Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test

Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test

In order to research the law of rime ice accretion on different scaling blades surface, a new rime ice scaling method was proposed in this research. According to previous research, there are three kinds of ice types on blade surfaces: rime ice, glaze ice and mixed ice. Under the condition of rime ic...

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Bibliographic Details
Main Authors: Yan Li, Ce Sun, Yu Jiang, Fang Feng
Format: Article
Language:English
Published: MDPI AG 2019-02-01
Series:Energies
Subjects:
Icing
wind turbine
scaling method
rotating blade
wind tunnel test
Online Access:https://www.mdpi.com/1996-1073/12/4/627
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spelling doaj-2e10d89c3cc547e4b31405b9776ec33a2020-11-25T01:29:15ZengMDPI AGEnergies1996-10732019-02-0112462710.3390/en12040627en12040627Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel TestYan Li0Ce Sun1Yu Jiang2Fang Feng3Engineering College, Northeast Agricultural University, Harbin 150030, ChinaEngineering College, Northeast Agricultural University, Harbin 150030, ChinaEngineering College, Northeast Agricultural University, Harbin 150030, ChinaHeilongjiang Provincial Key Laboratory of Technology and Equipment for Utilization of Agricultural Renewable Resources in Cold Region, Northeast Agricultural University, Harbin 150030, ChinaIn order to research the law of rime ice accretion on different scaling blades surface, a new rime ice scaling method was proposed in this research. According to previous research, there are three kinds of ice types on blade surfaces: rime ice, glaze ice and mixed ice. Under the condition of rime ice, both the freezing fraction and the coefficient of heat transfer between super-cold water droplets and blade are 100%. The heat transfer model of rime ice is simpler than that of glaze ice and mixed ice. In this research, the scaling parameters including flow field, water droplets, temperature, pressure and rotating parameters were defined. The Weber number (<i>We</i>) based on water film thickness as an important parameter was applied in this study. The rotating parameters including rotating speed and radius had been added into the icing scaling method. To verify the effectiveness of the new rime ice scaling method, icing wind tunnel tests were carried out. The NACA0018 airfoil was used for the test blade. Two kinds of scale chord blades were selected, the chord of full-scale blade was 200 mm and of subscale blade was 100 mm. The test temperature was &#8722;15 &#176;C. The ice accretion on different scale blades surface were captured by high-speed camera and the icing shapes of different scaling blades were obtained. To quantitatively analyze the similar degree of icing shapes on different scale blades, an evaluation method which included similar degree (<i>Sim</i>) was established based on the typical characteristic parameters proposed by previous research. The results show that the icing shapes of subscale blades are similar to that of full-scale blades. The similar degree is between 75.22% and 93.01%. The icing wind tunnel test indicates that the new rime ice scaling method is an effective method to study the rime ice of large scale rotating blades. This study can be used as a reference for research on anti-icing and de-icing technologies for large-scale HAWTs (Horizontal Axis Wind Turbines).https://www.mdpi.com/1996-1073/12/4/627Icingwind turbinescaling methodrotating bladewind tunnel test
collection DOAJ
language English
format Article
sources DOAJ
author Yan Li
Ce Sun
Yu Jiang
Fang Feng
spellingShingle Yan Li
Ce Sun
Yu Jiang
Fang Feng
Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test
Energies
Icing
wind turbine
scaling method
rotating blade
wind tunnel test
author_facet Yan Li
Ce Sun
Yu Jiang
Fang Feng
author_sort Yan Li
title Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test
title_short Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test
title_full Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test
title_fullStr Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test
title_full_unstemmed Scaling Method of the Rotating Blade of a Wind Turbine for a Rime Ice Wind Tunnel Test
title_sort scaling method of the rotating blade of a wind turbine for a rime ice wind tunnel test
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2019-02-01
description In order to research the law of rime ice accretion on different scaling blades surface, a new rime ice scaling method was proposed in this research. According to previous research, there are three kinds of ice types on blade surfaces: rime ice, glaze ice and mixed ice. Under the condition of rime ice, both the freezing fraction and the coefficient of heat transfer between super-cold water droplets and blade are 100%. The heat transfer model of rime ice is simpler than that of glaze ice and mixed ice. In this research, the scaling parameters including flow field, water droplets, temperature, pressure and rotating parameters were defined. The Weber number (<i>We</i>) based on water film thickness as an important parameter was applied in this study. The rotating parameters including rotating speed and radius had been added into the icing scaling method. To verify the effectiveness of the new rime ice scaling method, icing wind tunnel tests were carried out. The NACA0018 airfoil was used for the test blade. Two kinds of scale chord blades were selected, the chord of full-scale blade was 200 mm and of subscale blade was 100 mm. The test temperature was &#8722;15 &#176;C. The ice accretion on different scale blades surface were captured by high-speed camera and the icing shapes of different scaling blades were obtained. To quantitatively analyze the similar degree of icing shapes on different scale blades, an evaluation method which included similar degree (<i>Sim</i>) was established based on the typical characteristic parameters proposed by previous research. The results show that the icing shapes of subscale blades are similar to that of full-scale blades. The similar degree is between 75.22% and 93.01%. The icing wind tunnel test indicates that the new rime ice scaling method is an effective method to study the rime ice of large scale rotating blades. This study can be used as a reference for research on anti-icing and de-icing technologies for large-scale HAWTs (Horizontal Axis Wind Turbines).
topic Icing
wind turbine
scaling method
rotating blade
wind tunnel test
url https://www.mdpi.com/1996-1073/12/4/627
work_keys_str_mv AT yanli scalingmethodoftherotatingbladeofawindturbineforarimeicewindtunneltest
AT cesun scalingmethodoftherotatingbladeofawindturbineforarimeicewindtunneltest
AT yujiang scalingmethodoftherotatingbladeofawindturbineforarimeicewindtunneltest
AT fangfeng scalingmethodoftherotatingbladeofawindturbineforarimeicewindtunneltest
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