PEMFC system and low-grade bioethanol processor unit development for back-up and off-grid power applications

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PEMFC system and low-grade bioethanol processor unit development for back-up and off-grid power applications Project coordinator: Henri Karimäki, VTT Henri.karimaki@vtt.fi +358 40 724 1858 http://pembeyond.eu/

Background and motivation Telecom back-up and off-grid power is one of the strongest markets for fuel cells today Competitive total cost of ownership (TCO) especially in long back-up (several days) or completely off-grid applications Need for reliable, cost-competitive and environmentally sustainable solutions growing Low quality bioethanol fuel would allow use of locally produced and sustainable fuel also in developing countries Relatively high investment cost and fuel logistics key challenges slowing market penetration Pictures: from Genport and Ballard Web page 2

Objectives Developing an integrated PEM fuel cell based power system for stationary back-up and off-grid power generation, that is Using crude (80-95%) bioethanol as primary fuel Cost-competitive (complete system < 2 500 /kw @ 500 units) Energy-efficient (> 30% overall system efficiency) Durable (> 20 000 hours system lifetime in continuous operation) Laboratory testing and limited field trial (~1000 hours) A roadmap to volume production one of main project deliverables 3

Overall concept Tail gas CO, CH 4, CO 2 Crude Bioethanol Ethanol reformer PSA H 2 Low pressure H 2 buffer storage H 2 PEMFC system 5-30 kw CO 2 H 2 O CO 2 (Locally produced &) sustainable fuel Optimal hydrogen quality Automotive reformate compatible stacks Downsizing of the fuel processing stage 4

Main outcome Applications / End users Long back-up and off-grid power (mainly telecom in developing countries) Power production and grid stabilization for micro grids In addition to the complete system, development of separately utilizable subsystems is another main outcome of the project PEMFC system for back-up/off-grid application using lowgrade hydrogen fuel Low-cost, state-of-the-art PEMFC stack for various applications Crude bioethanol processor unit (reformer + PSA) for distributed H2 generation 5

Main system specifications Fuel Cell System: Electric net output: 7 kw / 48 V DC Start-up time: few ms (buffered by Li-ion battery) Efficiency: > 45% Bioethanol processor: Product H2 feed: 0.135 kg/h (corresponds to ~2 kw net output) Start-up time: < 45 min (buffered by hydrogen storage) Complete system prototype: Electric net output: > 5 kw / 48 V DC (for 3.3 h continuous, after that 2 kw) Efficiency: > 30% Fuel consumption: 1 kg/h bioethanol Back-up time: 7 days (with 170 kg ethanol vessel) Physical footprint: 10ft. ISO container Ambient temp range: -20 - + 40 C 6

Project consortium 1. VTT Technical Research Centre of Finland Project coordination Complete system integration PEMFC freeze-tolerance and low-quality H 2 solutions Testing and field-trial Environmental analysis (LCA) 2. PowerCell Sweden AB (Sweden) PEMFC stack development 3. Genport srl (Italy) PEMFC system development Techno-economic analysis 4. Fraunhofer ICT-IMM (Germany) Bioethanol reformer development 5. University of Porto (Portugal) H 2 purification (PSA) development Project volume 4,6 M total budget / 378 person-months total 3 years, May 2014 April 2017 7

Project schedule Year 1 Year 2 Year 3 Componenet & Subsystem development System specifications System integration Testing & Field trial Techno-economic analysis & LCA May 2014 April 2017 8

Industry Advisory Board Participation absolutely non-binding Annual workshops for invited companies 1st workshop Fuel Cells in Telecom 23.9.2014 in Espoo Finland 2nd workshop in Italy in late April or early May 2015 3rd workshop tentatively planned in Sweden 2016 Main goal to reach bidirectional exchange of information, results and feedback regarding PEMBeyond project and fuel cell back-up systems in general 9

Summary The objective is to develop an integrated PEM fuel cell based power system for extended back-up and off-grid power generation Low-grade bioethanol as primary fuel H 2 quality optimization one of key tasks As an outcome also several independently usable subsystems Possibility for relevant industry to continue following the project progress in annual workshops 10

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