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Cathode Subsystem Development and Optimisation
Call for proposals:
Stationary power production and CHP
The main objectives of this proposal is to evaluate different process alternatives and find optimal process and mechanical solutions for the cathode and stack subsystems with the aim of having commercially feasible and technologically optimised subsystem solutions ready for future ~ 250 kWe atmospheric SOFC systems. The aspects taken into account in the development are mainly electrical efficiency, controllability, reliability, mass production and costs effectiveness of developed subsystems and individual components.
This project is focused on the development of SOFC system’s air side fluid and thermal management and mechanical solutions, i.e. cathode subsystem and individual components. In large SOFC systems the cathode subsystem is typically the largest source of auxiliary losses and a major factor decreasing electrical efficiency of the system. The reason for this is that almost all components are based on existing products developed for some other purposes and are not optimized for certain SOFC systems. By making cathode side components from the SOFC system point of view, i.e. optimizing the overall system solutions, significant improvements in terms of costs, reliability, performance and lifetime will be achieved. A parallel optimization of the anode subsystem is carried out in the EU funded ASSENT project.
The project will further focus on the integration of SOFC stacks in large systems. If large SOFC systems would be realized by simple multiplication of smaller SOFC stacks, the cost of the so-called Balance of Stack components would be very large. The Balance of Stack components includes air- and gas manifolding, stack compression, thermal insulation, electrical insulation, wiring, lead-in’s and sealing. Based on state-of-the-art SOFC stacks this project will develop scalable, cost-efficient Balance of Stack solutions suitable for ~ 250 kW SOFC systems.
SP1-JTI-FCH.2009.3.4 Component improvement for stationary applications
Research and technological development
Saturday, January 1, 2011
Monday, June 30, 2014
36 months (originally), extended to 42 months
VTT Technical Research Centre of Finland Finland
Dr Jari KIVIAHO
Other participating organisations:
|(Wärtsilä Finland Oy)||Finland|
|AVL List GmbH||Austria|
|Topsoe Fuel Cells A/S||Denmark|
|Bosal Research NV||Belgium|
|Università degli studi di Genova||Italy|
Results or Deliverables files:
EP2719447A1, Yves De Vos; Freddy Wollants; Jean-Paul Hubert Janssens, "Combined heat exchanging and fluid mixing apparatus"
FI20115307, Wärtsilä Finland Oy, "A heating method and arrangement for enhanced heating of a high temperature fuel cell device"
C. Strazza, Applied Energy 31/12/2014, N/A, "LCA-LCC analysis of a 230 kW SOFC system for distributed generation applications"