中国电机工程学报
中國電機工程學報
중국전궤공정학보
Proceedings of the CSEE
2015年
19期
4997-5002,后插12
,共7页
胡琴%杨秀余%梅冰笑%舒立春%蒋兴良%杨爽%梁健
鬍琴%楊秀餘%梅冰笑%舒立春%蔣興良%楊爽%樑健
호금%양수여%매빙소%서립춘%장흥량%양상%량건
风力发电机叶片%防冰%融冰%临界功率密度%影响因素
風力髮電機葉片%防冰%融冰%臨界功率密度%影響因素
풍력발전궤협편%방빙%융빙%림계공솔밀도%영향인소
wind turbine blade%anti-icing%de-icing%threshold power density%influencing factors
根据风力发电机叶片防冰和融冰的物理过程,分析其加热融冰的基本条件,通过对防冰与融冰的热平衡过程分析,建立防冰和融冰在临界情况下热力学的物理数学模型,提出临界功率密度概念,并在人工气候实验室对模型进行试验验证,试验结果和计算结果吻合较好.研究结果表明:在进行电加热防冰和融冰时,其加热功率密度必须大于临界功率密度;临界防冰功率密度是环境温度和风速的函数,临界融冰功率密度是环境温度、风速、冰层厚度和单位时间覆冰量的函数;临界防冰功率密度随着风速增加而变大,随着外界温度的增加而变小;临界融冰功率密度随着风速和覆冰量的增加而变大,随着冰层厚度和外界温度的增加而变小.
根據風力髮電機葉片防冰和融冰的物理過程,分析其加熱融冰的基本條件,通過對防冰與融冰的熱平衡過程分析,建立防冰和融冰在臨界情況下熱力學的物理數學模型,提齣臨界功率密度概唸,併在人工氣候實驗室對模型進行試驗驗證,試驗結果和計算結果吻閤較好.研究結果錶明:在進行電加熱防冰和融冰時,其加熱功率密度必鬚大于臨界功率密度;臨界防冰功率密度是環境溫度和風速的函數,臨界融冰功率密度是環境溫度、風速、冰層厚度和單位時間覆冰量的函數;臨界防冰功率密度隨著風速增加而變大,隨著外界溫度的增加而變小;臨界融冰功率密度隨著風速和覆冰量的增加而變大,隨著冰層厚度和外界溫度的增加而變小.
근거풍력발전궤협편방빙화융빙적물리과정,분석기가열융빙적기본조건,통과대방빙여융빙적열평형과정분석,건립방빙화융빙재림계정황하열역학적물리수학모형,제출림계공솔밀도개념,병재인공기후실험실대모형진행시험험증,시험결과화계산결과문합교호.연구결과표명:재진행전가열방빙화융빙시,기가열공솔밀도필수대우림계공솔밀도;림계방빙공솔밀도시배경온도화풍속적함수,림계융빙공솔밀도시배경온도、풍속、빙층후도화단위시간복빙량적함수;림계방빙공솔밀도수착풍속증가이변대,수착외계온도적증가이변소;림계융빙공솔밀도수착풍속화복빙량적증가이변대,수착빙층후도화외계온도적증가이변소.
According to the anti-icing and de-icing process for ice-covered wind turbine blade with heating method, in the paper, the basic conditions of anti-icing and de-icing by heating were analyzed. Then based on heat balance analysis of the anti-icing and de-icing process, a physical and mathematical model indicating the anti-icing and de-icing power density was established, threshold power density was put forward, the model and methods were tested by the experiment in an artificial climate chamber, and the results were basically consistent with each other. The results show that the de-icing power density should be greater than the threshold power density, and should be selected according to ice-layer thickness, environmental temperature and wind speed. The threshold anti-icing power density increases as temperature increases or wind speed decreases, the threshold de-icing power density increases as wind speed and ice cover amount decrease ,or ice thickness and environmental temperature increase.