An integrated energy efficiency strategy for deep mine ventilation and refrigeration / Abraham Jacobus Schutte

Schutte, Abraham Jacobus

January 2014

South Africa’s electricity supply is under pressure. Mining is one of South Africa’s largest electricity consumers with electricity-intensive services such as compressed air, cooling, ventilation, etc. More than 40% of mine electricity consumption is used for cooling and ventilation. There is a need to reduce the operational cost on a mine as electricity prices are set to increase at least 2% above South Africa’s inflation target. The mine-cooling and ventilation system was investigated for energy cost-saving. No clear energy and cost-saving strategy for the entire mine-cooling and ventilation system was found. Projects are implemented ad hoc and scattered throughout the system. A strategy is needed to help realise the total saving available on the entire mine-cooling and ventilation system. An implementation strategy for load-management and energy-saving projects on a mine-cooling and ventilation system was developed. A peak clip project on the surface BAC was developed and added to the strategy. The resultant strategy attains all savings throughout the entire mine-cooling and ventilation system. A peak clip project on the surface BAC of a typical mine results in an annual saving of R1.4 million. Implementing this new project on other mines could save R11 million annually. Implementing the sequenced combination of cooperative projects on a typical mine results in a saving of R30 million. That is a saving of 38% on the ventilation and cooling cost and 16% on the total mine electricity bill. / PhD (Mechanical Engineering), North-West University, Potchefstroom Campus, 2014

Strategy

Sequence

Combination

Energy efficiency

Load management

Ventilation

Refrigeration

Surface BAC

Strategie

Volgorde

Kombinasie

Energiedoeltreffendheid

Lasbeheer

Ventilasie

Verkoeling

Grootmaat oppervlaklugverkoelingseenhede

An integrated energy efficiency strategy for deep mine ventilation and refrigeration / Abraham Jacobus Schutte

Schutte, Abraham Jacobus

January 2014

South Africa’s electricity supply is under pressure. Mining is one of South Africa’s largest electricity consumers with electricity-intensive services such as compressed air, cooling, ventilation, etc. More than 40% of mine electricity consumption is used for cooling and ventilation. There is a need to reduce the operational cost on a mine as electricity prices are set to increase at least 2% above South Africa’s inflation target. The mine-cooling and ventilation system was investigated for energy cost-saving. No clear energy and cost-saving strategy for the entire mine-cooling and ventilation system was found. Projects are implemented ad hoc and scattered throughout the system. A strategy is needed to help realise the total saving available on the entire mine-cooling and ventilation system. An implementation strategy for load-management and energy-saving projects on a mine-cooling and ventilation system was developed. A peak clip project on the surface BAC was developed and added to the strategy. The resultant strategy attains all savings throughout the entire mine-cooling and ventilation system. A peak clip project on the surface BAC of a typical mine results in an annual saving of R1.4 million. Implementing this new project on other mines could save R11 million annually. Implementing the sequenced combination of cooperative projects on a typical mine results in a saving of R30 million. That is a saving of 38% on the ventilation and cooling cost and 16% on the total mine electricity bill. / PhD (Mechanical Engineering), North-West University, Potchefstroom Campus, 2014

Strategy

Sequence

Combination

Energy efficiency

Load management

Ventilation

Refrigeration

Surface BAC

Strategie

Volgorde

Kombinasie

Energiedoeltreffendheid

Lasbeheer

Ventilasie

Verkoeling

Grootmaat oppervlaklugverkoelingseenhede