A review and comparative assessment of direct ammonia fuel cells

A review and comparative assessment of direct ammonia fuel cells

•Comparative assessment of direct ammonia fuel cells.•Effect of electrolyte and electrode materials on fuel cell performance.•Effect of operating temperature on the performance of direct ammonia fuel cells.•A 200 °C rise in SOFC temperature increases the peak power density by 3–4 times. In this stud...

Full description

Saved in:
Bibliographic Details
Published in:Thermal science and engineering progress Vol. 5; pp. 568 - 578
Main Authors: Siddiqui, Osamah, Dincer, Ibrahim
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-03-2018
Subjects:
Ammonia
Comparative assessment
Efficiency
Energy
Fuel cells
Hydrogen
Ammonia
Comparative assessment
Energy
Hydrogen
Efficiency
Fuel cells
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Comparative assessment of direct ammonia fuel cells.•Effect of electrolyte and electrode materials on fuel cell performance.•Effect of operating temperature on the performance of direct ammonia fuel cells.•A 200 °C rise in SOFC temperature increases the peak power density by 3–4 times. In this study, we present a comparative assessment of direct ammonia fuel cells and a discussion of these from various perspectives by considering the effective criteria. The effect of electrolyte and electrode materials, electrolyte thicknesses and operating temperatures on the performance of direct ammonia fuel cells are studied and discussed comparatively for evaluation purposes. A comparison of which cell types and configurations provide the optimum performance is conducted by utilizing the experimental results reported in the literature. The results of this study are expedient to provide important inferences about the performances of direct ammonia fuel cells. Ammonia fed oxygen ion conducting Samarium doped ceria electrolyte based solid oxide fuel cells have comparatively the highest peak power density of 1190 mW/cm2 when operated at 650 °C with a 10 µm thick electrolyte. Direct ammonia proton conducting electrolyte based solid oxide fuel cells have lower cell performance than oxygen ion conducting fuel cells due to the dilution of hydrogen at the anode by undecomposed ammonia as well as formed nitrogen gas. The operating temperature of the fuel cell and electrolyte thickness affect the cell performance considerably. A 200 °C increase in operating temperature increases the peak power density by nearly three to four times for ammonia fed solid oxide fuel cells. The molten alkaline electrolyte based fuel cells can be a promising technology. Further research is required for these type of fuel cells to investigate their performance with low electrode separation distance and more conductive alkaline electrolytes.
ISSN:2451-9049
2451-9049
DOI:10.1016/j.tsep.2018.02.011