Heat transfer modelling in Discrete Element Method (DEM)-based simulations of thermal processes: Theory and model development
Z Peng, E Doroodchi, B Moghtaderi - Progress in Energy and Combustion …, 2020 - Elsevier
Over the past decade, DEM-based simulation has become a promising alternative to
physical measurements of thermal particulate systems. Despite their rapid advancement and …
physical measurements of thermal particulate systems. Despite their rapid advancement and …
Components, formulations, solutions, evaluation, and application of comprehensive combustion models
AM Eaton, LD Smoot, SC Hill, CN Eatough - Progress in energy and …, 1999 - Elsevier
Development and application of comprehensive, multidimensional, computational
combustion models are increasing at a significant pace across the world. While once …
combustion models are increasing at a significant pace across the world. While once …
[图书][B] Finite difference methods in heat transfer
Finite Difference Methods in Heat Transfer, Second Edition focuses on finite difference
methods and their application to the solution of heat transfer problems. Such methods are …
methods and their application to the solution of heat transfer problems. Such methods are …
Finite-volume method for radiation heat transfer
JC Chai, SV Patankar - … in Numerical Heat Transfer, Volume 2, 2018 - taylorfrancis.com
This chapter presents a finite-volume (FV) method for computing radiation heat transfer
processes. The main ingredients of the calculation procedure were presented by Chai et …
processes. The main ingredients of the calculation procedure were presented by Chai et …
Modeling turbulent reacting jets issuing into a hot and diluted coflow
FC Christo, BB Dally - Combustion and flame, 2005 - Elsevier
Numerical modeling of turbulent nonpremixed methane/hydrogen (1/1 by volume) flames
issuing from a jet in hot coflow (JHC) is presented. The JHC burner is designed to emulate a …
issuing from a jet in hot coflow (JHC) is presented. The JHC burner is designed to emulate a …
Finite volume method for radiative heat transfer using unstructured meshes
JY Murthy, SR Mathur - Journal of thermophysics and heat transfer, 1998 - arc.aiaa.org
THERE has been considerable research in the use of unstructured meshes for the
computation of uid ow and heat transfer during the last decade. 1–3 Unstructured meshes …
computation of uid ow and heat transfer during the last decade. 1–3 Unstructured meshes …
Numerical investigation on the flow, combustion and NOx emission characteristics in a 500 MWe tangentially fired pulverized-coal boiler
CR Choi, CN Kim - Fuel, 2009 - Elsevier
The characteristics of the flow, combustion, temperature and NOx emissions in a 500MWe
tangentially fired pulverized-coal boiler are numerically studied using comprehensive …
tangentially fired pulverized-coal boiler are numerically studied using comprehensive …
Wavy-tape insert designed for managing highly concentrated solar energy on absorber tube of parabolic trough receiver
X Zhu, L Zhu, J Zhao - Energy, 2017 - Elsevier
In this paper, a swirl flow generator, namely wavy-tape insert, is tailored for the parabolic
trough receiver (PTR) to improve its performances by mean of enhancing the heat transfer …
trough receiver (PTR) to improve its performances by mean of enhancing the heat transfer …
Analysis of radiative heat transfer in two-dimensional irregular geometries by developed immersed boundary–lattice Boltzmann method
Abstract The Immersed Boundary–lattice Boltzmann method (IB-LBM) is developed to
analyze radiative heat transfer in two-dimensional (2D) irregular geometries. Lattice …
analyze radiative heat transfer in two-dimensional (2D) irregular geometries. Lattice …
A direct-forcing IB-LBM implementation for thermal radiation in irregular geometries
Radiative heat transfer in two-dimensional irregular geometries is analyzed using a direct-
forcing immersed boundary-lattice Boltzmann method (IB-LBM) in participating media. In this …
forcing immersed boundary-lattice Boltzmann method (IB-LBM) in participating media. In this …