Showing total 2 results

1. Dynamic study of hydrogen optimization in the hybrid boiler-fuel cells MCHP unit for eco-friendly house.

Author

Elkhatib, Rafik, Petrone, Raffaele, and Louahlia, Hasna

Subjects

*HYDROGEN as fuel, *BOILERS, *BOILER efficiency, *HYDROGEN storage, *FUEL cells, *HYDRIDES, *HYDROGEN production, *CLEAN energy

Abstract

This paper investigates an innovative study on the performance of a hybrid condensing boiler-fuel cell micro-cogeneration system for single residential applications. It combines experimental and dynamic numerical investigations including renewable energy for green hydrogen production and solid storage. Basing on the hourly measurements for a typical winter day, a dynamic model was developed and validated against different home heating need. Highlighting the influence home energy needs on fuel cell operating mode, it shows that single homes with low energy demand led to reduce the fuel cell's yearly operation below 50 %. In low-energy homes, a reduction in fuel cell size led to an increase in yearly operation to 60-70 % and achieved a 55 % electrical coverage rate. The integration of metal hydride hydrogen solid storage, powered by renewable sources, is emphasized. This setup increases heat demand, influencing fuel cell operation. In winter season, fuel cell operated for an average of 611 h, compared to 61 h in summer. System efficiency averaged 91 % annually, peaked at 95 % in summer, and sustained 93 % when both FC and condensing boiler were switched on. [Display omitted] • Modeling of a hybrid Boiler-Fuel Cell MCHP system for residential energy management. • Calibration of the FC-MCHP model using experimental data from a real MCHP unit. • Electrical and thermal coverage of the FC-MCHP unit with green hydrogen production and storage under different scenarios. • Strategies for optimal hydrogen consumption in in residential application. • Impact of solid-state hydrogen storage on FC-MCHP consumption and thermal management. [ABSTRACT FROM AUTHOR]

Published

2024

2. Development of design a drop-in hydrogen fueling station to support the early market buildout of hydrogen infrastructure.

Author

Agll, Abdulhakim Amer A., Hamad, Tarek A., Hamad, Yousif M., Bapat, Sushrut G., and Sheffield, John W.

Subjects

*FUEL cells, *FUELING, *MARKETING research, *HYDROGEN production, *CLEAN energy

Abstract

This paper provides a design of a drop-in hydrogen fueling station. Drop-in stations are expected to be an important factor in the introduction of hydrogen fueling infrastructure. The stations not only allows a streamlined introduction of hydrogen in the vehicle fueling infrastructure, but also, acts as mini pilot plants that can allow for detailed control studies. The effect of the location and availability of utilities, the closeness to residential area, unintended safety concerns, people outlook towards hydrogen, etc. are some of the factors that can be readily studied with such drop-in stations. The proposed design of a drop-in station mainly considers off-the-shelf items and is conceptualized to be implemented at the Missouri University of Science and Technology. The modular design approach, with the off-the-shelf items allows for a design with the capability of mass production, and ease in transport and integration. [ABSTRACT FROM AUTHOR]

Published

2016