Educational Experimental Device: Air Machine Experiment
Performance testing of fans according to JIS B8330 testing methods, including turbo fans, multi-blade fans, and axial flow fans, as well as experiments for calculating performance, pressure coefficient calculations using wing and cylindrical models, and data analysis using personal computers. 【Measurement Items】 - Input voltage of the fan drive motor - Fan rotational speed - Differential pressure measurement of intake air flow - Differential pressure measurement of discharge air flow (orifice, Pitot tube) - Discharge air pressure - Discharge air temperature - Differential pressure measurement of air velocity distribution on the discharge side - Flow friction resistance loss in the duct - Pressure distribution of the model - Flow line observation around the model using oil film method (optional) 【Calculation Items】 - Total pressure of the fan - Static pressure of the fan - Shaft power of the fan - Air power of the fan - Total pressure efficiency of the fan - Air flow of the fan - Air velocity distribution in the discharge side duct - Average air velocity in the discharge side duct - Flow friction resistance loss in the duct - Automatic data acquisition, analysis, numerical tables, graph display, and print output of experimental data using a computer.
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Performance testing of fans according to JIS B8330 testing methods, including turbo fans, multi-blade fans, and axial flow fans, as well as experiments for calculating performance, pressure coefficient calculations using wing and cylindrical models, and data analysis using personal computers. 【Measurement Items】 - Input voltage of the fan drive motor - Fan rotational speed - Differential pressure measurement of intake air flow - Differential pressure measurement of discharge air flow (orifice, Pitot tube) - Discharge air pressure - Discharge air temperature - Differential pressure measurement of air velocity distribution on the discharge side - Flow friction resistance loss in the duct - Pressure distribution of the model - Flow line observation around the model using oil film method (optional) 【Calculation Items】 - Total pressure of the fan - Static pressure of the fan - Shaft power of the fan - Air power of the fan - Total pressure efficiency of the fan - Air flow of the fan - Air velocity distribution in the discharge side duct - Average air velocity in the discharge side duct - Flow friction resistance loss in the duct - Automatic data acquisition, analysis, numerical tables, graph display, and print output of experimental data using a computer.
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Tokyo Meter has a proven track record both domestically and internationally in educational and research internal combustion engine performance comprehensive testing equipment for universities, technical colleges, and industrial high schools, as well as testing equipment focused on fluid and thermal applications for general industries, and fluid measurement instruments.