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Hydroelectric power in India

January 01, 1970

India is 5th globally for installed hydroelectric power capacity.[1] As of 31 March 2020, India's installed utility-scale hydroelectric capacity was 46,000 MW, or 12.3% of its total utility power generation capacity.[2] Additional smaller hydroelectric power units with a total capacity of 4,683 MW (1.3% of its total utility power generation capacity) have been installed.[3] India's hydroelectric power potential is estimated at 148,700 MW at 60% load factor.[4] In the fiscal year 2019–20, the total hydroelectric power generated in India was 156 TWh (excluding small hydro) with an average capacity factor of 38.71%.

Shivanasamudra Falls

The hydroelectric power plants at Darjeeling and Shivanasamudra were established in 1898 and 1902, respectively. They were among the first in Asia and India has been a dominant player in global hydroelectric power development.[5] India also imports surplus hydroelectric power from Bhutan.

Small hydropower, defined to be generated at facilities with nameplate capacities up to 25 MW, comes under the ambit of the Ministry of New and Renewable energy (MNRE); whilst large hydro, defined as above 25 MW, comes under the ambit of the Ministry of Power.[6][7] Koyna Hydroelectric Project is the largest completed hydroelectric power plant in India, with a power capacity of 1960 MW

India's hydroelectric power output dropped by 16.3% in the fiscal year ending March 31, 2024, the largest decline in 38 years, primarily due to low rainfall. This decrease led to hydroelectricity's share of India's total power generation falling to a historic low of 8.3%. As a result, the country's reliance on coal increased, with hydro generation reaching a five-year low of 146 billion kWh. The lack of rainfall was attributed to the lightest rainfall since 2018 and potentially influenced by the El Niño weather pattern. Consequently, hydroelectric power's role in the Indian energy mix is diminishing, with its reliability questioned due to erratic weather patterns.[8]

Hydroelectric potential edit

 
Upper Indiravati power house

India's economically exploitable and viable hydroelectric potential is estimated to be 148,701 MW.[9][10] An additional 6,780 MW from smaller hydro schemes (with capacities of less than 25 MW) is estimated as exploitable.[11] 56 sites for pumped storage schemes with an aggregate installed capacity of 94,000 MW have also been identified. In central India, the hydroelectric power potential from the Godavari, Mahanadi, Nagavali, Vamsadhara and Narmada river basins has not been developed on a major scale due to potential opposition from the tribal population.[12]

Basin-wise potential of Hydropower edit

Brahmaputra has highest potential in terms of generating Hydroelectricity followed by Indus, Ganga. East-flowing rivers have the largest potential as compared to West-flowing rivers and Central-Indian basins

The public sector accounts for 92.5% of India's hydroelectric power production. The National Hydroelectric Power Corporation (NHPC), Northeast Electric Power Company (NEEPCO), Satluj Jal Vidyut Nigam (SJVNL), THDC, and NTPC-Hydro are some of the public sector companies producing hydroelectric power in India. The private sector is also expected to grow with the development of hydroelectric energy in the Himalayan mountain ranges and in the northeast of India.[4] Indian companies have also constructed hydropower projects in Bhutan, Nepal, Afghanistan, and other countries.[4]

Bhakra Beas Management Board (BBMB), a state-owned enterprise in north India, has an installed capacity of 2.9 GW.[13] The generation cost after four decades of operation is about 27 paise (0.34¢ US) per kWh.[14] BBMB is a major source of peaking power and black start capability to the northern grid in India and its large reservoirs provide wide operational flexibility. BBMB reservoirs also supply water for the irrigation of 12.5 million acres (51,000 km2; 19,500 sq mi) of agricultural land in partner states, enabling the green revolution in the northern India.

