Baseload Technologies: Difference between revisions
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The peak power generation is usually attributed to the systems that can be easily stopped and started of which natural gas, oil and hydro-facilities fall<ref name="bt" />. | The peak power generation is usually attributed to the systems that can be easily stopped and started of which natural gas, oil and hydro-facilities fall<ref name="bt" />. | ||
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Revision as of 12:36, 20 November 2019
Base load power sources are the plants that operate continuously to meet the minimum level of power demand 24/7. Base load plants are usually large-scale and are key components of an efficient electric grid. Base load plants produce power at a constant rate and are not designed to respond to peak demands or emergencies. The base load power generation can rely on both renewable or non-renewable resources.[1]
Typically, the power demand varies cyclically from day to day, reaching maximum during day business hours and dropping to minimum during late night and early morning, but never dropping below a certain base. This base load is typically at 30-40% of the maximum load, so the amount of load assigned to base load plants is tuned to that level. The above-base power demand (above the base) is handled by intermediate and peak power plants, which are also included to the grid. The main advantages of the base load power plants are cost efficiency and reliability at the optimal power levels. The main disadvantages are slow response time, lack of fuel flexibility, and low efficiency when operated below full capacity[1].
The base load power plants typically are coal-fuelled or nuclear plants due to low-cost fuel and steady state power they can produce. Hydropower and geothermal power can also be used for base load electricity generation if those resources are regionally available[1].
The renewable energy systems, such as solar and wind, are most suitable for intermediate load plants. These are intermittent energy sources, with their output and capacity factor depending on weather conditions, daily, and seasonal variations. So, unless there is an effective energy storage system in place, they cannot be relied upon to meet constant electricity supply needs, nor can they be immediately employed to respond to peak demands. However, as intermediate sources, solar and wind systems can be efficient and can help reduce dependence on fossil fuels[1].
The peak power generation is usually attributed to the systems that can be easily stopped and started of which natural gas, oil and hydro-facilities fall[1].