Wind power in India

Wind power generation capacity in India has significantly increased in recent years. As of 29 February 2020 the total installed wind power capacity was 37.669 GW, the fourth largest installed wind power capacity in the world.[2][3] Wind power capacity is mainly spread across the Southern, Western and Northern regions.[4]

Mean wind speed in India.[1]

Wind power costs in India are decreasing rapidly.[5] The levelised tariff of wind power reached a record low of 2.43 (3.4¢ US) per kWh (without any direct or indirect subsidies) during auctions for wind projects in December 2017.[6][7][8] In December 2017, union government announced the applicable guidelines for tariff-based wind power auctions to bring more clarity and minimise the risk to the developers.[9]

Wind farms midst paddy fields in India.

Installed capacity

The table below shows the India's year on year installed wind power, annual wind power generation and annual growth in wind power generation since 2006.[10]

Installed wind power capacity and generation in India since 2007
Financial year 06-0707-0808-0909-1010-1111-1212-1313-1414-1515-1616-1717-1818-19[11]19-20
Installed capacity (MW) 7,8509,58710,92513,06416,08418,42120,15022,46523,44726,77732,28034,04635,62637,669
Generation (GWh) 28,21428,60446,01152,66662,03664,485

History
Installed Wind Power Capacity
Fiscal Year End Cumulative Capacity (in MW)
2005
6,270
2006
7,850
2007
9,587
2008
10,925
2009
13,064
2010
16,084
2011
18,421
2012
20,149
2013
21,264
2014
23,354
2015
26,769
2016
32,280
2017
34,046
2018
35,626

Development of wind power in India began in December 1952, when Maneklal Sankalchand Thacker, a distinguished power engineer, initiated a project with the Indian Council of Scientific and Industrial Research (CSIR) to explore the possibilities of harnessing wind power in the country.[12] The CSIR established a Wind Power Sub-Committee under P. Nilakantan, which was assigned the task of investigating the available resources that could be practically utilized, along with researching the economic possibilities of wind energy.[13] With assistance from the Indian Meteorological Department, the Sub-Committee extensively reviewed available data on surface winds in India and their velocity duration, and began detailed surveys of promising sites for harnessing the optimum amount of wind energy; it also successfully developed and tested large wood-and-bamboo windmills.

In September 1954, a Symposium on Solar Energy and Wind Power organised by the CSIR and UNESCO was held in New Delhi; among the attendees was E. W. Golding, a British power engineer and authority on wind energy generation.[12] Convinced of the potential of wind power in India, he recommended continued and extensive wind velocity surveys in different regions of India, the full-time assignment of staff to experimental wind power studies, the establishment of a dedicated research laboratory and development of small to medium-sized wind-powered electrical generators. Golding's recommendations were adopted by the CSIR in 1957.[12] By this time, regions of Saurashtra and around Coimbatore had been identified as promising sites for generating electricity from wind power, and the Wind Power Sub-Committee had begun to erect 20 wind velocity survey stations across India, in addition to testing its indigenously designed windmills and obtaining a 6 kw. Allgaier wind turbine, which was presented to India by the West German government; experiments at Porbandar with the latter had commenced by 1961.[13][12] The Indian government also considered a proposal to erect over 20,000 small to medium-sized wind-powered electrical generators in rural districts, to be used for powering water pumps and supplying electricity for remotely situated structures such as lighthouses.[13]

In 1960, the CSIR established a Wind Power Division as part of the new National Aeronautical Laboratory (NAL) in Bangalore, which was founded that year.[12] From the 1960s into the 1980s, the NAL and other groups continued to carry out wind velocity surveys and develop improved estimates of India's wind energy capacity.[14] Large-scale development of wind power began in 1985 with the first wind project in Veraval, Gujarat, in the form of a 40-kW Dutch machine (make Polenko) connected to the grid. The project, an initiative of late Dr. K S Rao, the then Director of GEDA (Gujarat Energy Development Agency), was a joint venture between GEDA and J K Synthetics Ltd. Though the performance of this machine was quite poor, it established the technical viability of operating wind turbines in the grid-connected mode in India. Subsequently, the Government of India planned several demonstration wind farms in the coastal regions of the country and simultaneously launched a massive programme to identify sites suitable for wind projects. In 1986, demonstration wind farms were set up in the coastal areas of Maharashtra (Ratnagiri), Gujarat (Okha) and Tamil Nadu (Tirunelveli) with 55 kW Vestas wind turbines. These demonstration projects were supported by the Ministry of New and Renewable Energy (MNRE). The demonstration projects set up in 1985-86 established beyond doubt, both the technical and economic viability of the wind energy projects, while the wind-mapping programme resulted in the identification of many sites suitable for wind power projects (C-WET 2001; Mani 1990, 1992, 1994; Mani and Mooley 1983).