The International Hydropower Association estimates that the total hydropower potential in India is 660,000 GWh/year, of which 540,000 GWh/year (79%) is still undeveloped.[15] India ranks as the fourth country in the world by undeveloped hydropower potential, after Russia, China and Canada, and fifth by total potential, surpassed also by Brazil.[15]

Pumped storage units edit

See also: Electricity sector in India § Solar power, Pollution of the Ganges § Ganga, and Power sector of Andhra Pradesh § Pumped storage hydroelectricity projects

India has transformed from an electricity deficit state to an electricity surplus state. Peak load shortages can be met making use of pumped storage schemes which store surplus power to meet peak load demands. The pumped storage schemes also contribute secondary, seasonal power at no additional cost when rivers are flooded with excess water. India has already established nearly 4,800 MW pumped storage capacity with the installation of hydropower plants.[16] Another 2780 MW capacity is under construction as of December 2023 [17]

In a tropical country like India, abundant water for agriculture is needed due to a very high annual evaporation rate. Pumped storage units can also be used as pumping stations to supply river water for upland irrigation, industrial needs, and drinking water.[18] The amount of water necessary to meet this demand can be harnessed from India's rivers via pumped storage units. Food security in India is improved with water security which in turn is possible from the energy security to supply the power needed for the pumped storage schemes.[19]

More and more solar power generation is becoming available at cheaper cost and it has advantage in terms of environmental impact.[20] Solar power can meet daytime and night time energy demands with the help of pumped storage units.[21][22][23]

Many of the existing hydro power stations on the west-flowing rivers located in the Western Ghats of Kerala and Karnataka are to be expanded to include pumped storage units in an effort to solve the water deficit of east-flowing rivers like the Kaveri, the Krishna, etc.[24]

See also edit

References edit

  1. ^ "India overtakes Japan with fifth-largest hydropower capacity in the world". Retrieved 30 May 2020.
  2. ^ (PDF). Archived from the original (PDF) on 12 May 2020. Retrieved 25 May 2020.
  3. ^ "Renewable Energy Physical Progress as on 31-03-2020". Ministry of New & Renewable Energy, GoI. Retrieved 4 June 2020.
  4. ^ a b c "Hydro Electric Potential in India". Retrieved 17 April 2016.
  5. ^ . Archived from the original on 16 April 2016. Retrieved 17 April 2016.
  6. ^ (PDF). report. Central Electricity Authority, Ministry of Power, Govt. of India. 28 February 2017. Archived from the original (pdf) on 17 April 2018. Retrieved 24 April 2017.
  7. ^ . Government of India Ministry of New and Renewable Energy. Archived from the original on 2018-02-20. Retrieved 6 April 2019.
  8. ^ Varadhan, Sudarshan; Yap, Cassandra (2024-04-01). "India hydropower output records steepest fall in nearly four decades". Reuters. Retrieved 2024-04-03.
  9. ^ (PDF). Archived from the original (PDF) on 9 May 2016. Retrieved 17 April 2016.
  10. ^ . Archived from the original on 10 June 2016. Retrieved 17 April 2016.
  11. ^ "Govt plans push for hydro power". Retrieved 17 April 2016.
  12. ^ . Archived from the original on 3 September 2017. Retrieved 23 June 2017.
  13. ^ "AN OVERVIEW OF HYDRO-ELECTRIC POWER PLANT (PDF Download Available)". ResearchGate. Retrieved 2017-02-21.
  14. ^ "See page 33, Executive Summary for the Month of May, 2016" (PDF). Retrieved 7 July 2016.
  15. ^ a b (PDF). World Energy Council. Archived from the original (PDF) on 6 August 2018. Retrieved 6 August 2018.
  16. ^ (PDF). Archived from the original (PDF) on 7 July 2014. Retrieved 27 August 2014.
  17. ^ "Energy Storage: Connecting India to Clean Power on Demand" (PDF). Retrieved 29 December 2023.
  18. ^ "Multipurpose Freshwater Coastal Reservoirs and Their Role in Mitigating Climate Change" (PDF). Retrieved 23 May 2023.
  19. ^ "Water and food security | International Decade for Action 'Water for Life' 2005-2015". www.un.org. Retrieved 2017-02-21.
  20. ^ "Solar power tariffs drops historic low at Rs 2.44 per unit". Retrieved 21 May 2017.
  21. ^ "Why The Renewables Revolution Is Now Unstoppable". Retrieved 27 June 2016.
  22. ^ "Geographic information system showing prospective sites for pumped hydro energy storage in India". Retrieved 19 November 2019.
  23. ^ "Elon Musk Should Build Pumped Hydro With Tesla Energy, The Boring Co., & Coal Miners". Retrieved 27 October 2019.
  24. ^ "India readies plan to improve renewable power storage". Retrieved 22 August 2016.

