Publicou 12 edições por ano
ISSN Imprimir: 1091-028X
ISSN On-line: 1934-0508
Indexed in
ON THE EFFECTIVE THERMAL CONDUCTIVITY OF POROUS PACKED BEDS WITH UNIFORM SPHERICAL PARTICLES
RESUMO
Point contact models for the effective thermal conductivity of porous media with uniform spherical particles have been briefly reviewed. The model of Zehner and Schlunder (1970) has been further validated with recent experimental data over a broad range of conductivity ratios from 8 to 1200 and over a range of solids fractions up to ~0.8. The comparisons further confirm the validity of the Zehner-Schlunder model, known to be applicable for conductivity ratios less than ~2000, above which area contact between the particles becomes significant. This validation of the Zehner-Schlunder model has implications for its use in the prediction of the effective thermal conductivity of water frost (with ice-to-air conductivity ratio ~100) which arises in many important areas of technology.
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Markowski Marek, Białobrzewski Ireneusz, Bulk thermal conductivity of malting barley, Industrial Crops and Products, 42, 2013. Crossref
-
Kandula M., Frost growth and densification on a flat surface in laminar flow with variable humidity, International Communications in Heat and Mass Transfer, 39, 8, 2012. Crossref
-
Pech-May Nelson W., Alvarado-Gil Juan J., Photoacoustic monitoring of sedimentation of micro-particles in low viscosity fluids, Review of Scientific Instruments, 84, 8, 2013. Crossref
-
Chan K.C., Chao Christopher Y.H., A theoretical model on the effective stagnant thermal conductivity of an adsorbent embedded with a highly thermal conductive material, International Journal of Heat and Mass Transfer, 65, 2013. Crossref
-
Bhattacharyay Dipankar, Kocaefe Duygu, Kocaefe Yasar, Morais Brigitte, Gagnon Marc, A Model for Predicting the Electrical Resistivity of Baked Anodes, in Light Metals 2013, 2013. Crossref
-
Rindt C.C.M., Gaastra-Nedea S.V., Modeling thermochemical reactions in thermal energy storage systems, in Advances in Thermal Energy Storage Systems, 2015. Crossref
-
Bhattacharyya Rupsha, Mohan Sadhana, Solid state storage of hydrogen and its isotopes: An engineering overview, Renewable and Sustainable Energy Reviews, 41, 2015. Crossref
-
Faitli József, Magyar Tamás, Erdélyi Attila, Murányi Attila, Characterization of thermal properties of municipal solid waste landfills, Waste Management, 36, 2015. Crossref
-
Jin Lingxue, Park Jiho, Lee Cheonkyu, Seo Mansu, Jeong Sangkwon, Prediction of the effective thermal conductivity of microsphere insulation, Progress in Superconductivity and Cryogenics, 16, 1, 2014. Crossref
-
Moon Ethan M., Yang Chuqiao, Yakovlev Vadim V., Microwave-induced temperature fields in cylindrical samples of graphite powder – Experimental and modeling studies, International Journal of Heat and Mass Transfer, 87, 2015. Crossref
-
Jahromi Amir E., Miller Franklin K., 1-D transient numerical model of a regenerator in a novel sub Kelvin Active Magnetic Regenerative Refrigerator, Cryogenics, 74, 2016. Crossref
-
Omidy Ali D., Panerai Francesco, Lachaud Jean R., Mansour Nagi N., Martin Alexandre, Effects of Water Phase Change on the Material Response of Low-Density Carbon-Phenolic Ablators, Journal of Thermophysics and Heat Transfer, 30, 2, 2016. Crossref
-
Gaeini M., Zondag H.A., Rindt C.C.M., Effect of kinetics on the thermal performance of a sorption heat storage reactor, Applied Thermal Engineering, 102, 2016. Crossref
-
Liang Yuanbo, Niu Haiying, Lou Yafei, Expression for ETC of the solid phase of randomly packed granular materials, Applied Thermal Engineering, 109, 2016. Crossref
-
Gaeini M., Wind R., Donkers P.A.J., Zondag H.A., Rindt C.C.M., Development of a validated 2D model for flow, moisture and heat transport in a packed bed reactor using MRI experiment and a lab-scale reactor setup, International Journal of Heat and Mass Transfer, 113, 2017. Crossref
-
Verdier M., Termentzidis K., Lacroix D., Modeling Thermal Transport in Nano-Porous Semiconductors, in Submicron Porous Materials, 2017. Crossref
-
Bhattacharyay Dipankar, Kocaefe Duygu, Kocaefe Yasar, Morais Brigitte, Gagnon Marc, A Model for Predicting the Electrical Resistivity of Baked Anodes, in Light Metals 2013, 2016. Crossref
-
Bozzoli F., Mocerino A., Rainieri S., Vocale P., Inverse heat transfer modeling applied to the estimation of the apparent thermal conductivity of an intumescent fire retardant paint, Experimental Thermal and Fluid Science, 90, 2018. Crossref
-
Hwang Kyungmin, Kim Yongha, Lee Jungjin, Park Jungsun, Thermal Characteristic Analysis of Thermal Protection System with Porous Insulation, Journal of Aerospace System Engineering, 10, 4, 2016. Crossref
