Pumped Storage Projects and their Importance

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Pumped Storage Projects and their Importance

Context: The Union Budget  2024-25, promised the introduction of a policy to promote pumped storage projects for electricity storage. This aims to facilitate the integration of the increasing share of renewable energy, which is variable and intermittent.

 

More on News:

  • Energy storage methods considered included scaling up batteries and compressing air into caverns for power generation when needed.
  • Today, pumped storage using water is widely adopted. This method functions like a large natural battery, storing and releasing energy through water movement.
  • Hydro power can rapidly adjust output, from seconds to minutes, making it crucial for grid stability. It helped prevent blackouts during the pandemic’s lights-off campaign.

 

Pumped Storage Projects and their Importance

 

Indian Pumped Storage Policy, budget 2024:

  • A policy for promoting pumped storage projects will be brought out for electricity storage and facilitating smooth integration of the growing share of renewable energy with its variable & intermittent nature in the overall energy mix. 
  • Renewable Energy Targets: India aims to achieve 500 GW of non-fossil power by 2030. From 2021 to 2023, India added approximately 23 GW of non-fossil generation capacity. 
    • 7.5 GW of the 10 GW added in 2023-24 were from wind and solar sources.
  • Variable Power Generation: As renewable power generation exceeds 10% of the total, its variability (infirmity) necessitates solutions for energy storage and grid stability.

 

  • Current State of Pumped Storage in India:
    • Existing Capacity: India currently has 3.3 GW of pumped storage capacity, with major projects including Nagarjunasagar, Kadana, Kadamparai, Panchet, and Bhira.
    • Planned Expansion: 4 more projects are under construction and 2 are in advanced planning stages.

 

Pumped Storage Projects and their Importance

 

What is Pumped Storage Hydropower (PSH)?

  • PSH is a type of hydroelectric energy storage that uses two reservoirs at different elevations to store and generate power. It functions similarly to a giant battery by storing excess energy and releasing it when needed.
  • Early Uses: The first known PSH systems were implemented in Italy and Switzerland in the 1890s.

 

  • Types of Pumped Storage:
    • On-River Pumped Storage: Utilises a river’s flow for power generation, similar to conventional hydroelectric projects.
    • Off-River Pumped Storage: Uses two reservoirs at different elevations. 
      • Water is pumped to the upper reservoir during periods of surplus power and released to generate electricity when needed. Abandoned mines can be converted into such reservoirs.

 

  • How It Works?:
    • Discharge Phase: Water from the upper reservoir flows down to the lower reservoir through turbines, generating electricity.
    • Recharge Phase: Electricity is used to pump water from the lower reservoir back up to the upper reservoir, storing energy for future use.

 

  • Role of Pumped Storage:
    • Energy Storage: Pumped storage systems act as large-scale batteries by using water. 
    • They store energy by pumping water to a higher reservoir when there is excess power and release it by letting the water flow back down to generate electricity when needed.
    • Hydro Power Benefits: Hydro power can quickly adjust output (ramp up or down) to balance the grid, making it crucial for managing the variability of renewable energy sources. 

 

Pumped Storage Projects and their Importance

 

 

Case Study: Kadamparai Pumped Storage Plant:

  • Location: Tamil Nadu, near Valparai in Coimbatore district.
  • Operation: The Kadamparai plant, operational for 37 years, balances the grid by utilising surplus solar and wind power to pump water to the upper reservoir.
    • This stored energy is then used to generate power during periods of high demand or low renewable generation.
  • Capacity: The plant has a capacity to generate 400 MW for three to four hours, adjusting its output based on solar and wind power availability.
  • Efficiency: The plant requires about 20% more power to pump water than it can produce when generating electricity. 

 

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