Design, optimization and testing of baffle-type parallel-channel flow field plates within a 200-cm2 fuel cell short stack with a highly-active catalyst - Year two

Enhancing the current and power density in polymer electrolyte membrane fuel cells (PEMFCs) is one of the main challenges to their large-scale commercialization and hence in tune with the pending needs of the PEMFC industry. The volumetric power density in PEMFC stacks is strongly affected by the flow field plates due to their critical impact on the reactants distribution over the electrodes and their bulky size. In the proposed research, baffle-type parallel-channel cathode, anode and cooling flow field plates are designed with a small thickness.

Design, optimization and testing of baffle-type parallel-channel flow field plates within a 200-cm2 fuel cell short stack with a highly-active catalyst

Enhancing the current and power density in polymer electrolyte membrane fuel cells (PEMFCs) is one of the main challenges to their large-scale commercialization and hence in tune with the pending needs of the PEMFC industry. The volumetric power density in PEMFC stacks is strongly affected by the flow field plates due to their critical impact on the reactants distribution over the electrodes and their bulky size. In the proposed research, baffle-type parallel-channel cathode, anode and cooling flow field plates are designed with a small thickness.

Distributed Control Strategy Development for Demand-Side Energy Management in Commercial Buildings With Photo-Voltaic and Energy Storage

Increasing global energy demand coupled with efforts to reduce our carbon emission has pushed for improved energy efficiency in many areas. One area in need of improvement is residential and commercial buildings. Specifically, the demand-side energy management of commercial buildings can be improved significantly with improved control. With the addition of on-site renewable energy generation such as Photo-Voltaic and energy storage, a large commercial building can be optimally controlled to provide reliable, stable power while maintaining minimal wasted energy.