D.G. Mukhin scite author profile

The review reflects physical solutions for de-icing, one of the main problems that impedes the efficient use of wind turbines for autonomous energy resources in cold regions. This topic is currently very relevant for ensuring the dynamic development of wind energy in the Arctic. The review discusses an effective anti-icing strategy for wind turbine blades, including various passive and active physical de-icing techniques using superhydrophobic coatings, thermal heaters, ultrasonic and vibration devices, operating control to determine the optimal methods and their combinations. After a brief description of the active methods, the energy consumption required for their realization is estimated. Passive methods do not involve extra costs, so the review focuses on the most promising solutions with superhydrophobic coatings. Among them, special attention is paid to plastic coatings with a lithographic method of applying micro and nanostructures. This review is of interest to researchers who develop new effective solutions for protection against icing, in particular, when choosing systems for protecting wind turbines.

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Analysis of COP thermodynamic cycle LBAC with two-level absorption when obtaining negative temperatures of cooling

Stepanov¹,

Mukhin²,

Волкова³

et al. 2016

Journal IAR

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Абсорбционные бромистолитиевые холодильные машины (АБХМ) предназначены для охлаждения воды и других жидкостей до температуры не ниже 3÷5 о С. Это связано с тем, что при дальнейшем охлаждении возникает вероятность замерзания хладагента, которым является вода, а также с тем, что снижается эффективность использования АБХМ. Тем не менее, задача получения холода более низких температур в АБХМ при использовании ВЭР является весьма привлекательной. В данной работе предложена конструктивная схема для АБХМ, генерирующих холод в отрицательном диапазоне температур. Разработана методика оценки энергетической эффективности цикла АБХМ с двухступенчатой абсорбцией. Показано, что значение теплового коэффициента АБХМ с двухступенчатой абсорбцией и одноступенчатой регенерацией раствора составляет от 0,360 до 0,393 в зависимости от температур греющего источника и охлаждаемой жидкости. Ключевые слова: абсорбционная бромистолитиевая холодильная машина (АБХМ), бромид лития, двухступенчатая абсорбция, тепловой коэффициент.

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Efficiency of a Lithium Bromide Absorption Thermotransformer with Two-Stage Absorption in the Structure of Gasified Power Plants

Stepanov

Mukhin

2021

Therm. Eng.

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Desorption of Aqueous Solution of Lithium Bromide on Enhanced Surfaces in a Single-Stage Lithium-Bromide Absorption Chiller

Stepanov

Mukhin

Зубков

2019

J. Engin. Thermophys.

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Investigation of the Flow Aerodynamics Behind a Model of a Blade Subjected to Icing in a Climate Chamber

Kakaulin

Gordienko

Kabardin

et al. 2022

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D.G. Mukhin

Physical De-Icing Techniques for Wind Turbine Blades

Analysis of COP thermodynamic cycle LBAC with two-level absorption when obtaining negative temperatures of cooling

Efficiency of a Lithium Bromide Absorption Thermotransformer with Two-Stage Absorption in the Structure of Gasified Power Plants

Desorption of Aqueous Solution of Lithium Bromide on Enhanced Surfaces in a Single-Stage Lithium-Bromide Absorption Chiller

Investigation of the Flow Aerodynamics Behind a Model of a Blade Subjected to Icing in a Climate Chamber

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