Abolfazl Vahedi
Iran University of Science and Technology (IUST), Iran
[ 1 ] - Modeling of a Rectifier Connected PMSG Applied in Wind Energy Conversion System Using State Machine Approach
Accurate modeling of the wind energy conversion system is necessary to design and implementation of the control loop for the generator and the frequency converter, in order to extract maximum power from the wind and to investigate the effects of interconnection between wind farms and power system. In this paper the combination of a permanent magnet synchronous generator loaded with a diode rect...
[ 2 ] - Modeling of a Rectifier Connected PMSG Applied in Wind Energy Conversion System Using State Machine Approach
Accurate modeling of the wind energy conversion system is necessary to design and implementation of the control loop for the generator and the frequency converter, in order to extract maximum power from the wind and to investigate the effects of interconnection between wind farms and power system. In this paper the combination of a permanent magnet synchronous generator loaded with a diode rect...
[ 3 ] - Investigation of Demagnetization Effect in an Interior V-Shaped Magnet Synchronous Motor at Dynamic and Static Conditions
Permanent magnet motors have been considered for a variety of applications due to their features such as high power density and high efficiency. One of the issues that should be investigated in the design of these motors is the demagnetization problem. Usually, the demagnetization analysis is carried out in a steady state, while demagnetization effect in dynamic condition is more considerable d...
[ 4 ] - Review in Transverse Flux Permanent Magnet Generator Design
Recently, Transverse Flux Permanent Magnet Generators (TFPMGs) have been proposed as a possible generator in direct drive variable speed wind turbines due to their unique merits. Generally, the quality of output power in these systems is lower than multi stage fixed speed systems, because of removing the gears, so it’s important to design these kinds of generators with low ripple and lowe...
[ 5 ] - Rotor Design of IPMSM Traction Motor Based on Multi- Objective Optimization using BFGS Method and Train Motion Equations
In this paper a multiobjective optimal design method of interior permanent magnet synchronous motor ( IPMSM) for traction applications so as to maximize average torque and to minimize torque ripple has been presented. Based on train motion equations and physical properties of train, desired specifications such as steady state speed, rated output power, acceleration time and rated speed of tract...
[ 6 ] - Nonlinear Model of Tape Wound Core Transformers
Recently, tape wound cores due to their excellent magnetic properties, are widely used in different types of transformers. Performance prediction of these transformers needs an accurate model with ability to determine flux distribution within the core and magnetic loss. Spiral structure of tape wound cores affects the flux distribution and always cause complication of analysis. In this paper, a...
[ 7 ] - Electromagnetic Analysis of Hysteresis Synchronous Motor Based on Complex Permeability Concept
Hysteresis motor is self-starting synchronous motor that uses the hysteresis characteristics of magnetic materials to make torque. There are different methods to model this kind of motor and take into account the magnetic hysteresis characteristic of the rotor hysteresis ring. In this investigation the application of complex permeability concept is implemented to model the hysteresis loop and t...
[ 8 ] - Inner Permanent Magnet Synchronous Machine Optimization for HEV Traction Drive Application in Order to Achieve Maximum Torque per Ampere
Recently, Inner permanent magnet (IPM) synchronous machines have been introduced as a possible traction motor in hybrid electric vehicle (HEV) and traction applications due to their unique merits. In order to achieve maximum torque per ampere (MTPA), optimization of the motor geometry parameters is necessary. This paper Presents a design method to achieve minimum volume, MTPA and minimum ...
[ 9 ] - مدلسازی ترانسفورمرهای پالسی با هستههای نانو بلوری
امروزه هستههای نواری مدور نانو بلوری بهواسطه ویژگیهای مغناطیسی مطلوبی که دارند به طور گستردهای در ترانسفورمرهای پالسی و فرکانس بالا مورد استفاده قرار میگیرند. ساختار حلزونی این هستهها بر روی نحوه توزیع شار درون آن تأثیر گذاشته و باعث پیچیدگی زیاد تحلیل مغناطیسی این هستهها شده است. در این مقاله با استفاده از روش شبکههای رلوکتانسی یک مدل برای این هستهها ارائه شده است. این مدل قادر به تع...
[ 10 ] - مدلسازی ترانسفورمرهای پالسی با هستههای نانو بلوری
امروزه هستههای نواری مدور نانو بلوری بهواسطه ویژگیهای مغناطیسی مطلوبی که دارند به طور گستردهای در ترانسفورمرهای پالسی و فرکانس بالا مورد استفاده قرار میگیرند. ساختار حلزونی این هستهها بر روی نحوه توزیع شار درون آن تأثیر گذاشته و باعث پیچیدگی زیاد تحلیل مغناطیسی این هستهها شده است. در این مقاله با استفاده از روش شبکههای رلوکتانسی یک مدل برای این هستهها ارائه شده است. این مدل قادر به تع...
[ 11 ] - Optimal Shaping of Non-Conventional Permanent Magnet Geometries for Synchronous Motors via Surrogate Modeling and Multi-Objective Optimization Approach
A methodology is proposed for optimal shaping of permanent magnets with non-conventional and complex geometries, used in synchronous motors. The algorithm includes artificial neural network-based surrogate model and multi-objective search based optimization method that will lead to Pareto front solutions. An interior permanent magnet topology with crescent-shaped magnets is also introduced as t...
نویسندگان همکار