January 01, 1970
hydroelectric, power, india, india, globally, installed, hydroelectric, power, capacity, march, 2020, india, installed, utility, scale, hydroelectric, capacity, total, utility, power, generation, capacity, additional, smaller, hydroelectric, power, units, with. India is 5th globally for installed hydroelectric power capacity 1 As of 31 March 2020 India s installed utility scale hydroelectric capacity was 46 000 MW or 12 3 of its total utility power generation capacity 2 Additional smaller hydroelectric power units with a total capacity of 4 683 MW 1 3 of its total utility power generation capacity have been installed 3 India s hydroelectric power potential is estimated at 148 700 MW at 60 load factor 4 In the fiscal year 2019 20 the total hydroelectric power generated in India was 156 TWh excluding small hydro with an average capacity factor of 38 71 Shivanasamudra Falls The hydroelectric power plants at Darjeeling and Shivanasamudra were established in 1898 and 1902 respectively They were among the first in Asia and India has been a dominant player in global hydroelectric power development 5 India also imports surplus hydroelectric power from Bhutan Small hydropower defined to be generated at facilities with nameplate capacities up to 25 MW comes under the ambit of the Ministry of New and Renewable energy MNRE whilst large hydro defined as above 25 MW comes under the ambit of the Ministry of Power 6 7 Koyna Hydroelectric Project is the largest completed hydroelectric power plant in India with a power capacity of 1960 MWIndia s hydroelectric power output dropped by 16 3 in the fiscal year ending March 31 2024 the largest decline in 38 years primarily due to low rainfall This decrease led to hydroelectricity s share of India s total power generation falling to a historic low of 8 3 As a result the country s reliance on coal increased with hydro generation reaching a five year low of 146 billion kWh The lack of rainfall was attributed to the lightest rainfall since 2018 and potentially influenced by the El Nino weather pattern Consequently hydroelectric power s role in the Indian energy mix is diminishing with its reliability questioned due to erratic weather patterns 8 Contents 1 Hydroelectric potential 2 Basin wise potential of Hydropower 3 Pumped storage units 4 See also 5 ReferencesHydroelectric potential edit nbsp Upper Indiravati power house India s economically exploitable and viable hydroelectric potential is estimated to be 148 701 MW 9 10 An additional 6 780 MW from smaller hydro schemes with capacities of less than 25 MW is estimated as exploitable 11 56 sites for pumped storage schemes with an aggregate installed capacity of 94 000 MW have also been identified In central India the hydroelectric power potential from the Godavari Mahanadi Nagavali Vamsadhara and Narmada river basins has not been developed on a major scale due to potential opposition from the tribal population 12 Basin wise potential of Hydropower editBrahmaputra has highest potential in terms of generating Hydroelectricity followed by Indus Ganga East flowing rivers have the largest potential as compared to West flowing rivers and Central Indian basinsThe public sector accounts for 92 5 of India s hydroelectric power production The National Hydroelectric Power Corporation NHPC Northeast Electric Power Company NEEPCO Satluj Jal Vidyut Nigam SJVNL THDC and NTPC Hydro are some of the public sector companies producing hydroelectric power in India The private sector is also expected to grow with the development of hydroelectric energy in the Himalayan mountain ranges and in the northeast of India 4 Indian companies have also constructed hydropower projects in Bhutan Nepal Afghanistan and other countries 4 Bhakra Beas Management Board BBMB a state owned enterprise in north India has an installed capacity of 2 9 GW 13 The generation cost after four decades of operation is about 27 paise 0 34 US per kWh 14 BBMB is a major source of peaking power and black start capability to the northern grid in India and its large reservoirs provide wide operational flexibility BBMB reservoirs also supply water for the irrigation of 12 5 million acres 51 000 km2 19 500 sq mi of agricultural land in partner states enabling the green revolution in the northern India The International Hydropower Association estimates that the total hydropower potential in India is 660 000 GWh year of which 540 000 GWh year 79 is still undeveloped 15 India ranks as the fourth country in the world by undeveloped hydropower potential after Russia China and Canada and fifth by total potential surpassed also by Brazil 15 Pumped storage units editSee also Electricity sector in India Solar power Pollution of the Ganges Ganga and Power sector of Andhra