Wind power in Iran

As a further drive toward diversification of energy sources, Iran has also established wind farms in several areas, this one near Manjeel.

The energy system of Iran relies primarily on fossil fuels. However, the country has made steps to decrease its dependency on fossil fuels by investing in wind power.[1] In 2004 Iran generated only 25 megawatts from wind power, 32 megawatts in 2005, and 45 megawatts in 2006. By 2009, total wind power capacity reached 130 megawatts. This was a result of the production of larger wind farms in more coastal and windy areas of Iran, such as Manjeel (Gilan province) and Binaloud (Razavi Khorasan Province).[2][3] In 2021, Iran's total capacity of onshore wind power grew by 0.6%.[4]

By 2021, the total amount of produced energy from wind farms was 310 MW in Iran.[5] In March 2023, 'Mil Nader' 50-MW wind farm became operation in Sistan and Baluchestan province.[6]

History

Energy infrastructure of Iran was mainly based on fossil fuels. However, by investing in wind electricity, the country has taken measures to reduce its reliance on fossil fuels. With the help from Sadid Industrial Group (Iranian manufacturing company) and investments as well as resources from Indian (Sulzon Energy) and German (Siemens) wind turbine companies, Iran has been able to build a strong and stable wind sector.[1]

To boost up the wind energy production, the Renewable Energy Organization of Iran (SUNA) based its new feed-in tariff policy on the German equivalent, assured government electricity sales for 20 years, and implemented a 15% tax cut for businesses using domestic components.[7]

According to the Iranian minister of powder, before the revolution, foreign states provided the infrastructure for the electricity sector in Iran, and Iranian technicians were only permitted to replace the transformer oil. Today, however, the Iranian electricity sector has almost entirely attained self-sufficiency.[6]

Largest wind farms

Project Capacity (MW) Province
Binalood 61.2 Razavi Khorasan
Siahpoosh 48.18 Gilan
Mil Nader 50 Sistan and Baluchestan province
Manjil 28.37 Gilan
Harzevil 13.5 Gilan

نیروگاه بادی کهک تاکستان 55 مگاوات نیروگاه بادی آقکند 50 مگاوات

See also

References

  1. ^ a b "Iran – Asia Wind Energy Association 2023". Retrieved 2023-04-03.
  2. ^ Iran to construct 2000 MW in renewable energy capacity, much from biomass : Biomass Digest – biofuels, biodiesel, ethanol, algae, jatropha, green gasoline, green diesel, and b...
  3. ^ IR : Iran Announces New Renewable Energy Facilities – General news news
  4. ^ "Iran Wind Energy Market Size & Share Analysis - Industry Research Report - Growth Trends". www.mordorintelligence.com. Retrieved 2023-04-03.
  5. ^ "آخرین وضعیت تولید انرژی‌های تجدیدپذیر در ایران" [The latest status of renewable energy production in Iran]. ISNA (in Persian). 2021-12-01. Retrieved 2023-04-04.
  6. ^ a b "نیروگاه بادی ۵۰ مگاواتی «میل نادر» در نوبت افتتاح/ تعداد روستاهای مشمول «جهاد آبرسانی» امسال افزایش می‌یابد". خبرگزاری ایلنا (in Persian). Retrieved 2023-04-03.
  7. ^ "Iran's Renewable Energy Potential". Middle East Institute. Retrieved 2023-04-03.

Bibliography

  1. F., F., N., S., S., S., & M.A., R. (2015). Assessment of wind energy potential and economics in the north-western Iranian cities of Tabriz and Ardabil. Renewable and Sustainable Energy Reviews, v45, 87-99.
  2. Fatemeh Rahimzadeh Affiliation: Atmospheric Science and Meteorological Research Center (ASMERC), T. I., & Affiliation:, A. M. (2011). Wind speed variability over Iran and its impact on wind power potential: a case study for Esfehan Province. Meteorological Applications, v18 n2, 198-210.
  3. Gholamhassan Najafi Affiliation: Tarbiat Modares University, P. B.-1., & Barat Ghobadian Affiliation: Tarbiat Modares University, P. B.-1. (2015). LLK1694-wind energy resources and development in Iran. Renewable and Sustainable Energy Reviews, v15 n6, 2719-2728.
  4. Julien Mercille Affiliation: School of Geography, P. a., & Alun Jones Affiliation: School of Geography, P. a. (2009). Practicing Radical Geopolitics: Logics of Power and the Iranian Nuclear “Crisis”. Annals of the Association of American Geographers, v99 n5, 856-862.
  5. Kasra Mohammadi Affiliation: Department of Mechanical and Industrial Engineering, U. o., Ali Mostafaeipour Affiliation: Industrial Engineering Department, Y. U., & Affiliat, A. S. (2009). Application and economic viability of wind turbine installation in Lutak, Iran. Environmental Earth Sciences, v75 n3, 1-16.
  6. Sayed Moslem Mousavi Affiliation: Sharif University of Technology, I., & Morteza Bagheri Ghanbarabadi Affiliation: Sharif University of Technology, I. (2015). The competitiveness of wind power compared to existing methods of electricity generation in Iran. Energy Policy, v42 (201203), 651-656.
  7. Wyn Q Bowen Affiliation: Defence Studies Department, K. C., & London, J. K. (2004). The Iranian Nuclear Challenge. International Affairs, v80 n2, 257-276.

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