EQUIPMENT AND MATERIALS | |
Название | Optimal adjustment of mine fan geometry and operation |
DOI | 10.17580/gzh.2022.03.06 |
Автор | Zamolodchikov G. I., Furashov A. S., Tumashev R. Z. |
Информация об авторе | Zhukovsky Central Aerohydrodynamic Institute, Zhukovsky, Russia: G. I. Zamolodchikov, Junior Researcher, Candidate of Engineering Sciences, gleb.zamolodchikov@gmail.com
Bauman Moscow State Technical University, Moscow, Russia |
Реферат | Mine fans consume significant electrical power, so it is important to ensure high efficiency of their operation. The aim of this study is to develop a method to determine the most economically efficient method to adjust axial fan geometry and operation at the maximum average efficiency in all operating modes. The method includes a developed mathematical model of the single-stage axial fan duty and a genetic algorithm for optimizing the fan parameters. The initial data for the mathematical model were the geometry of the fan blades of the average radius and the parameters of the fan operating mode. The result of the calculation was the fan efficiency in a preset operating mode. Two adjustment scenarios are modeled: fans with variable pitch blades and fans with variable rotation speed. The fan efficiency was determined by calculating the total pressure loss at the unit stage at the middle radius with regard to the loss at the blade tips. Since the mathematical model contains a large number of independent parameters, and there exists the possibility of local extrema, the optimization is performed using the genetic algorithm. The mathematical model of the fan with variable pitch blades was tested using experimental data. The error of the mathematical model in continuous modes at high efficiency (>75%) never exceeds 1.5%. As a case-study, the optimal fan parameters are determined for two preset operating modes and for two adjustment scenarios of fans with variable pitch blades and with variable rotation speed. On the basis of the obtained geometric parameters at the average radius of blades, using the constant circulation law, the fan designs were developed and then investigated by numerical simulation in CFX program. It is shown that if the air flow rate in operating modes differs significantly and the pressure is not, it is advisable to use fans with variable pitch blades. |
Ключевые слова | Axial fan, variable pitch blade, mine ventilation, fan adjustment, fan efficiency. |
Библиографический список | 1. Sirový M., Peroutka Z., Byrtus M., Michalik J. Medium-Voltage Drive Fan Save: Energy Efficient Fan Systems in Power Engineering Part 2: Variable Pitch Flow Control versus Variable Speed Flow Control. Proceedings IECON 2013—The 39th Annual Conference of the IEEE Industrial Electronics Society. Vienna, 2013. pp. 2093–2098. 17. Il-Hak Song, Jong-Ho Lhee, Jae-Weon Jeong. Energy efficiency and economic analysis of variable frequency drive and variable pitch system: A case study of axial fan in hospital. Journal of Building Engineering. 2021. Vol. 43. 103213. DOI: 10.1016/j.jobe.2021.103213 |
Language of full-text | русский |
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