System model development for a methanol reformed 5 kW high temperature PEM fuel cell system

Simon Lennart Sahlin; Søren Juhl Andreasen; Søren Knudsen Kær

doi:10.1016/j.ijhydene.2015.07.145

System model development for a methanol reformed 5 kW high temperature PEM fuel cell system

Simon Lennart Sahlin, Søren Juhl Andreasen, Søren Knudsen Kær

AAU Energy

Research output: Contribution to journal › Journal article › Research › peer-review

26 Citations (Scopus)

Abstract

This work investigates the system performance when reforming methanol in an oil heated reformer system for a 5 kW fuel cell system. A dynamic model of the system is created and evaluated. The system is divided into 4 separate components. These components are the fuel cell, reformer, burner and evaporator, which are connected by two separate oil circuits, one with a burner and reformer and one with a fuel cell and evaporator. Experiments were made on the reformer and measured oil and bed temperatures are presented in multiple working points. The system is examined at loads from 0 to 5000 W electric and the response time and efficiency of the system are evaluated. The efficiency is estimated to be around 28–30% during load. Startup of the system is estimated to be around 45 min.

Original language	English
Journal	International Journal of Hydrogen Energy
Volume	40
Issue number	38
Pages (from-to)	13080–13089
Number of pages	10
ISSN	0360-3199
DOIs	https://doi.org/10.1016/j.ijhydene.2015.07.145
Publication status	Published - Oct 2015

Keywords

Methanol
Dynamic model
HTPEM
Reformer
Steam reforming

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10.1016/j.ijhydene.2015.07.145Licence: Other

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Cobra II: COmmercial BReak-through of Advanced Fuel Cells II
Kær, S. K., Andreasen, S. J. & Araya, S. S.
EUDP
01/08/2013 → 31/12/2016
Project: Research

Cite this

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title = "System model development for a methanol reformed 5 kW high temperature PEM fuel cell system",

abstract = "This work investigates the system performance when reforming methanol in an oil heated reformer system for a 5 kW fuel cell system. A dynamic model of the system is created and evaluated. The system is divided into 4 separate components. These components are the fuel cell, reformer, burner and evaporator, which are connected by two separate oil circuits, one with a burner and reformer and one with a fuel cell and evaporator. Experiments were made on the reformer and measured oil and bed temperatures are presented in multiple working points. The system is examined at loads from 0 to 5000 W electric and the response time and efficiency of the system are evaluated. The efficiency is estimated to be around 28–30% during load. Startup of the system is estimated to be around 45 min.",

keywords = "Methanol, Dynamic model, HTPEM, Reformer, Steam reforming",

author = "Sahlin, {Simon Lennart} and Andreasen, {S{\o}ren Juhl} and K{\ae}r, {S{\o}ren Knudsen}",

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AU - Sahlin, Simon Lennart

AU - Andreasen, Søren Juhl

AU - Kær, Søren Knudsen

PY - 2015/10

Y1 - 2015/10

N2 - This work investigates the system performance when reforming methanol in an oil heated reformer system for a 5 kW fuel cell system. A dynamic model of the system is created and evaluated. The system is divided into 4 separate components. These components are the fuel cell, reformer, burner and evaporator, which are connected by two separate oil circuits, one with a burner and reformer and one with a fuel cell and evaporator. Experiments were made on the reformer and measured oil and bed temperatures are presented in multiple working points. The system is examined at loads from 0 to 5000 W electric and the response time and efficiency of the system are evaluated. The efficiency is estimated to be around 28–30% during load. Startup of the system is estimated to be around 45 min.

AB - This work investigates the system performance when reforming methanol in an oil heated reformer system for a 5 kW fuel cell system. A dynamic model of the system is created and evaluated. The system is divided into 4 separate components. These components are the fuel cell, reformer, burner and evaporator, which are connected by two separate oil circuits, one with a burner and reformer and one with a fuel cell and evaporator. Experiments were made on the reformer and measured oil and bed temperatures are presented in multiple working points. The system is examined at loads from 0 to 5000 W electric and the response time and efficiency of the system are evaluated. The efficiency is estimated to be around 28–30% during load. Startup of the system is estimated to be around 45 min.

KW - Methanol

KW - Dynamic model

KW - HTPEM

KW - Reformer

KW - Steam reforming

U2 - 10.1016/j.ijhydene.2015.07.145

DO - 10.1016/j.ijhydene.2015.07.145

M3 - Journal article

SN - 0360-3199

VL - 40

SP - 13080

EP - 13089

JO - International Journal of Hydrogen Energy

JF - International Journal of Hydrogen Energy

IS - 38

ER -

System model development for a methanol reformed 5 kW high temperature PEM fuel cell system

Abstract

Keywords

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Projects

Cobra II: COmmercial BReak-through of Advanced Fuel Cells II

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