机械工程学报
機械工程學報
궤계공정학보
Journal of Mechanical Engineering
2015年
16期
164-170
,共7页
王超%王刚%丁红兵
王超%王剛%丁紅兵
왕초%왕강%정홍병
音速喷嘴%热效应%热边界层%流出系数
音速噴嘴%熱效應%熱邊界層%流齣繫數
음속분취%열효응%열변계층%류출계수
sonic nozzle%thermal effects%thermal boundary layer%discharge coefficient
随着气体在音速喷嘴中膨胀降温,低温气体与管壁的热交换会产生一系列复杂的影响,称之为“热效应”。用于微小流量测量的小喉径音速喷嘴由于喉部直径很小且精度要求高,热效应的影响更为严重。利用热边界层理论分析不同入口压力、不同位置、不同喉径和不同保冷条件下的管壁温度变化规律,根据试验结果,从理论上分析管壁动态温度分布与热边界层的相互作用关系,利用 CFD 软件仿真,分析管壁温度变化引起的边界层厚度变化对音速喷嘴流动特性的影响规律,并通过数据拟合得到了雷诺数和管壁温降对流出系数偏差的影响的计算公式。结果表明,以仿真数据为例,当管壁温降15 K时,由热边界层变薄引起流出系数增大可达0.195%,其影响不容忽视。
隨著氣體在音速噴嘴中膨脹降溫,低溫氣體與管壁的熱交換會產生一繫列複雜的影響,稱之為“熱效應”。用于微小流量測量的小喉徑音速噴嘴由于喉部直徑很小且精度要求高,熱效應的影響更為嚴重。利用熱邊界層理論分析不同入口壓力、不同位置、不同喉徑和不同保冷條件下的管壁溫度變化規律,根據試驗結果,從理論上分析管壁動態溫度分佈與熱邊界層的相互作用關繫,利用 CFD 軟件倣真,分析管壁溫度變化引起的邊界層厚度變化對音速噴嘴流動特性的影響規律,併通過數據擬閤得到瞭雷諾數和管壁溫降對流齣繫數偏差的影響的計算公式。結果錶明,以倣真數據為例,噹管壁溫降15 K時,由熱邊界層變薄引起流齣繫數增大可達0.195%,其影響不容忽視。
수착기체재음속분취중팽창강온,저온기체여관벽적열교환회산생일계렬복잡적영향,칭지위“열효응”。용우미소류량측량적소후경음속분취유우후부직경흔소차정도요구고,열효응적영향경위엄중。이용열변계층이론분석불동입구압력、불동위치、불동후경화불동보랭조건하적관벽온도변화규률,근거시험결과,종이론상분석관벽동태온도분포여열변계층적상호작용관계,이용 CFD 연건방진,분석관벽온도변화인기적변계층후도변화대음속분취류동특성적영향규률,병통과수거의합득도료뢰낙수화관벽온강대류출계수편차적영향적계산공식。결과표명,이방진수거위례,당관벽온강15 K시,유열변계층변박인기류출계수증대가체0.195%,기영향불용홀시。
The gas temperature will drop greatly when flowing through the nozzle. The heat exchange between the cold gas and the wall will produce a series of complex effects which are called “thermal effect”. The small-diameter nozzles used in the field of small flow measurement will be influenced by the thermal effect seriously. The laws of temperature variation of sonic nozzles are analyzed by the thermal boundary layer theory with different inlet pressure, locations and throat diameters. According to the experimental data, the dynamic interaction between the wall temperature distribution and the thermal boundary layer thickness is analyzed theoretically. The changes of boundary layer thickness are studied in detail by the CFD method and a formula of discharge coefficient deviation is fitted. It is indicated that the discharge coefficient increases by 0.195% with the wall temperature decreasing by 15 K caused by the thinning of the boundary layer which is necessary to pay more attention.