Browsing by Subject "Emergency power supply"
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- ItemOpen AccessA case for incorporating standby generators into the South African electricity system(University of Cape Town, 2007) van Es, D; Bennett, K FThis paper examines how existing standby generators may benefit the South African electricity system. Eskom, the national electricity utility, supplies 92% of South Africa’s electricity needs at a price to consumers that is the lowest in the world, making it virtually impossible for alternative generation to compete. Installed electricity generation capacity is 38 154MW with a reserve margin of 8-10%. Eskom would prefer a margin closer to 15% but demand growth for the next year will reduce the margin further, to 3.75%. One response has been to introduce a demand management programme The country has begun to suffer more frequent outages, particularly during winter when demand is highest. One aspect of the management programme is to shift the two daily peaks to the ‘valleys’. Eskom estimates a possible 3 000MW capacity available from standby generators. The research should deliver a more accurate figure, as well as the location of these generators, particularly with respect to network constraints. Also considered are issues of synchronisation with the grid, emissions, noise and other environmental impacts associated with the operation of distributed generation, as well as the contractual conditions under which such an arrangement may be possible.
- ItemOpen AccessA review of the emergency electric power supply systems at PWR nuclear power plants(1989) Smyth, Thomas Paton; Dingley, CharlesThe Emergency Electric Power Supply Systems at Pressurized Water Reactor Nuclear Power Plants are reviewed, problem areas are identified, and recommendations are made for existing and future Nuclear Power Plants. A simplified introduction to a typical Pressurized Water Nuclear Reactor is given and the problems associated with the commercial use of nuclear power are discussed. An overview of the Nuclear industry's solutions is presented and covers the Reliability of equipment and the American Regulatory requirements. The alternating and direct current power supply systems are examined in terms of plant operational state and equipment type (Diesel generators, Grid network, Lead-acid batteries, Battery chargers, Inverters, and Power Distribution networks). The trends in the design of Emergency Electric Power supply systems at Nuclear Power Plants are presented. The loss of all alternating current power, known as Station Blackout, is discussed and the American and European response to this. problem is presented. Problems experienced in the direct current systems are discussed and solutions are presented. The experience at Koeberg Nuclear Power station with Lead-acid batteries is included in the discussion. The thesis concludes with recommendations for designers and operators of the Electric Power Supply Systems at Nuclear Power Stations.