1 research outputs found
Model-based design and operation of fuel cell systems
Fuel cells are a promising technology for the production of electricity from hydrogen
or other fuels with high effi�ciency and low emissions. They are suitable for stationary,
transportation and portable applications. However, they are still more expensive than
existing technologies and there are technical challenges that need to be overcome for
their commercialisation. Therefore, accurate and e�fficient design methodologies for fuel
cell systems design are becoming increasingly important.
Modelling and optimisation present a great potential to inform fuel cell systems design,
which often results in savings in design cycle time and cost, and better design and
operation. The purpose of this thesis is to investigate the applicability of model-based
design approaches to fuel cell systems design when applied to a single-cell fuel cell,
then a fuel cell stack and, ultimately, a system-level fuel cell system, such as a microcogeneration
plant.
The development of mathematical models for a single-cell fuel cell, a stack and a microcogeneration
system is presented in detail. The use of these models in model-based
design is then illustrated. For instance, the effectiveness of a conventional humidi�fication design is examined using the single-cell fuel cell model. The fuel cell stack
model is used within a multi-objective optimisation framework to investigate how size
trades for e�fficiency. Finally, the micro-cogeneration plant model is used to investigate
the trade-off between fuel consumption and electrical power output, compare different
micro-cogeneration operating strategies and examine the interaction between operating
strategies and electricity network. Overall, when properly formulated and validated,
modelling and optimisation are useful tools in fuel cell systems design as they provide
means by which engineers can obtain valuable information about the behaviour of the
system, make informed decisions, generate different design alternatives and identify
good designs even before a prototype is fabricated