What is Load Shedding

kevinswan007

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What is load shedding?

Eskom’s business is one of supply and demand. Its customers demand power every time they switch on an electrical appliance, or light switch, and Eskom supplies the power to meet that demand. For a full 24 hours, every day of the year Eskom’s system controllers must supply the national grid with just enough electricity to meet the demand.

Power users such as steel producers, aluminium smelters, mines, cities and agriculture are all sources of load to the system controllers. On a typical weekday, load starts increasing from 02:00 – two o’clock in the morning, climbing steadily as people wake up, get ready for work and open shops, offices and factories. Between 06:00 and 09:00 the system experiences its morning peak load, when the demand can get close to the available capacity.

Then the load eases off until the afternoon peak, which usually starts around 16:00, when people get home and entertainment centres come to life. In summer air conditioners and in winter electric heaters form a heavy load. And all the time the ubiquitous geyser silently gobbles up electricity, keeping its load of water hot. Unless it has an insulating blanket, the geyser uses more electricity in winter than in summer because it loses heat through its metal walls.

Winter is also the time when the morning and evening peaks get higher every year, bringing the demand closer and closer to the supply. Usually the supply is adequate and the peak passes without incident.

Occasionally, however, problems arise. A huge turbo-generator in a power station develops a fault and “trips” – shuts down, no longer contributing to the supply, as happened to one of the Koeberg units recently.

When this happens, load exceeds supply, and the load has to be reduced to a point where the available capacity can handle it, otherwise the result for the whole system could be serious. So the system controllers “shed some load” – they switch off the supply to various customers for a short while.

Eskom has contracts with some large power users that allow it to do this. These customers can cope with being switched off, as long as the interruption does not exceed specified periods – say 30 minutes. Usually that is enough time for total demand to ease a little and for the problem to pass.

If not, Eskom must switch off another large user and restore power to the first. Occasionally, when demand goes unexpectedly high, cities suddenly become victims of load shedding. In most cases this does not last longer than two hours.

Eskom follows certain principles when implementing load shedding. Load shedding is done on a rotational basis, limiting it to two hours per area. Where possible, Eskom tries to avoid load shedding in areas where there are critical and sensitive services like hospitals, economic hubs like shopping centres, strategic product areas and high security areas.

So, if your lights go off unexpectedly, it might be a local fault affecting a comparatively small area around you, or it might be a problem at a power station that takes time to fix.
 
The South African economy grows constantly, and as it grows, the demand for electricity increases. Every new factory, shop, office or home built needs electricity.

Eskom monitors this growth carefully and calculates how much capacity is needed to supply this growing demand and maintain its essential reserve capacity. This reserve, designed to cater for unexpected surges in demand, is internationally kept at about 15% of total demand. Eskom’s reserve capacity has been reduced from this level to about 8%, which is insufficient for reliable supply.

It takes years to build power stations, so Eskom projects the demand into the future and takes decisions long before it runs out of capacity. In the 1990s calculations showed that new power stations would be needed by 2007 to meet the expected demand growth. Eskom identified sites for new power stations and pumped storage schemes, but was unable to implement these plans. The Energy White Paper of 1998 encouraged independent power producers (IPPs) to enter the generation market. Private sector investment was not forthcoming and in 2004, Government revised its policy and Eskom was given the green light to build new generation capacity.

Because of the low South African electricity prices and the slender returns they could earn, years passed without a single IPP entering the local electricity market. Meanwhile Eskom’s fleet of power stations got closer to the end of their design life while the demand for electricity grew inexorably higher.

Eskom’s search for ways to produce extra power without building new plant led to its refurbishment of its older mothballed power stations which, although small compared with newer stations, could at least make some contribution.

Another mechanism was demand side management, or DSM. This is a new mindset or power use philosophy in which people realise that they have been wasting power and adopt ways of improving efficiency and avoiding waste. A simple example is to use energy-saver lamps instead of the traditional incandescent light bulbs. Another is to persuade power users to reduce their consumption during the weekday morning and evening peak times or to move demand to off-peak periods. Eskom is implementing a strategy to accomplish a permanent saving on the demand side of 3 000 MW during peak hours by 2012.

National electricity demand is still growing at a brisk pace, however, and more interventions are needed. Eskom has been given the go-ahead for building new capacity, but building these huge plants takes years, so a concerted effort is needed in the interim to stretch the available supply to its maximum.
 
sorry.. but where are you scraping the k*k from?!
 
Nuclear Energy

Koeberg Power Station is the only nuclear power station on the African continent. It is situated at Duynefontein, 30km northwest of Cape Town in South Africa on the Atlantic coast. Koeberg ensures a reliable supply of electricity to the Western Cape one of the fastest growing regions in South Africa. It has operated safely for more than 21 years and efficiently for a decade and has a further active life of 30 - 40 years.

The stations' two reactors supply 1 800MW or 6% of South Africa's electricity needs. Koeberg has produced more than 81 000 million kWh of electricity since 1984 using seven and a half tonnes of uranium:


Koeberg is a strategic water user and saves 22 billion litres of fresh water per annum. The condensers are cooled by means of sea water, which is returned to the sea after use. The sea water is not consumed. In a similar period of time, a coal-fired power station of the same size would use, more that 50 million tons of coal and 160 000 million litres of scarce fresh water. The fresh water would be consumed entirely. South Africa's fresh water resources are extremely scarce and, at current economic and population growth rates, South Africa is expected to experience a permanent water shortage from 2020.

Koeberg's two reactor containment buildings are made of concrete 1m thick, lined with steel. They are designed to ensure that no radiation escapes under any conceivable circumstances, from an earthquake to a jumbo jet collision.

Koeberg has created skills and provided jobs, homes and medical facilities. Koeberg employs approximately 1 200 people. Indirectly, the station creates about another 600 local jobs off-site, and about 2 000 jobs in the general South African nuclear industry.

In the non-nuclear industry about 100 local firms supply equipment to Koeberg.

Koeberg has utilised part of its land as a private nature reserve. Great care has been taken to conserve and restore the coastal landforms, wetlands and various forms of vegetation and animal life indigenous to the area. Among the animals in the reserve are bontebok, duiker, grysbok, steenbok, African wild cat, genet and rooikat or caracal. There are several hiking trails through the reserve. Visitors are welcome all year round.
 
So what has Eskom been doing since 2004?

I say, in the interim, increase electricty prices (which in turn will lower consumption). Make an effort to terminate all illegal connections. Ban the sale of incandescent light bulbs (as in Australia). Provide refunds for users that utilise solar panels to heat their geysers. Encourage the use of a gas alternative.
 
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