RESEARCH ON DYNAMIC TORQUE OF PAPER SPIRAL BASED ON AUTOIGNITION CONVECTION AND 3D MODEL OF FLAT PLATE FLOW AT HIGH ANGLE OF ATTACK
Based on the theory of air convection formed by candle burning and 3D model of flat-plate flow at high angle of attack,the relevant theoretical analysis,experimental explora-tion and numerical simulation analysis of the design topic"Candle Powered Turbine"at the 2022 International Young Physicists'Tournament are carried out in a targeted manner.Com-bined with the model of air convection formed by candle burning,and the three-dimensional model of flat-plate flow at high angle of attack is generalized and applied,the theoretical for-mula of the torque of the paper spiral in the flow field generated by candles is obtained.The influence of the width and the axial inclination angle of the paper tape on the torque of the pa-per spiral is explored through experiments,and the optimized parameters are obtained.CFD numerical simulation analysis and experimental research are carried out on the optimized de-vice.The simulation results are in good agreement with the experimental results,which con-firms the accuracy of the torque theory proposed in this paper for the motion of paper spirals in the air flow field formed by candle combustion.The natural convection formed by fuel com-bustion is used as the power source in the rotating device,which has potential application val-ue for the utilization of surplus energy.Moreover,the establishment of the 3D model of flat-plate flow at high angle of attack provides a simple calculation method for the total pressure calculation of the flow around a three-dimensional flat plate at a low speed at a high angle of attack with Reynolds number in the range of 104~106.
flat-plate flowflow at high angle of attacktotal pressurenatural convection
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