Implementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van Niekerk

Because of a continuous increase in the demand for electricity in South Africa the country’s largest electricity utility (Eskom) has been under strain to provide electricity. An expansion programme to generate more electricity has caused a continuous increase in utility costs. Steep electricity tari...

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Main Author: Van Niekerk, Adriaan Petrus
Language:en
Published: 2014
Subjects:
Online Access:http://hdl.handle.net/10394/12080
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spelling ndltd-netd.ac.za-oai-union.ndltd.org-nwu-oai-dspace.nwu.ac.za-10394-120802016-03-16T03:59:06ZImplementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van NiekerkVan Niekerk, Adriaan PetrusDemand side managementEnergy managementWater system optimisationWater reticulation systemBecause of a continuous increase in the demand for electricity in South Africa the country’s largest electricity utility (Eskom) has been under strain to provide electricity. An expansion programme to generate more electricity has caused a continuous increase in utility costs. Steep electricity tariff increases have forced large electricity consumers, such as the mining industry, to focus on energy efficiency and demand side management (DSM). More recently, large industrial action has affected the marginality of the mining industry in such a way that mining groups were forced to cut down on production cost and even sell mining shafts. A solution has to be found to improve the marginality of these mines. DSM intervention on mine water reticulation systems has shown great promise in the past and has been implemented on many South African mines with great success. Many mines with smaller systems have not been optimised because the priority of DSM intervention was to achieve the largest saving; therefore, larger systems enjoyed priority over smaller systems. This only added to the increased financial pressure on already marginal mines. In this study the operation of a mine water reticulation system will be studied to identify the most efficient DSM interventions to implement. DSM intervention on dewatering-, refrigeration- and water distribution systems will be investigated to get a better understanding of the functions of these operations. Previous project data will be analysed to create tools that would assist in the decision-making process for DSM intervention regarding saving potential, cost benefit and cost implication. This data would ultimately assist in determining a project’s payback period that is used to prioritise DSM intervention applications. A mining group will be analysed to identify possible DSM intervention potential. The systems will be investigated and the best strategy for DSM intervention will be selected. This study will conclude that it is financially feasible to implement DSM interventions on marginal mines’ dewatering systems.MIng (Mechanical Engineering), North-West University, Potchefstroom Campus, 20142014-10-29T10:41:33Z2014-10-29T10:41:33Z2014Thesishttp://hdl.handle.net/10394/12080en
collection NDLTD
language en
sources NDLTD
topic Demand side management
Energy management
Water system optimisation
Water reticulation system
spellingShingle Demand side management
Energy management
Water system optimisation
Water reticulation system
Van Niekerk, Adriaan Petrus
Implementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van Niekerk
description Because of a continuous increase in the demand for electricity in South Africa the country’s largest electricity utility (Eskom) has been under strain to provide electricity. An expansion programme to generate more electricity has caused a continuous increase in utility costs. Steep electricity tariff increases have forced large electricity consumers, such as the mining industry, to focus on energy efficiency and demand side management (DSM). More recently, large industrial action has affected the marginality of the mining industry in such a way that mining groups were forced to cut down on production cost and even sell mining shafts. A solution has to be found to improve the marginality of these mines. DSM intervention on mine water reticulation systems has shown great promise in the past and has been implemented on many South African mines with great success. Many mines with smaller systems have not been optimised because the priority of DSM intervention was to achieve the largest saving; therefore, larger systems enjoyed priority over smaller systems. This only added to the increased financial pressure on already marginal mines. In this study the operation of a mine water reticulation system will be studied to identify the most efficient DSM interventions to implement. DSM intervention on dewatering-, refrigeration- and water distribution systems will be investigated to get a better understanding of the functions of these operations. Previous project data will be analysed to create tools that would assist in the decision-making process for DSM intervention regarding saving potential, cost benefit and cost implication. This data would ultimately assist in determining a project’s payback period that is used to prioritise DSM intervention applications. A mining group will be analysed to identify possible DSM intervention potential. The systems will be investigated and the best strategy for DSM intervention will be selected. This study will conclude that it is financially feasible to implement DSM interventions on marginal mines’ dewatering systems. === MIng (Mechanical Engineering), North-West University, Potchefstroom Campus, 2014
author Van Niekerk, Adriaan Petrus
author_facet Van Niekerk, Adriaan Petrus
author_sort Van Niekerk, Adriaan Petrus
title Implementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van Niekerk
title_short Implementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van Niekerk
title_full Implementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van Niekerk
title_fullStr Implementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van Niekerk
title_full_unstemmed Implementing DSM interventions on water reticulation systems of marginal deep level mines / Adriaan Petrus van Niekerk
title_sort implementing dsm interventions on water reticulation systems of marginal deep level mines / adriaan petrus van niekerk
publishDate 2014
url http://hdl.handle.net/10394/12080
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