The potential for wind farms in the country was first assessed in 2011 to be more than 2,000 GW by Prof. Jami Hossain of TERI University, New Delhi.[15] This was subsequently re-validated by Lawrence Berkley National Laboratory, US (LBNL) in an independent study in 2012. As a result, the MNRE set up a committee to reassess the potential[16] and through the National Institute of Wind Energy (NIWE, previously C-WET) has announced a revised estimation of the potential wind resource in India from 49,130 MW to 302,000 MW assessed at 100 m hub height.[17] Wind turbines are now being set up at even 120 m hub height and the wind resource at higher hub heights of around 120 m or more that are prevailing is possibly even more.

In 2015, the MNRE set the target for Wind Power generation capacity by the year 2022 at 60,000 MW.[2][18]

East and North east regions have no grid connected wind power plant as of December 2017.

No offshore wind farm is under implementation as of December 2017.[19] However, an Offshore Wind Policy was announced in 2015 and presently weather stations and LIDARs are being set up by NIWE at some locations.[20] The first offshore wind farm is planned near Dhanushkodi in Tamil Nadu.[21]

Electricity generation

Wind power accounts for nearly 10% of India's total installed power generation capacity and generated 62.03 TWh in the fiscal year 2018-19, which is nearly 4% of total electricity generation.[22] The capacity utilisation factor is nearly 19.33% in the fiscal year 2018-19 (16% in 2017-18, 19.62% in 2016-17 and 14% in 2015-16). 70% of annual wind generation is during the five months duration from May to September coinciding with Southwest monsoon duration. In India, solar power is complementary to wind power as it is generated mostly during the non monsoon period in daytime.[23]

Monthly Electricity Generation in India April, 2018 - March, 2019[24]
MonthNorthWestSouthEastNorth EastTotal (GWh)
April 2018552.541,604.271,165.93--3,322.74
May 2018587.602,481.921,371.58--4,441.09
June 20181,035.613,461.163,827.8912.28-8,336.94
July 2018950.364,011.236,403.68--11,365.27
August 2018910.123,730.767,129.621.15-11,771.66
September 2018600.531,778.123,708.995.70-6,093.34
October 2018209.39744.691,864.793.91-2,789.24
November 2018184.31760.811,232.003.91-2,181.03
December 2018283.011,333.621,163.339.29-2,789.24
January 2019312.561,233.131,296.299.91-2,851.89
February 2019385.011,313.141,384.0712.25-3,094.47
March 2019392.771,477.501,083.5712.10-2,965.93
Total (GWh)6,403.7923,930.3631,631.7270.50-62,036.38

Wind power by state
Muppandal Wind farm near NH44
Muppandal wind farm in Tamil Nadu

There is a growing number of wind energy installations in states across India.

Installed wind capacity by state as of 31 October 2019[25][4]
State Total Capacity (MW)
Tamil Nadu 9231.77
Gujarat 7203.77
Maharashtra 4794.13
Karnataka 4753.40
Rajasthan 4299.73
Andhra Pradesh 4077.37[26]
Madhya Pradesh 2519.89
Telangana 128.10
Kerala 62.50
Others 4.30
Total37090.03

Tamil Nadu

Tamil Nadu's wind power capacity is around 29% of India's total. The Government of Tamil Nadu realized the importance and need for renewable energy, and set up a separate Agency, as registered society, called the Tamil Nadu Energy Development Agency (TEDA) as early as 1985. Now, Tamil Nadu has become a leader in Wind Power in India. In Muppandal windfarm the total capacity is 1500 MW, the largest wind power plant in India. The total wind installed capacity in Tamil Nadu is 7633 MW.[27] During the fiscal year 2014-15, the electricity generation is 9.521 GWh, with about a 15% capacity utilization factor.[28]

Maharashtra

Maharashtra is one of the prominent states that installed wind power projects second to Tamil Nadu in India. As of end of March 2016, installed wind power capacity is 4655.25 MW . As of now there are 50 developers registered with state nodal agency "Maharashtra energy Development Agency" for development of wind power projects. All the major manufacturers of wind turbines including ReNew Power, Suzlon, Vestas, Gamesa, Regen, Leitner Shriram have presence in Maharashtra.

