Experience

JST transformateurs

• France
• Appliances, Electrical, and Electronics Manufacturing
• 100 - 200 Employee

• Core Type Transformer Expert

  • May 2018 - Present



Schneider Electric

• France
• Automation Machinery Manufacturing
• 700 & Above Employee

• MPT Electrical Design Manager

  • Nov 2015 - May 2018

  Electrical Design Manager for medium power transformer at Schneider Electric. Electrical Design Manager for medium power transformer at Schneider Electric.



BEST Transformer

• Türkiye
• Electrical Equipment Manufacturing
• 400 - 500 Employee

• Senior Electrical Design Engineer

  • Feb 2012 - Nov 2015

  Design engineer, BEST Transformers (Power transformer design 40MVA to 660MVA, voltage up to 550kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method (Infolytica) Short-circuit… Show more Design engineer, BEST Transformers (Power transformer design 40MVA to 660MVA, voltage up to 550kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method (Infolytica) Short-circuit analysis using special program (Roth/Fem method) Short-circuit current calculation (three phase, double phase and single phase) Lightning impulse distribution along winding (using capacitance, inductance matrix) Short circuit impedance analysis for special winding arrangement Show less Design engineer, BEST Transformers (Power transformer design 40MVA to 660MVA, voltage up to 550kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method (Infolytica) Short-circuit… Show more Design engineer, BEST Transformers (Power transformer design 40MVA to 660MVA, voltage up to 550kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method (Infolytica) Short-circuit analysis using special program (Roth/Fem method) Short-circuit current calculation (three phase, double phase and single phase) Lightning impulse distribution along winding (using capacitance, inductance matrix) Short circuit impedance analysis for special winding arrangement Show less



Alstom

• France
• Rail Transportation
• 700 & Above Employee

• Electrical design engineer

  • 2007 - 2012

  Design engineer, ALSTOM GRID (AREVA TD) (Power transformer design 20MVA to 400MVA, voltage up to 400kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method… Show more Design engineer, ALSTOM GRID (AREVA TD) (Power transformer design 20MVA to 400MVA, voltage up to 400kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method (Infolytica) Short-circuit analysis using special program (Roth/Fem method) Short-circuit current calculation (three phase, double phase and single phase) Lightning impulse distribution along winding (using capacitance, inductance matrix) Short circuit impedance analysis for special winding arrangement Show less Design engineer, ALSTOM GRID (AREVA TD) (Power transformer design 20MVA to 400MVA, voltage up to 400kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method… Show more Design engineer, ALSTOM GRID (AREVA TD) (Power transformer design 20MVA to 400MVA, voltage up to 400kV). I design and choose electrical part of power transformer (core, windings, bushings, OLTC, accessories..). Furthermore I design power transformer in tender stage (cost sheet, technical specification, technical support). R&D studies: Dielectric analysis using finite element method (Slim) Magnetic and thermal analysis using finite element method (Infolytica) Short-circuit analysis using special program (Roth/Fem method) Short-circuit current calculation (three phase, double phase and single phase) Lightning impulse distribution along winding (using capacitance, inductance matrix) Short circuit impedance analysis for special winding arrangement Show less



Hazemeyer

• Appliances, Electrical, and Electronics Manufacturing
• 1 - 100 Employee

• Project Manager

  • 2005 - 2007

  Design engineer, HAZEMEYER (Medium and high voltage electrical equipments, power converters). The aim of my job was to manage a project. Establish the offer price, choice of technology and topology, realize the development, follow-up of assembly, check the agreement with the specification and realize acceptance test with customer (systems realized: AC to DC power converters, power supply for TWTs electron tubes, power supply for laser diode). Design engineer, HAZEMEYER (Medium and high voltage electrical equipments, power converters). The aim of my job was to manage a project. Establish the offer price, choice of technology and topology, realize the development, follow-up of assembly, check the agreement with the specification and realize acceptance test with customer (systems realized: AC to DC power converters, power supply for TWTs electron tubes, power supply for laser diode).