-
Sezer Hayri, Arsava Kemal S., Rangwala Ali S., Oil spill clean-up using immersed metal wool, Journal of Environmental Chemical Engineering, 5, 5, 2017. Crossref
-
Fayazmanesh Khorshid, Salari Sina, Bahrami Majid, Effective thermal conductivity modeling of consolidated sorption composites containing graphite flakes, International Journal of Heat and Mass Transfer, 115, 2017. Crossref
-
Yang Xiaoxiao, Fu Zewu, Zhao Yuying, Liu Liujun, Li Rui, Modeling Fluid and Heat Transport in a New Type Thermal Isomerization Fluidized Bed Reactor, IOP Conference Series: Materials Science and Engineering, 250, 2017. Crossref
-
D’Ans Pierre, Skrylnyk Oleksandr, Hohenauer Wolfgang, Courbon Emilie, Malet Loïc, Degrez Marc, Descy Gilbert, Frère Marc, Humidity dependence of transport properties of composite materials used for thermochemical heat storage and thermal transformer appliances, Journal of Energy Storage, 18, 2018. Crossref
-
Jeong Chan Ho, Shin Dong Hwan, Konduru Vinaykumar, Allen Jeffrey S., Choi Chang Kyoung, Lee Seong Hyuk, Quantitative measurements of nanoscale thin frost layers using surface plasmon resonance imaging, International Journal of Heat and Mass Transfer, 124, 2018. Crossref
-
Kitanovski Andrej, Tušek Jaka, Tomc Urban, Plaznik Uroš, Ožbolt Marko, Poredoš Alojz, Magnetocaloric Fluids, in Magnetocaloric Energy Conversion, 2015. Crossref
-
Scapino Luca, Zondag Herbert A., Diriken Jan, Rindt Camilo C.M., Van Bael Johan, Sciacovelli Adriano, Modeling the performance of a sorption thermal energy storage reactor using artificial neural networks, Applied Energy, 253, 2019. Crossref
-
Kiradjiev Kristian B., Halvorsen Svenn Anton, Van Gorder Robert A., Howison Sam D., Maxwell-type models for the effective thermal conductivity of a porous material with radiative transfer in the voids, International Journal of Thermal Sciences, 145, 2019. Crossref
-
Cook Peter S., Murphy Anthony B., Simulation of melt pool behaviour during additive manufacturing: Underlying physics and progress, Additive Manufacturing, 31, 2020. Crossref
-
Sauriol Pierre, Li Delin, Hadidi Lida, Villazon Hernando, Jin Liling, Yari Bahman, Gauthier Michel, Dollé Mickaël, Chartrand Patrice, Kasprzak Wojciech, Liang Guoxian, Patience Gregory S., Fe 3+ reduction during melt‐synthesis of LiFePO 4 , The Canadian Journal of Chemical Engineering, 97, 8, 2019. Crossref
-
Chakkingal Manu, de Geus Julia, Kenjereš Saša, Ataei-Dadavi Iman, Tummers M.J., Kleijn Chris R., Assisting and opposing mixed convection with conjugate heat transfer in a differentially heated cavity filled with coarse-grained porous media, International Communications in Heat and Mass Transfer, 111, 2020. Crossref
-
Bowen Chris R., Robinson Kevin, Tian Jianhui, Zhang Meijie, Coveney Vincent A., Xia Qiulin, Lock Gary, The Emergent Behaviour of Thermal Networks and Its Impact on the Thermal Conductivity of Heterogeneous Materials and Systems, Journal of Composites Science, 4, 1, 2020. Crossref
-
Kulkarni Niraj J., Mandal Debapriya, Mathpati Channamallikarjun S., Dalvi Vishwanath H., Modeling and validation of heat transfer in packed bed with internal heat generation, Heat Transfer, 49, 5, 2020. Crossref
-
Frijns Arjan J.H., Rindt Camilo C.M., Gaastra-Nedea Silvia V., Modeling thermochemical reactions in thermal energy storage systems, in Advances in Thermal Energy Storage Systems, 2021. Crossref
-
Cayeux E, Kucs R, Gibson N, Real-Time Modelling of Drilling Using Nitrogen Enriched Mud: A Case Study, All Days, 2014. Crossref
-
Soltanipour Hossein, Pourfattah Farzad, Simultaneous use of non-uniform magnetic field and porous medium for the intensification of convection heat transfer of a magnetic nanofluid inside a tube, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 43, 10, 2021. Crossref
-
Cayeux E.. , Mesagan T.. , Tanripada S.. , Zidan M.. , Fjelde K. K., Real-Time Evaluation of Hole Cleaning Conditions Using a Transient Cuttings Transport Model, All Days, 2013. Crossref
-
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-
Cayeux E.. , Mesagan T.. , Tanripada S.. , Zidan M.. , Fjelde K.K.. K., Real-Time Evaluation of Hole-Cleaning Conditions With a Transient Cuttings-Transport Model, SPE Drilling & Completion, 29, 01, 2014. Crossref
-
Chang Chih-Chun, Brousset Thomas, Chueh Chih-Che, Bertei Antonio, Effective thermal conductivity of composite materials made of a randomly packed densified spherical phase, International Journal of Thermal Sciences, 170, 2021. Crossref
-
Ankudinov Vladimir, Gordeev Georgii A., Kharanzhevskiy Evgeniy V., Krivilyov Mikhail D., Numerical Simulation of Thermal Conductivity of Stainless Steel and Al-12Si Powders for Additive Manufacturing, Journal of Heat Transfer, 144, 5, 2022. Crossref