Gujarat

Gujarat government's focus on tapping renewable energy has led to sharp rise in the wind power capacity in the last few years. According to official data, wind power generations capacity in the state has increased a staggering ten times in last six years. Gujarat have 16% of total capacity of country. ONGC Ltd. has installed a 51MW wind energy farm at Bhuj in Gujarat. Renewable energy projects worth a massive Rs 1 lakh crore of memorandums of understanding (MoUs) in the Vibrant Gujarat Summit in 2017.[29]

Rajasthan

4298 MW wind power plant has been installed in Rajasthan.

Madhya Pradesh

In consideration of unique concept, Govt. of Madhya Pradesh has sanctioned another 15 MW project to Madhya Pradesh Windfarms Ltd. MPWL, Bhopal at Nagda Hills near Dewas under consultation from Consolidated Energy Consultants Ltd. CECL Bhopal. All the 25 WEGs have been commissioned on 31.03.2008 and under successful operation.[30]

Kerala

55 MW production of wind power is installed in Kerala. The first wind farm of the state was set up in 1997 at Kanjikode in Palakkad district.

The agency has identified 16 sites for setting up wind farms through private developers.

Odisha

Odisha a coastal state has higher potential for wind energy. Current installation capacity stands at 2.0 MW. Odisha has a windpower potential of 1700MW. The Govt of Odisha is actively pursuing to boost Wind power generation in the state. however it has not progressed like other states primarily because Odisha having a huge coal reserve and number of existing and upcoming thermal power plants, is a power surplus state.[31]

West Bengal

The total installation in West Bengal is 2.10 MW till Dec 2009 at Fraserganj, Distt- South 24 Paraganas. More 0.5 MW (approx) at Ganga Sagar, Kakdwip, Distt - South 24 Paraganas. Both the project owned by West Bengal Renewable Energy Development Agency (WBREDA), Govt. of WB and project was executed on turnkey basis by Utility Powertech Limited (UPL).

Kashmir

The union territory of Ladakh and its Kargil district are potential wind energy areas, which are yet to be exploited.[17] Wind Speeds are higher during the winter months in Ladakh, which is complementary to the hydro power available during the summer months from the snow melt water. Being a Himalayan region located at higher altitude, the heating energy requirements are high which can be met by the renewable energy resources such as wind, solar and hydro power. The union territory is yet to open its account in grid connected wind power installations.

Projects

India's largest wind power production facilities (10MW and greater)[25][32]