Pradesh Pumped storage hydroelectricity projects India has transformed from an electricity deficit state to an electricity surplus state Peak load shortages can be met making use of pumped storage schemes which store surplus power to meet peak load demands The pumped storage schemes also contribute secondary seasonal power at no additional cost when rivers are flooded with excess water India has already established nearly 4 800 MW pumped storage capacity with the installation of hydropower plants 16 Another 2780 MW capacity is under construction as of December 2023 17 In a tropical country like India abundant water for agriculture is needed due to a very high annual evaporation rate Pumped storage units can also be used as pumping stations to supply river water for upland irrigation industrial needs and drinking water 18 The amount of water necessary to meet this demand can be harnessed from India s rivers via pumped storage units Food security in India is improved with water security which in turn is possible from the energy security to supply the power needed for the pumped storage schemes 19 More and more solar power generation is becoming available at cheaper cost and it has advantage in terms of environmental impact 20 Solar power can meet daytime and night time energy demands with the help of pumped storage units 21 22 23 Many of the existing hydro power stations on the west flowing rivers located in the Western Ghats of Kerala and Karnataka are to be expanded to include pumped storage units in an effort to solve the water deficit of east flowing rivers like the Kaveri the Krishna etc 24 See also editList of hydro power stations in India Electricity sector in India Energy policy of India Pollution of the Ganges Water resources in India Indian Rivers Inter link Wind power in India Solar power in India Biofuel in India Power sector of Andhra Pradesh Renewable energy in India Yarlung Tsangpo Hydroelectric ProjectReferences edit India overtakes Japan with fifth largest hydropower capacity in the world Retrieved 30 May 2020 All India installed capacity of power stations March 2020 PDF Archived from the original PDF on 12 May 2020 Retrieved 25 May 2020 Renewable Energy Physical Progress as on 31 03 2020 Ministry of New amp Renewable Energy GoI Retrieved 4 June 2020 a b c Hydro Electric Potential in India Retrieved 17 April 2016 India remains major competitor in global hydropower Archived from the original on 16 April 2016 Retrieved 17 April 2016 Executive Summary Power Sector February 2017 PDF report Central Electricity Authority Ministry of Power Govt of India 28 February 2017 Archived from the original pdf on 17 April 2018 Retrieved 24 April 2017 Small Hydro Government of India Ministry of New and Renewable Energy Archived from the original on 2018 02 20 Retrieved 6 April 2019 Varadhan Sudarshan Yap Cassandra 2024 04 01 India hydropower output records steepest fall in nearly four decades Reuters Retrieved 2024 04 03 Status of Hydro Electric Potential Development in India PDF Archived from the original PDF on 9 May 2016 Retrieved 17 April 2016 Hydropower Too slow to be steady Archived from the original on 10 June 2016 Retrieved 17 April 2016 Govt plans push for hydro power Retrieved 17 April 2016 River basin wise hydro potential in India CEA Archived from the original on 3 September 2017 Retrieved 23 June 2017 AN OVERVIEW OF HYDRO ELECTRIC POWER PLANT PDF Download Available ResearchGate Retrieved 2017 02 21 See page 33 Executive Summary for the Month of May 2016 PDF Retrieved 7 July 2016 a b World Energy Resources Hydropower 2016 PDF World Energy Council Archived from the original PDF on 6 August 2018 Retrieved 6 August 2018 Pumped storage hydro power plant PDF Archived from the original PDF on 7 July 2014 Retrieved 27 August 2014 Energy Storage Connecting India to Clean Power on Demand PDF Retrieved 29 December 2023 Multipurpose Freshwater Coastal Reservoirs and Their Role in Mitigating Climate Change PDF Retrieved 23 May 2023 Water and food security International Decade for Action Water for Life 2005 2015 www un org Retrieved 2017 02 21 Solar power tariffs drops historic low at Rs 2 44 per unit Retrieved 21 May 2017 Why The Renewables Revolution Is Now Unstoppable Retrieved 27 June 2016 Geographic information system showing prospective sites for pumped hydro energy storage in India Retrieved 19 November 2019 Elon Musk Should Build Pumped Hydro With Tesla Energy The Boring Co amp Coal Miners Retrieved 27 October 2019 India readies plan to improve renewable power storage Retrieved 22 August 2016 Retrieved from https en wikipedia org w index php title Hydroelectric power in India amp oldid 1216987522, wikipedia, wiki, book, books, library,

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