Reversible pumping plants
Introduction
A reversible hydroelectric power plant, or pumping power plant, is a hydroelectric power plant that, in addition to being able to transform the potential energy of water into electricity, has the ability to do so in reverse, that is, to increase the potential energy of water (for example, by raising it to a reservoir) by consuming electrical energy to do so. In this way it can be used as a method of energy storage (a kind of giant "Battery (electricity)" battery). It thus contributes to the load balancing of the network, that is, satisfying energy demand in peak hours and storing energy in off-peak hours.[1].
Pumped energy storage allows energy from intermittent sources (such as solar or wind) and other renewables, or excess energy from continuous base load sources (such as coal or nuclear), to be stored for periods of higher demand.[2].
Although it is common for these plants to turbine/pump water between two reservoirs at different heights, there is a particular case called pure pumping plants where the upper reservoir is replaced by a large reservoir whose only water supply is that which is pumped from the lower reservoir.[1].
Electricity demand varies constantly and it is necessary for power plants to generate the energy demanded at all times. There are plants that, due to the generation technology they use, cannot easily vary the energy generated (nuclear plants), while other plants (conventional thermal plants) have various technical and economic restrictions on these variations. Hydroelectric plants are one of the technologies that present the least restrictions on load variation.
These plants are integrated into the "grid energy storage" system, helping to adapt generation to the demand curve, thereby reducing the energy variations that less appropriate technologies have to carry out; In this way, the reversible plants would pump during off-peak hours, and turbine during peak hours.[3][4].
The energy efficiency of pumped storage varies between 70% and 80%,[5][6][7][8] with some sources claiming up to 87%.[9] The main disadvantage of reversible plants is the specialized nature of the required site, which requires both geographical altitude and water availability.
Basic principle
In times of low electricity demand, excess generation capacity is used to pump water to the upper reservoir. When there is increased demand, the water is released back into the lower reservoir through a turbine, generating electricity. Reversible turbine/generator assemblies act as a combined turbine pump and generator unit (typically a Francis turbine design). In pumped microstorage applications, a group of pumps and a turbine pump could be implemented respectively for the pumping and generation phases.[10] The same pump could be used in both modes by changing the direction and speed of rotation.[10].