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- Publications
- Influence
Planar Solid Oxide Fuel Cell Modeling and Optimization Targeting the Stack’s Temperature Gradient Minimization
Minimization of undesirable temperature gradients in all dimensions of a planar solid oxide fuel cell (SOFC) is central to the thermal management and commercialization of this electrochemical… Expand
Evaluation of fuel diversity in Solid Oxide Fuel Cell system
- A. Amiri, Shi Tang, R. Steinberger-Wilckens, M. Tadé
- Environmental Science
- 20 November 2018
Abstract Operability of Solid Oxide Fuel Cell (SOFC) on numerous fuels has been widely counted as a leading advantage in literature. In a designed system, however, switching from a fuel to another is… Expand
An Unreacted Shrinking Core Model for Calcination and Similar Solid-to-Gas Reactions
- A. Amiri, G. Ingram, N. Maynard, I. Livk, A. Bekker
- Chemistry
- 24 April 2015
A variation on the unreacted shrinking core model has been developed for calcination and similar non-catalytic solid-to-gas decomposition reactions in which no gaseous reactant is involved and the… Expand
Solid oxide fuel cell reactor analysis and optimisation through a novel multi-scale modelling strategy
- A. Amiri, P. Vijay, +4 authors Ranjeet P. Utikar
- Engineering, Computer Science
- Comput. Chem. Eng.
- 12 July 2015
TLDR
Planar SOFC system modelling and simulation including a 3D stack module
A solid oxide fuel cell (SOFC) system consists of a fuel cell stack with its auxiliary components. Modelling an entire SOFC system can be simplified by employing standard process flowsheeting… Expand
A multi-stage, multi-reaction shrinking core model for self-inhibiting gas–solid reactions
- A. Amiri, G. Ingram, A. Bekker, I. Livk, N. Maynard
- Chemistry
- 1 July 2013
Some thermal decomposition reactions display self-inhibiting behaviour, where the produced gas negatively influences the reaction progress. Further, a build-up of internal pressure caused by the… Expand
Mechanistic study to investigate the effects of different gas injection scenarios on the rate of asphaltene deposition: an experimental approach
- H. Dashti, P. Zanganeh, S. Kord, S. Ayatollahi, A. Amiri
- Materials Science
- 15 February 2020
Asphaltene deposition during enhanced oil recovery (EOR) processes is one of the most problematic challenges in the petroleum industry, potentially resulting in flow blockage. Our understanding of… Expand
Simulation of Solid Oxide Fuel Cell Anode in Aspen HYSYS—A Study on the Effect of Reforming Activity on Distributed Performance Profiles, Carbon Formation, and Anode Oxidation Risk
A distributed variable model for solid oxide fuel cell (SOFC), with internal fuel reforming on the anode, has been developed in Aspen HYSYS. The proposed model accounts for the complex and… Expand
Development and validation of a computationally efficient pseudo 3D model for planar SOFC integrated with a heating furnace
Efficient numerical models facilitate the study and design of solid oxide fuel cells (SOFCs), stacks, and systems. Whilst the accuracy and reliability of the computed results are usually sought by… Expand
Variations of the shrinking core model for effective kinetics modeling of the gas hydrate-based CO2 capture process
Abstract The hydrate-based carbon dioxide (CO2) capture (HBCC) process has been widely studied for CO2 separation and sequestration. This paper aims to conduct a model-based investigation of the… Expand