Optimization of Turbine Flow Sensor Structure based on the Velocity Distribution Inlet

“…To elevate a sensor efficacy, modifications in the rotor architecture, contour, and dimensions are pivotal. Specific studies [9]- [13] have focused on rotor optimization, pinpointing essential geometric facets of the rotor, such as blade count, blade tip radius, rotor hub radius, helical blade lead, blade thickness, blade bevel edge angle, and rotor hub length, as critical contributors to flow meter performance. Comparative evaluations between CFD simulations and empirical results, as cited in [14], [15], suggest a close correlation, endorsing the feasibility of predicting turbine flow meter efficiency via simulations.…”

Numerical Modelling of a Turbine Flow Meter Used as Part of the Hydrogen Compressor System

“…To elevate a sensor efficacy, modifications in the rotor architecture, contour, and dimensions are pivotal. Specific studies [9]- [13] have focused on rotor optimization, pinpointing essential geometric facets of the rotor, such as blade count, blade tip radius, rotor hub radius, helical blade lead, blade thickness, blade bevel edge angle, and rotor hub length, as critical contributors to flow meter performance. Comparative evaluations between CFD simulations and empirical results, as cited in [14], [15], suggest a close correlation, endorsing the feasibility of predicting turbine flow meter efficiency via simulations.…”

Numerical Modelling of a Turbine Flow Meter Used as Part of the Hydrogen Compressor System

System for Computer Simulation and Optimization of Vortex Flows