DOIONLINE 
DOIONLINE Publish In |
International Journal of Industrial Electronics and Electrical Engineering (IJIEEE)-IJIEEE |
 Journal Home Volume Issue |
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Issue |
Volume-8,Issue-2 ( Feb, 2020 ) | |||||||||
Paper Title |
Performance Evaluation of Hamiltonian Energy Control of Multiphase Interleaved Boost Converter for Fuel Cell Applications | |||||||||
Author Name |
Pongsiri Mungporn, Phatiphat Thounthong, Babak Nahid-Mobarakeh, Nicu Bizon, Poom Kumam | |||||||||
Affilition |
Renewable Energy Research Centre (RERC) Dept. Teacher Training in Electrical Engineering, Faculty of Technical Education Thai-French Innovation Institute 1518, Pracharat 1 Rd., Bangsue, Bangkok 10800, Thailand Serge Pierfederici, Damien Guilbert, GREEN Lab., LEMTA Lab., UniversitĂ© de Lorraine Avenue de la ForĂȘt de Haye, 54504 Vandoeuvre les Nancy, France Faculty of Electronics, Communication, and Computers, University of Pitesti, Pitesti 110040, Romania Center of Excellence in Theoretic | |||||||||
Pages |
37-42 | |||||||||
Abstract |
This paper studys a multi-phase boost fuel cell (FC) converter for dc microgrid applications. An original control law based on the Hamiltonian energy control principle for dc microgrid is considered. Using the port-controlled Hamiltonian property, we propose simple solutions to the system performance and stabilization problems when the interaction between power sources and constant power loads (CPLs). To corroborate the proposed control law, a prototype FC power converter (2.5-kW two-phase boost converter) is implemented in the laboratory. The Methanol FC system includes a fuel reformer that converts methanol and water liquid fuel into hydrogen gas to polymer electrolyte membrane FC (PEMFC) stack (2.5-kW, 50 V). The proposed control approach is realized with a digital estimate in a dSPACE MicroLabBox controller card. The experimental and simulation results verify that this is a good control scheme during constant power load cycles. Keywords - Constant power load (CPL), dc microgrid, interleaved boost converter, interconnection and damping assignment (IDA), fuel cell (FC), passivity based controller (PBC), Port-Controlled Hamiltonian (PCH) | |||||||||
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