VECHIU, Ionel; BAUDOIN, Sylvain; CAMBLONG, Haritza; VINASSA, Jean-Michel; KRECKELBERGH, Stephane

doi:10.1109/EPE.2015.7311708

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VECHIU, Ionel

ESTIA INSTITUTE OF TECHNOLOGY

BAUDOIN, Sylvain
ESTIA INSTITUTE OF TECHNOLOGY
Euskal Herriko Unibertsitatea [Guipúzcoa] [EHU]
Laboratoire de l'intégration, du matériau au système [IMS]

CAMBLONG, Haritza

Euskal Herriko Unibertsitatea [Guipúzcoa] [EHU]

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IEEE Conference Publications, Power Electronics and Applications (EPE'15 ECCE-Europe), 2015 17th European Conference on, 2015-09-08, Geneva. 2015-09-10p. 1-8

Résumé en anglais

MicroGrids (MGs) are one of the most efficient ways to integrate the renewable energy sources in the rural areas. The biogas extracted from the organic waste, an often-unused renewable resource, can be electrically valorised through a Solid Oxide Fuel Cell/Gas MicroTurbine hybrid system. In order to preserve the high electrical efficiency obtained with this kind of hybrid system, its integration into à rural MG has been done using only a 3LNPC. The paper focuses on the control strategy designed in order to allows managing the power produced by the two separate sources to meet the power demand. Simulation and experimental results, with a Solid Oxide Fuel Cell/Gas MicroTurbine hybrid system emulator and a 3LNPC prototype connected to a MG experimental platform, confirm the feasibility of the investigated system.< Réduire

Mots clés en anglais

SOFC

Gas Turbine

Hybrid System

MicroGrid

3LNPC

Voltage control

Load modeling

Hydrogen

Fuel cells

Renewable energy sources

Hybrid power systems

Solids

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Control of a Solid Oxide Fuel Cell/Gas MicroTurbine hybrid system using a multilevel convertor

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