摘要
The apparatus of scan measurement was used to gather the temperature pattern at the combustor outlet,where the average working temperature of gas was about 1700Kand the maximum temperature was about 1 950K.Consequently,the measurement part was cooled by water or air.Usually,for intermittent measurement devices,the interval of circle angel could be changed to get a high-density temperature distribution.A continuous measurement manner was adopted to get point in circle.The angle between two measurepoints was 1.286°.The annular combustor outlet was about 40to 50mm in height,where 5or 6measure points were usually arranged.In this device,10measure points were arranged in a range of 45.5mm.Four thermocouples were arranged in circle to obtain 2 800measure-points of the temperature field in a single experiment.Data were drawn from the whole datasheet at intervals.Each group of data whose number decreased in turn,included temperature points of 2 800,1 400,700,and 350,respectively.Several groups of temperature distributions with different densities were established.Subsequently,data processing was conducted to calculate the main combustor characteristics,including arithmetic or integral average temperature,OTDF(overall temperature distribution factor)and RTDF(radial temperature distribution factor).It is found that the data from different groups with different measuring densities result in significant difference on the combustor characteristics.The veracity of temperature characteristics increases with the growing measure-density.
The apparatus of scan measurement was used to gather the temperature pattern at the combustor outlet,where the average working temperature of gas was about 1700Kand the maximum temperature was about 1 950K.Consequently,the measurement part was cooled by water or air.Usually,for intermittent measurement devices,the interval of circle angel could be changed to get a high-density temperature distribution.A continuous measurement manner was adopted to get point in circle.The angle between two measurepoints was 1.286°.The annular combustor outlet was about 40to 50mm in height,where 5or 6measure points were usually arranged.In this device,10measure points were arranged in a range of 45.5mm.Four thermocouples were arranged in circle to obtain 2 800measure-points of the temperature field in a single experiment.Data were drawn from the whole datasheet at intervals.Each group of data whose number decreased in turn,included temperature points of 2 800,1 400,700,and 350,respectively.Several groups of temperature distributions with different densities were established.Subsequently,data processing was conducted to calculate the main combustor characteristics,including arithmetic or integral average temperature,OTDF(overall temperature distribution factor)and RTDF(radial temperature distribution factor).It is found that the data from different groups with different measuring densities result in significant difference on the combustor characteristics.The veracity of temperature characteristics increases with the growing measure-density.
出处
《航空动力学报》
EI
CAS
CSCD
北大核心
2014年第5期1014-1019,共6页
Journal of Aerospace Power
关键词
燃烧室
温度场
采样密度
测量
实验装置
combustor
temperature field
sampling density
measurement
experimental setup