Windmills on the Tirumala hills in Andhra Pradesh
A wind farm in Rajasthan
Wind turbines midst of India's agricultural farms.
RankPower plantProducerLocationStateMWe
1Muppandal windfarm[33]Muppandal WindKanyakumariTamil Nadu1500
2Jaisalmer Wind Park[34]Suzlon EnergyJaisalmerRajasthan1064
3Brahmanvel windfarm[35]Parakh Agro IndustriesDhuleMaharashtra528
4Dhalgaon windfarm[36]Gadre Marine ExportsSangliMaharashtra278
5Vankusawade Wind ParkSuzlon Energy Ltd.Satara District.Maharashtra259
6VaspetReNew PowerVaspetMaharashtra144
7TuljapurSiemens Gamesa, ReNew PowerOsmanabadMaharashtra 126
8Beluguppa Wind ParkOrange RenewableBeluguppaAndhra Pradesh100.8
9Mamatkheda Wind ParkOrange RenewableMamatkhedaMadhya Pradesh100.5
10Anantapur Wind ParkOrange RenewableNimbagalluAndhra Pradesh100
11Damanjodi Wind Power PlantSuzlon Energy Ltd.DamanjodiOdisha99
12JathReNew PowerJathMaharashtra84
13WelturiReNew PowerWelturiMaharashtra75
14Acciona TuppadahalliTuppadahalli Energy India Pvt LtdChitradurga DistrictKarnataka56.1
15Dangiri Wind FarmOil India Ltd.JaiselmerRajasthan54
16Bercha Wind ParkOrange RenewableRatlamMadhya Pradesh50
17Cape ComorinAban Loyd Chiles Offshore Ltd.KanyakumariTamil Nadu33
18Kayathar SubhashSubhash Ltd.KayatharTamil Nadu30
19JasdanNTPC LTD.JasdanGujarat25.0
20RamakkalmeduSubhash Ltd.RamakkalmeduKerala25
21GudimangalamGudimangalam Wind FarmGudimangalamTamil Nadu21
22Shalivahana WindShalivahana Green Energy. Ltd.TirupurTamil Nadu20.4[37]
23Puthlur RCIWescare (India) Ltd.PuthlurAndhra Pradesh20
24Lamda DanidaDanida India Ltd.LambaGujarat15
25Chennai MohanMohan Breweries & DistilleriesChennaiTamil Nadu15
26Shah GajendragarhMMTCLGadagKarnataka15
27Jamgudrani MPMP Windfarms Ltd.DewasMadhya Pradesh14
28Jogmatti BSESBSES Ltd.Chitradurga DistrictKarnataka14
29Perungudi NewamNewam Power Company Ltd.PerungudiTamil Nadu12
30Kethanur Wind FarmKethanur Wind FarmKethanurTamil Nadu11
31Shah GajendragarhSanjay D. GhodawatGadagKarnataka10.8
32Hyderabad TSRTCTelangana SRTCHyderabadTelangana10
33Muppandal MadrasMadras Cements Ltd.MuppandalTamil Nadu10
34Poolavadi ChettinadChettinad Cement Corp. Ltd.PoolavadiTamil Nadu10

Offshore wind power plants

India has an offshore wind energy potential of around 70 GW in parts along the coast of Gujarat and Tamil Nadu.[38]

India started planning in 2010 to enter into offshore wind power,[39] and a 100 MW demonstration plant located off the Gujarat coast began planning in 2014.[40] In 2013, a consortium (instead of group of organizations), led by Global Wind Energy Council (GWEC) started project FOWIND (Facilitating Offshore Wind in India) to identify potential zones for development of off-shore wind power in India and to stimulate R & D activities in this area.[41] The other consortium partners include the Centre for Study of Science, Technology and Policy (CSTEP), DNV GL, the Gujarat Power Corporation Limited (GPCL) and the World Institute of Sustainable Energy (WISE). The consortium was awarded the grant of €4.0 million by the delegation of the European Union to India in 2013 besides co-funding support from GPCL. The project action will be implemented from December 2013 to March 2018.

The project focuses on the States of Gujarat and Tamil Nadu for identification of potential zones for development through techno-commercial analysis and preliminary resource assessment. It will also establish a platform for structural collaboration and knowledge sharing between stakeholders from European Union and India, on offshore wind technology, policy, regulation, industry and human resource development. FOWIND activities will also help facilitate a platform to stimulate offshore wind related R&D activities in the country. The consortium published initial pre-feasibility assessment reports for offshore wind farm development in Gujarat and Tamil Nadu on 16 June 2015.[42][43] In September 2015, the India's cabinet has approved the National Offshore Wind Energy Policy. With this, the Ministry of New & Renewable Energy (MNRE) has been authorized as the Nodal Ministry for use of offshore areas within the Exclusive Economic Zone (EEZ)[44]

India seems pacing up rapidly towards offshore wind energy development as the Nodal Ministry (MNRE) & Nodal Agency (NIWE) calls with the Expression of Interest (EoI)[45] inviting the bidders for development of first 1000MW commercial scale offshore windfarm in India, near the coast of Gujarat. The EoI published on 16th Apr 2018, specifies the proposed area identified under the FOWIND & FOWPI study funded by European Union. The proposed location of the offshore windfarm could be 23-40km off the coast from the Pipavav port, Gulf of Khambhat. The proposed area covers about 400sq km. The wind measurements & other data collection are under progress under the supervision of NIWE.

gollark: Partnership how? Epicbot links?
gollark: Manually? Wow.
gollark: This is a cool idea! I could add this to ABR's heavserver integration module!
gollark: Why 100 memberoforms?
gollark: "A T-shaped tile appeared! Which column do you want to put it in?"

