Asenkron motorlar endüstride en çok kullanılan motor olması nedeniyle, farklı uygulamalarda motorun yol alma süresi büyük önem kazanmaktadır. Özellikle ağır yüklerin yol alması sırasında çekilen büyük akımlar motorda çeşitli sorunlara neden olmaktadır. Asenkron motorda yol alma süresinin ve çekilen akımın sınırlandırılması için farklı yöntemler kullanılmaktadır. Bu çalışmada asenkron motorun rotor oluk yüksekliğinin, hava aralığı boyunun ve farklı rotor oluk geometrilerinin motorun yol alma süresine etkileri araştırılmıştır. RMxprt programı ile motor tasarımı yapılmış, daha sonrasında Rmxprt programından elde edilen parametreler kullanılarak MATLABSimulink modeli oluşturulmuş ve motorların yol alma süreleri elde edilmiştir. Ayrıca her bir motor modeli için devir sayısındaki salınımlar incelenmiştir. Modellemelerde 13 kW, 400 V, 3 fazlı sincap kafesli asenkron motor kullanılmıştır.
Since Asenkron engines are the most commonly used engines in the industry, the duration of the engine is very important in different applications. Large flows, especially during heavy loads, cause various problems in the engine. Asenkron engine uses different methods to limit the duration of driving and the drawn stream. This study has studied the effects of the rotor wheat height of the asynchronous engine, the length of the air range and the different rotor wheat geometries on the motor's duration. The engine design was made with the RMxprt program, the MATLABSimulink model was created using the parameters obtained from the Rmxprt program and the engine’s duration was obtained. Also, the emissions in the turn number for each engine model have been studied. In the modeling, 13 kW, 400 V, 3 phase sincap coated asynchronous engine was used.
Since induction motors are the most used motors in the industry, the starting time of the motor is of great importance for different applications. Especially large currents drawn during the movement of heavy loads cause various problems in the motor. Different methods are used to limit the starting time and the current drawn in the induction motor. In this study, the effects of rotor slot height, air gap length, and different rotor slot geometries on induction motor's starting time were investigated. Motor design was made with the RMxprt program, and MATLAB Simulink model was created using obtained parameters from Rmxprt, and then the starting times of the motors were obtained. In addition, the oscillations in the number of speeds were examined for each motor model. 13 kW, 400 V, 3 phase squirrel cage induction motor was used in the models.
Field : Fen Bilimleri ve Matematik; Mühendislik
Journal Type : Ulusal
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