A Numerical Study on an Optimum Design of a Cross-flow Type Power Turbine (CPT)

횡류형 파워터빈의 최적화 설계에 관한 수치해석 연구

  • 하진호 (서울산업대학교, 에너지환경대학원) ;
  • 김현철 (서울산업대학교 산업대학원 자동차공학과) ;
  • 김철호 (서울산업대학교 자동차공학과)
  • Published : 2007.05.30

Abstract

A wind turbine is one of the most popular energy conversion systems to generate electricity from the natural renewable energy source and an axial-flow type wind turbine is the most popular system for the electricity generation in the wind farm nowadays. In this study, a cross-flow type turbine has been studied for the application of wind turbine for electricity generation. The target capacity of electric power generation of the model wind turbine developing on the project is 12 volts, 130A/H (about 1.56kW). The important design parameters of the model turbine impeller are the inlet and exit angle of the turbine blade, number of blade, hub/tip ratio and the exit flow angle of the casing. In this study, the radial equilibrium theorem was used to decide the inlet and exit angle of the impller blade and CFD technique was used to have the performance analysis of the designed model power turbine to find out the optimum geometry of the CPT impeller and casing. The designed CPT with 24 impeller blades at ${\alpha}=82^{\circ}$, ${\beta}=40^{\circ}$ of turbine blade angle was estimated to generate 284.6 N.m of indicated torque and 2.14kW of indicated power.

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