pumping system by means of load shift. A Real-Time Energy Management System (REMS) was installed on the mine and the pumps were controlled according to certain constraints. The results that were obtained were...

Full description

Bibliographic Details
Main Author: Prinsloo, Anton Lluwelon
Published: North-West University 2009
Online Access:http://hdl.handle.net/10394/466
id ndltd-NWUBOLOKA1-oai-dspace.nwu.ac.za-10394-466
record_format oai_dc
spelling ndltd-NWUBOLOKA1-oai-dspace.nwu.ac.za-10394-4662014-04-16T03:54:58ZEnergy cost optimisation of a complex mine pumping system / Anton PrinslooPrinsloo, Anton LluwelonThe purpose of this study was to do an energy cost optimisation on a specific complex mine pumping system by means of load shift. A Real-Time Energy Management System (REMS) was installed on the mine and the pumps were controlled according to certain constraints. The results that were obtained were very satisfactory. This project was undertaken on Elandsrand Mine and was a part of Eskom's Demand Side Management (DSM) initiative. Eskom fully finances these load shifting projects to encourage Energy Savings Companies (ESCOs) to undertake load shift projects in order to reduce the national peak demand profile. The project entailed doing a detailed investigation of the mine's pumping system. The pumping system was analysed and simulated according to specific constraints that were specified by the mine. After the simulation was completed, an optimisation on this simulation was done and the pumping system was fully automated to react to the changing electricity tariff. This automation led to a successful load-shifting project. Load shift means that the demand, during peak periods, is decreased. This is done by moving the energy requirement to another time of day when the demand and therefore the cost is less. However, the total energy used for the day remains the same. Load shift decreases the energy demand during the peak periods and at the same time generate savings for the relevant energy user. The average load shift that was obtained for the 5 months (June -November 2004) was 3.66 MW. This load shift has resulted in an average monthly cost saving for the mine of R60 000. This project showed that with the necessary historical data and expertise, a load shifting project, and therefore a cost optimisation project, can be successfully implemented on a mine's pumping system. This method can also be successfully applied to other electrical components on the mineThesis (M.Ing. (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2005.North-West University2009-02-06T08:26:42Z2009-02-06T08:26:42Z2004Thesishttp://hdl.handle.net/10394/466
collection NDLTD
sources NDLTD
description The purpose of this study was to do an energy cost optimisation on a specific complex mine pumping system by means of load shift. A Real-Time Energy Management System (REMS) was installed on the mine and the pumps were controlled according to certain constraints. The results that were obtained were very satisfactory. This project was undertaken on Elandsrand Mine and was a part of Eskom's Demand Side Management (DSM) initiative. Eskom fully finances these load shifting projects to encourage Energy Savings Companies (ESCOs) to undertake load shift projects in order to reduce the national peak demand profile. The project entailed doing a detailed investigation of the mine's pumping system. The pumping system was analysed and simulated according to specific constraints that were specified by the mine. After the simulation was completed, an optimisation on this simulation was done and the pumping system was fully automated to react to the changing electricity tariff. This automation led to a successful load-shifting project. Load shift means that the demand, during peak periods, is decreased. This is done by moving the energy requirement to another time of day when the demand and therefore the cost is less. However, the total energy used for the day remains the same. Load shift decreases the energy demand during the peak periods and at the same time generate savings for the relevant energy user. The average load shift that was obtained for the 5 months (June -November 2004) was 3.66 MW. This load shift has resulted in an average monthly cost saving for the mine of R60 000. This project showed that with the necessary historical data and expertise, a load shifting project, and therefore a cost optimisation project, can be successfully implemented on a mine's pumping system. This method can also be successfully applied to other electrical components on the mine === Thesis (M.Ing. (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2005.
author Prinsloo, Anton Lluwelon
spellingShingle Prinsloo, Anton Lluwelon
Energy cost optimisation of a complex mine pumping system / Anton Prinsloo
author_facet Prinsloo, Anton Lluwelon
author_sort Prinsloo, Anton Lluwelon
title Energy cost optimisation of a complex mine pumping system / Anton Prinsloo
title_short Energy cost optimisation of a complex mine pumping system / Anton Prinsloo
title_full Energy cost optimisation of a complex mine pumping system / Anton Prinsloo
title_fullStr Energy cost optimisation of a complex mine pumping system / Anton Prinsloo
title_full_unstemmed Energy cost optimisation of a complex mine pumping system / Anton Prinsloo
title_sort energy cost optimisation of a complex mine pumping system / anton prinsloo
publisher North-West University
publishDate 2009
url http://hdl.handle.net/10394/466
work_keys_str_mv AT prinslooantonlluwelon energycostoptimisationofacomplexminepumpingsystemantonprinsloo
_version_ 1716664575000051712