See also

References
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  2. "Physical Progress (Achievements)". Ministry of New and Renewable Energy, GoI.
  3. "Global Wind Statistics 2017" (PDF).
  4. "Installed capacity of wind power projects in India". Retrieved 7 April 2018.
  5. "Wind power installations will cross 8,000 MW next year: Tulsi Tanti". Retrieved 9 March 2019.
  6. "Wind power tariffs in Gujarat auctions fall to Rs 2.43 per unit". The Economic Times. Retrieved 22 December 2017.
  7. "Wind energy tariffs do not fall further in latest auction for 2,000 Mw". The Economic Times. Retrieved 15 February 2018.
  8. "SECI's 1.2 GW Wind Auction Sees Lowest Tariff of ₹2.82/kWh". Retrieved 15 February 2019.
  9. "Govt issues guidelines for tariff-based wind power auction". Retrieved 12 December 2017.
  10. "Monthly wind generation" (PDF). Retrieved 16 September 2017.
  11. "All India installed capacity of power stations" (PDF). March 2019. Retrieved 26 April 2019.
  12. "Wind as a Source of Energy in India" (PDF). Current Science. 30.3: 95. January 1961.
  13. "Utilization of Wind Power In India" (PDF). Current Science. 25.6: 180–181. June 1956.
  14. Mani, Anna (1995). Wind Energy Resource Survey in India - I. New Delhi: Allied Publishers Limited. p. 185. ISBN 81-7023-297-X.
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  16. "India Wind Power Potential".
  17. "Estimation of Installable Wind Power Potential at 80 m level in India". Retrieved 16 May 2015.
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  19. "Offshore Wind Costs Fall Below New Nuclear Plants in U.K." Retrieved 17 September 2017.
  20. "Offshore Wind Costs Fall Below New Nuclear Plants in U.K." Retrieved 7 January 2018.
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  22. "CEA monthly utility electricity generation" (PDF). Retrieved 3 May 2019.
  23. "ReGen enters solar power with hybrid solution". Retrieved 16 October 2015.
  24. "Summary of All India Provisional Renewable Energy Generation, CEA" (PDF). Retrieved 3 May 2019.
  25. "Plant wise details of Renewable Energy Installed Capacity" (PDF). Retrieved 21 March 2020.
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  27. , Tamil Nadu Energy Development Agency - Site.
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  34. "Jaisalmer windfarm". Retrieved 2 February 2014.
  35. "Brahmanvel windfarm (India)". Retrieved 2 February 2014.
  36. "Dhalgaon windfarm". Retrieved 2 February 2014.
  37. "Shalivahana Green Energy | Bio Mass | Municipal Solid Waste | Wind Energy | Hydel Energy". Shalivahanagroup.com. Retrieved 17 September 2012.
  38. "Gujarat and Tamil Nadu Have Offshore Wind Energy Potential of 70 GW: MNRE". Retrieved 8 January 2020.
  39. Chadha, Mridul (15 November 2010). "Offshore Wind Energy Coming to India Soon?". cleantechnica.com. Retrieved 25 December 2017.
  40. "MOU Signed for First Ever Offshore Wind Power Project in India". Press Information Bureau, Government of India. Press Information Bureau, Government of India. 1 October 2014. Retrieved 30 April 2015.
  41. "FOWIND Project". Retrieved 13 August 2015.
  42. "FOWIND Project". Retrieved 13 August 2015.
  43. R. Srikanth; Sangeetha Kandavel (29 January 2015). "Tapping the offshore wind". The Hindu. Retrieved 30 April 2015.
  44. "National Offshore Wind Power Policy 2015". GKToday. 3 November 2015. Retrieved 3 November 2015.
  45. "EoI- First 1000MW commercial scale Offshore Wind farm in India" (PDF). Retrieved 19 April 2018.

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