0% Complete
صفحه اصلی
/
The 4th International Conference on Electrical Machines and Drives
A Numerical Method for Prediction of Standard Partial Discharge Test Performance of An Open-Ventilated Dry-Type Transformer at Design Stage
نویسندگان :
Mohammad Qumi
1
Mahdi Kazemiun
2
Mehdi Vakilian
3
1- Sharif University of Technology
2- Sharif University of Technology
3- Sharif University of Technology
کلمات کلیدی :
Partial Discharge،Dry-Type Transformer،Monte Carlo Method،Monte Carlo Method،Numerical Method
چکیده :
Partial discharge in an (open ventilated dry type) OVDT sub-transmission transformer with 30 MVA 63kV/20kV rating has been studied in this work. Nomex has been used in this transformer in the form of insulation paper. The goal of this paper is to present a method to predict the result of the standard partial discharge test on a dry-type transformer based on its design parameters. The importance of such a method is in the prevention of manufacturing a power transformer that might be rejected due to its lack of endurance in the partial discharge test which can lead to cost thrift. In this method, important areas in transformer winding insulation design are identified and in turn, effective factors on electric field magnitude in these areas are determined. Then, using a Monte Carlo-based method, a numeric algorithm for calculating the electric field magnitude in these areas is developed. Finally, based on the electric field magnitude distribution in these important areas it will be determined whether the transformer insulation would pass the requirements of the IEC standard partial discharge test or not. A comparison of the results obtained using the algorithm against the finite element simulation results showed an error of less than 1%.
لیست مقالات
لیست مقالات بایگانی شده
Improving the performance of Permanent-Magnet Assisted Synchronous Reluctance Motor used in electric vehicles
Seyed Davood Hoseini robat - ُُSeyed Ebrahimُُُُ Afjei
A Switched Capacitor Multilevel Inverter With Optimized Capacitance by Using Hybrid-PWM
Mohammad Javad Abbasi - Mohammad Saleh Jahanshahi - Karim Abbaszadeh
Novel Semi-overlapping Winding Layouts in Double Stator Axial Flux PMSM Suitable for EV Application
Amir Mohammad Kamalkhani - Farzad Tahami - Gahasem Rezazadeh
Analytical Modeling of Synchronous Reluctance Machines with Finite Rotor Ferromagnetic Permeability
Mehdi Aliahmadi - Jafar Milimonfared - Javad Shokrollahi Moghani
A New Method for Torque Optimization of a BLDC Motor Based on Commutation Ripple
Reza Farajidavar - Ali Ghaffarpour - Mojtaba Mirsalim
Torque Ripple reduction of BLDC Motor Drive using Finite-Control-Set Model Predictive Control Strategy
Zahra Emami - Abolfazl Halvaee
Power Quality Aspects of Double-Stator Permanent Magnet Synchronous Generators in Wind Farms
Hesam addin Yousefian - Saied Jalilzadeh
Electromagnetic Design of an Axial-Flux Dual- Stator Switched Reluctance Motor for High-Torque Variable-Speed Applications
Moslem Geravandi - Hassan Moradi - Mohammad Sedigh Toulabi
Consequent-pole Flux Reversal Permanent Magnet Machines versus Vernier and Flux Switching Variants: A Comparative Study
Behzad Aslani - Ehsan Abdollahi - Hani Wasfi Fadhil AL-Ward
Analyzing DC Bus Voltage Fluctuations Under Abnormal Load Conditions in Electric Vehicles
Mohammad Hossein Mousavi - Hassan Moradi - Amin Mahmoudi
بیشتر
ثمین همایش، سامانه مدیریت کنفرانس ها و جشنواره ها - نگارش 43.6.0