A Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions

A Java-based computational tool with a novel algorithm and comparatively low-cost hybrid procedure is described. Energy dissipation from the wall is predicted with considerably high potential for process applications. Thermal spot localization was observed in the geometry with a propensity for therm...

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Autor principal: Paul N. Nwosu
Formato: article
Lenguaje:EN
Publicado: Elsevier 2021
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spelling oai:doaj.org-article:6567240100c0453e90443a75327c55de2021-11-22T04:29:32ZA Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions2590-123010.1016/j.rineng.2019.100045https://doaj.org/article/6567240100c0453e90443a75327c55de2021-12-01T00:00:00Zhttp://www.sciencedirect.com/science/article/pii/S2590123019300453https://doaj.org/toc/2590-1230A Java-based computational tool with a novel algorithm and comparatively low-cost hybrid procedure is described. Energy dissipation from the wall is predicted with considerably high potential for process applications. Thermal spot localization was observed in the geometry with a propensity for thermal stress which can influence the strength of the material. The temperature loss magnitude is indicative of the energy losses that would otherwise have contributed to improving the thermal effectiveness - as opposed to heat dissipation, for instance, in low-temperature combustion reactions employing fuel burners. Wherefore, with low-cost computational tools, the computerization process for thermal FE analysis using an economically judicious methodology, could potentially serve as an alternative to cloud-based tools and costly experimental procedures with potential cost-reduction. Principally, the contribution is in discrete modelling and simulation of the wall section in heat transfer combustion reactions using Java language Object-oriented programming (OOP) approach integrating EES graphics.Paul N. NwosuElsevierarticleFinite elementenergy recoveryradiation dominancewallhigh temperature combustionTechnologyTENResults in Engineering, Vol 12, Iss , Pp 100045- (2021)
institution DOAJ
collection DOAJ
language EN
topic Finite element
energy recovery
radiation dominance
wall
high temperature combustion
Technology
T
spellingShingle Finite element
energy recovery
radiation dominance
wall
high temperature combustion
Technology
T
Paul N. Nwosu
A Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions
description A Java-based computational tool with a novel algorithm and comparatively low-cost hybrid procedure is described. Energy dissipation from the wall is predicted with considerably high potential for process applications. Thermal spot localization was observed in the geometry with a propensity for thermal stress which can influence the strength of the material. The temperature loss magnitude is indicative of the energy losses that would otherwise have contributed to improving the thermal effectiveness - as opposed to heat dissipation, for instance, in low-temperature combustion reactions employing fuel burners. Wherefore, with low-cost computational tools, the computerization process for thermal FE analysis using an economically judicious methodology, could potentially serve as an alternative to cloud-based tools and costly experimental procedures with potential cost-reduction. Principally, the contribution is in discrete modelling and simulation of the wall section in heat transfer combustion reactions using Java language Object-oriented programming (OOP) approach integrating EES graphics.
format article
author Paul N. Nwosu
author_facet Paul N. Nwosu
author_sort Paul N. Nwosu
title A Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions
title_short A Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions
title_full A Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions
title_fullStr A Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions
title_full_unstemmed A Novel Combo-Algorithm Applying Java In Thermal Modelling and Simulation of Energetic Axisymmetric Materials with Combustion Reactions
title_sort novel combo-algorithm applying java in thermal modelling and simulation of energetic axisymmetric materials with combustion reactions
publisher Elsevier
publishDate 2021
url https://doaj.org/article/6567240100c0453e90443a75327c55de
work_keys_str_mv AT paulnnwosu anovelcomboalgorithmapplyingjavainthermalmodellingandsimulationofenergeticaxisymmetricmaterialswithcombustionreactions
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