Related references
Note: Only part of the references are listed.Numerical study of heat transfer in gravity-driven dense particle flow around a hexagonal tube
Xing Tian et al.
POWDER TECHNOLOGY (2020)
A simplified finite volume method for effective thermal conductivity in discrete particles
Zhigang Guo et al.
POWDER TECHNOLOGY (2020)
Investigation of Effective Thermal Conductivity for Ordered and Randomly Packed Bed with Thermal Resistance Network Method
Jian Yang et al.
ENERGIES (2019)
A DEM-based heat transfer model for the evaluation of effective thermal conductivity of packed beds filled with stagnant fluid: Thermal contact theory and numerical simulation
Lei Chen et al.
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER (2019)
Particle-particle heat transfer in thermal DEM: Three competing models and a new equation
Evangelos Tsotsas
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER (2019)
Granular flow around the horizontal tubes of a particle heat exchanger: DEM-simulation and experimental validation
Philipp Bartsch et al.
SOLAR ENERGY (2019)
Modeling the effective conductivity of the solid and the pore phase in granular materials using resistor networks
Oleg Birkholz et al.
POWDER TECHNOLOGY (2019)
The effects of packing structure on the effective thermal conductivity of granular media: A grain scale investigation
Weijing Dai et al.
INTERNATIONAL JOURNAL OF THERMAL SCIENCES (2019)
Design and operating considerations for a shell-and-plate, moving packed bed, particle-to-sCO2 heat exchanger
Kevin J. Albrecht et al.
SOLAR ENERGY (2019)
Waste heat recovery from high-temperature solid granular materials: Energy challenges and opportunities
Zhilong Cheng et al.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS (2019)
Heat transfer of calcined petroleum coke and heat exchange tube for calcined petroleum coke waste heat recovery
Bin Zheng et al.
ENERGY (2018)
Effective thermal conductivity of a compacted pebble bed in a stagnant gaseous environment: An analytical approach together with DEM
Akhil Reddy Peeketi et al.
FUSION ENGINEERING AND DESIGN (2018)
Discrete element method for effective thermal conductivity of packed pebbles accounting for the Smoluchowski effect
M. Moscardini et al.
FUSION ENGINEERING AND DESIGN (2018)
Numerical analysis of the granular flow and heat transfer in the ADS granular spallation target
Ronghua Chen et al.
NUCLEAR ENGINEERING AND DESIGN (2018)
Particle scale modeling of heat transfer in granular flows in a double screw reactor
Fenglei Qi et al.
POWDER TECHNOLOGY (2018)
A novel method for the calculation of particle heat conduction and resolved 3D wall heat transfer for the CFD/DEM approach
Tobias Oschmann et al.
POWDER TECHNOLOGY (2018)
Granular flow characteristics and heat generation mechanisms in an agitating drum with sphere particles: Numerical modeling and experiments
Zhipeng Sun et al.
POWDER TECHNOLOGY (2018)
Influence of gas pressure on the effective thermal conductivity of ceramic breeder pebble beds
Weijing Dai et al.
FUSION ENGINEERING AND DESIGN (2017)
Gas-solid flow and heat transfer in fluidized beds with tubes: Effects of material properties and tube array settings
Q. F. Hou et al.
POWDER TECHNOLOGY (2016)
Development and verification of a resolved 3D inner particle heat transfer model for the Discrete Element Method (DEM)
T. Oschmann et al.
POWDER TECHNOLOGY (2016)
Simulations of heat transfer to solid particles flowing through an array of heated tubes
A. B. Morris et al.
SOLAR ENERGY (2016)
Properties of granular materials as heat transfer and storage medium in CSP application
T. Baumann et al.
SOLAR ENERGY MATERIALS AND SOLAR CELLS (2015)
Modeling and Coupling Particle Scale Heat Transfer with DEM through Heat Transfer Mechanisms
Chang-sheng Bu et al.
NUMERICAL HEAT TRANSFER PART A-APPLICATIONS (2013)
Three-dimensional random network model for thermal conductivity in particulate materials
Tae Sup Yun et al.
COMPUTERS AND GEOTECHNICS (2010)
Particle Scale Study of Heat Transfer in Packed and Bubbling Fluidized Beds
Z. Y. Zhou et al.
AICHE JOURNAL (2009)
Continuous versus discrete modelling of heat transfer to agitated beds
M. Kwapinska et al.
POWDER TECHNOLOGY (2008)
Measurements of the effective thermal conductivity of a Li4SiO4 pebble bed
M Dalle Donne et al.
FUSION ENGINEERING AND DESIGN (2000)