| Resumo: |
In the EMPOWER project a methanol fuelled 5 kWe mini-CHP system based on HTPEMFC technology is developed, manufactured and validated in a relevant environment. The system efficiency over 50% (DC, LHV) is achieved with novel ideas of thermal integration with a two-stage reformer setup and by using thermoelectric generators (TEG), utilising the high temperature heat of HTPEMFC stack.
An aqueous phase reformer (APR) for methanol pre-reforming is applied for the first time in a commercial scale HTPEMFC system. The use of
APR and its thermal integration in the FC system enables efficient utilisation of the stack waste heat and enables reformer efficiency approaching
95%. The best available catalysts will be screened and adapted for the reformer, both for the APR and for the 2nd stage reformer, which employs
commercialised reformer technology from project partner Catator and recently developed methanol-reforming catalyst from partner University of
Porto.
The system efficiency is further improved by increasing the fuel utilization to above 95% in the HTPEMFC stack. This is enabled by improving anode gas flow distribution in the cells as well as improving the stack end plates. The new end plate design will also enable stack pressurising and
improving stack efficiency over 55 %.
The improvements in the HTPEM system design for mini-CHP use are validated in relevant environment, coupled to the heating and power system of a detached house, so that reliable data of the operation and stability can be generated.
The accelerated test will be carried out for a period of 6 months and for at least 2,000 h of operation. Lastly, the project includes planning for scaling both the reformer solution and CHP system to 50-100 kWe size, including the addition of expanders.
The technical work is complemented with a business analysis, including all the relevant elements of the methanol FC value chain, for the use of the developed technology in micro-CHP, CHP and maritime  |
Resumo
In the EMPOWER project a methanol fuelled 5 kWe mini-CHP system based on HTPEMFC technology is developed, manufactured and validated in a relevant environment. The system efficiency over 50% (DC, LHV) is achieved with novel ideas of thermal integration with a two-stage reformer setup and by using thermoelectric generators (TEG), utilising the high temperature heat of HTPEMFC stack.
An aqueous phase reformer (APR) for methanol pre-reforming is applied for the first time in a commercial scale HTPEMFC system. The use of
APR and its thermal integration in the FC system enables efficient utilisation of the stack waste heat and enables reformer efficiency approaching
95%. The best available catalysts will be screened and adapted for the reformer, both for the APR and for the 2nd stage reformer, which employs
commercialised reformer technology from project partner Catator and recently developed methanol-reforming catalyst from partner University of
Porto.
The system efficiency is further improved by increasing the fuel utilization to above 95% in the HTPEMFC stack. This is enabled by improving anode gas flow distribution in the cells as well as improving the stack end plates. The new end plate design will also enable stack pressurising and
improving stack efficiency over 55 %.
The improvements in the HTPEM system design for mini-CHP use are validated in relevant environment, coupled to the heating and power system of a detached house, so that reliable data of the operation and stability can be generated.
The accelerated test will be carried out for a period of 6 months and for at least 2,000 h of operation. Lastly, the project includes planning for scaling both the reformer solution and CHP system to 50-100 kWe size, including the addition of expanders.
The technical work is complemented with a business analysis, including all the relevant elements of the methanol FC value chain, for the use of the developed technology in micro-CHP, CHP and maritime sectors. |