The rapid development of wind energy has formed a huge industry, which has driven the development of a number of related industries and products, and is of great significance to promoting the development of my country's national economy. If it can be used to generate electricity, it will be very beneficial to the life and production of the local people. Therefore, it is very important to continuously improve the wind power generation control system and improve the utilization rate of wind power and the quality of power supply. The purpose of this paper is to study the development and utilization of wind energy resources and new ways of utilization based on fuzzy control. In this paper, the research work is carried out from the two aspects of control strategy and fuzzy controller design, and the design method of fuzzy controller is emphatically studied. Finally, the simulation model of wind turbine is constructed by MALAB, and the simulation experiment of the proposed fuzzy control method is completed. The results show that the fuzzy controller can achieve better control performance.

Vepaty Velurugan. Development and Utilization of Wind Energy Resources and Analysis of New Utilization Methods Based on Fuzzy Control. Academic Journal of Energy (2022), Vol. 3, Issue 1: 22-30. https://doi.org/10.38007/RE.2022.030103.

[1] Preston T M ,  Anderson C W ,  Thamke J N , et al. Predicting attenuation of salinized surface-and groundwater-resources from legacy energy development in the Prairie Pothole Region. Science of the Total Environment, 2019, 690(NOV.10):522-533. https://doi.org/10.1016/j.scitotenv.2019.06.428

[2] Beaudreau T ,  Schneider J ,  Marnitz J . The Public's Interest and Durable Management of Energy Development on Public Lands. Environmental Law Reporter, 2019, 49(8):10735-10740.

[3] Alipour M ,  Hafezi R ,  Papageorgiou E , et al. Characteristics and scenarios of solar energy development in Iran: Fuzzy cognitive map-based approach. Renewable & Sustainable Energy Reviews, 2019, 116(Dec.):109410.1-109410.18. https://doi.org/10.1016/j.rser.2019.109410

[4] May R ,  Masden E A ,  Bennet F , et al. Considerations for upscaling individual effects of wind energy development towards population-level impacts on wildlife. Journal of Environmental Management, 2019, 230(JAN.15):84-93.

[5] Kresning B ,  Hashemi M R ,  Neill S P , et al. The impacts of tidal energy development and sea-level rise in the Gulf of Maine. Energy, 2019, 187(Nov.15):115942.1-115942.13.

[6] Heffron R , S Halbrügge,  Krner M F , et al. Justice in solar energy development. Solar Energy, 2021, 218(5):68-75.

[7] Sidortsov R . Benefits over risks: A case study of government support of energy development in the Russian North. Energy Policy, 2019, 129(JUN.):132-138.

[8] George A ,  Shen B ,  Arowo M , et al. Review of solar energy development in Kenya: Opportunities and challenges. Renewable Energy Focus, 2019, 29(JUN.):123-140. https://doi.org/10.1016/j.ref.2019.03.007

[9] Akpinar, A, Kaygusuz, et al. Regional sustainable water and energy development projects: A case of Southeastern Anatolia Project (GAP) in Turkey (Retraction of Vol 16, Pg 1146, 2011). Renewable & sustainable energy reviews, 2018, 83(Mar.):173-173. https://doi.org/10.1016/j.rser.2017.07.052

[10] Bartle A . Welcome to the Seventh International Conference and Exhibition on Water Resources and Renewable Energy Development in Asia. International Journal on Hydropower & Dams, 2018, 25(2):29-36.

[11] Preston T M ,  Borgreen M J ,  Ray A M . Effects of brine contamination from energy development on wetland macroinvertebrate community structure in the Prairie Pothole Region.. Environmental Pollution, 2018, 239(AUG.):722-732.

[12] MD Ferguson,  Powers S L ,  Trauntvein N , et al. Winds of Change: Predicting Water-Based Recreationists' Support and Opposition for Offshore Wind Energy Development in the Great Lakes. Journal of Great Lakes Research, 2018, 45(1):187-195. https://doi.org/10.1016/j.jglr.2018.10.006

[13] Alifdini I ,  Iskandar N A P ,  Nugraha A W , et al. Analysis of ocean waves in 3 sites potential areas for renewable energy development in Indonesia. Ocean Engineering, 2018, 165(OCT.1):34-42.

[14] Ostergaard P A ,  Duic N ,  Noorollahi Y , et al. Sustainable development using renewable energy technology. Renewable energy, 2020, 146(2):2430-2437.

[15] Olatayo K I ,  Wichers J H ,  Stoker P W . The advanced and moderate-growth development paths for the viability and future growth of small wind energy systems. Renewable & Sustainable Energy Reviews, 2020, 117(Jan.):109496.1-109496.12. https://doi.org/10.1016/j.rser.2019.109496

[16] Santika W G ,  Anisuzzaman M ,  Simsek Y , et al. Implications of the Sustainable Development Goals on national energy demand: The case of Indonesia. Energy, 2020, 196(Apr.1):117100.1-117100.15.

[17] Ozoegwu C G ,  Akpan U O . Solar energy policy directions for safer and cleaner development in Nigeria. Energy Policy, 2021, 150(2021):1-7.

[18] Burre J ,  Bongartz D ,  Deutz S , et al. Comparing pathways for electricity-based production of dimethoxymethane as a sustainable fuel. Energy & Environmental Science, 2021, 14(7):3686-3699. https://doi.org/10.1039/D1EE00689D