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International Journal of Ambient Energy Volume 43, 2022 - Issue 1
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Research Article

Experimental and numerical investigations on the local wall heat transfer coefficient in a narrow packed bed with spheres

Surfarazhussain S. Halkarnia Department of Mechanical Engineering, Fluid Mechanics and Fluid Power Laboratory, Indian Institute of Technology Bombay, Mumbai, India;b Department of Mechanical Engineering, Heat Transfer Laboratory, SRM University-AP, Amaravati, IndiaCorrespondence[email protected]
[email protected]
,
Arunkumar Sridharana Department of Mechanical Engineering, Fluid Mechanics and Fluid Power Laboratory, Indian Institute of Technology Bombay, Mumbai, India
&
S.V. Prabhua Department of Mechanical Engineering, Fluid Mechanics and Fluid Power Laboratory, Indian Institute of Technology Bombay, Mumbai, India
Pages 5891-5916 | Received 31 May 2021, Accepted 07 Oct 2021, Published online: 19 Nov 2021

References

  • Atmakidis, T., and E. Y. Kenig. 2009. “CFD-based Analysis of the Wall Effect on the Pressure Drop in Packed Beds with Moderate Tube/Particle Diameter Ratios in the Laminar Flow Regime.” Chemical Engineering Journal 155 (1-2): 404–410.
  • Augier, F., F. Idoux, and J. Y. Delenne. 2010. “Numerical Simulations of Transfer and Transport Properties Inside Packed Beds of Spherical Particles.” Chemical Engineering Science 65 (3): 1055–1064.
  • Bai, H., J. Theuerkauf, P. A. Gillis, and P. M. Witt. 2009. “A Coupled DEM and CFD Simulation of Flow Field and Pressure Drop in Fixed bed Reactor with Randomly Packed Catalyst Particles.” Industrial and Engineering Chemistry Research 48 (8): 4060–4074.
  • Baker, M. J., and G. R. Tabor. 2010. “Computational Analysis of Transitional air Flow Through Packed Columns of Spheres Using the Finite Volume Technique.” Computers and Chemical Engineering 34 (6): 878–885.
  • Calis, H. P. A., J. Nijenhuis, B. C. Paikert, F. M. Dautzenberg, and C. M. Van den Bleek. 2001. “CFD Modeling and Experimental Validation of Pressure Drop and Flow Profile in a Novel Structured Catalytic Reactor Packing.” Chemical Engineering Science 56 (4): 1713–1720.
  • Colburn, P. Allan. 1931. ““Heat Transfer and Pressure Drop in Empty, Baffled, and Packed Tubes”, Industrial Engineering and Chemistry.” American Chemical Society Publications 23 (8): 910–913.
  • Dalman, M. T., J. H. Merkin, and C. McGreavy. 1986. “Fluid Flow and Heat Transfer Past two Spheres in a Cylindrical Tube.” Computers and Fluids 14: 267–281.
  • Dekhthyar, R. A., D. Sikovsky, A. V. Gorin, and V. A. Mukhin. 2002. “Heat Transfer in a Packed Bed at Moderate Valuesof the Reynolds Number.” High Temperature Translated from Teplofizika Vysokikh Temperature - Russian Copyright 40 (5): 693–700.
  • Derkx, O. R., and A. G. Dixon. 1996. “Determination of the Fixed Bed Wall Heat Transfer Coefficient Using Computational Fluid Dynamics.” Numerical Heat Transfer, Part A: Applications 29 (8): 777–794.
  • Dixon, A. G., and M. Nijemeisland. 2001. “CFD as a Design Tool for Fixed-bed Reactors.” Industrial and Engineering Chemistry Research 40: 5246–5254.
  • Dixon, A. G., M. Nijemeisland, and E. Stitt Hugh. 2013. “Systematic Mesh Development for 3D CFD Simulation of Fixed Beds: Contact Points Study.” Computers and Chemical Engineering 48: 135–153.
  • Energy market and Power Generation brochure. 2016. Kelvion Heat Exchangers.
  • Eppinger, T., K. Seidler, and M. Kraume. 2011. “DEM-CFD Simulations of Fixed bed Reactors with Small Tube to Particle Diameter Ratios.” Chemical Engineering Journal 166: 324–331.
  • Giese, M., K. Rottschaefer, and D. Vortmeyer. 1998. “Measured and Modeled Superficial Flow Profiles in Packed Beds with Liquid Flow.” AIChE Journal 44(2): 484–490.
  • Global Industry Analysts. 2016. Continued Weakness in Post-Recession Global Growth Creates Intramarket Demand Irregularities for Heat Exchangers, 1–2.
  • Gunjal, P. R., V. V. Ranade, and R. V. Chaudhari. 2005. “Computational Study of a Singlephase Flow in Packed Beds of Spheres.” AIChE Journal 51 (2): 365–378.
  • Halkarni, S. S. 2018. “Fluid Flow and Heat Transfer Characteristics in a Packed bed with Randomly Packed Particles.” (Doctoral Thesis). Indian Institute of Technology Bombay (IIT Bombay).
  • Halkarni, S. S., A. Sridharan, and S. V. Prabhu. 2017. “Measurement of Local Wall Heat Transfer Coefficient in Randomly Packed Beds of Uniform Sized Spheres Using Infrared Thermography (IR) and Water as Working Medium.” Applied Thermal Engineering 126: 358–378.
  • Hardik, B. K., P. K. Baburajan, and S. V. Prabhu. 2015. “Local Heat Transfer Coefficient in Helical Coils with Single Phase Flow.” International Journal of Heat and Mass Transfer 89: 522–538.
  • Incropera, F. P., D. P. Dewitt, T. L. Bergman, and A. S. Lavine. 2007. Fundamentals of Heat and Mass Transfer. New York: John Wiley and Sons.
  • Jafari, A., P. Zamankhan, S. M. Mousavi, and K. Pietarinen. 2008. “Modeling and CFD Simulation of Flow Behavior and Dispersivity Through Randomly Packed bed Reactors.” Chemical Engineering Journal 144 (3): 476–482.
  • Latifi, M. A., N. Midoux, and A. Storck. 1989. “The use of Microelectrodes in the Study of Flow Regimes in a Packed Reactor with Single Phase Liquid Flow.” Chemical Engineering Sciences 44: 2501–2508.
  • Leva, Max. 1947. “Heat Transfer to Gases Through Packed Tubes.” Industrial Engineering and Chemistry 39 (7): 857–862.
  • Leva, Max, and Milton Grummer. 1948. “Heat Transfer to Gases Through Packed Tubes.” Industrial Engineering and Chemistry 40 (3): 415–419.
  • Logtenberg, S. A., and A. G. Dixon. 1998. “Computational Fluid Dynamics of Fixed bed Heat Transfer.” Chemical Engineering and Processing: Process Intensification 37: 7–21.
  • Lopes, R. J. G., and R. M. Quinta-Ferreira. 2009. “Numerical Simulation of Trickle bed Reactor Hydrodynamics with RANS-Based Models Using a Volume of Fluid Technique.” Industrial and Engineering Chemistry Research 48 (4): 1740–1748.
  • Mickey, H. S., K. A. Smith, and E. I. Korchak. 1965. “Fluid Flow in Packed Beds.” Chemical Engineering Sciences 20: 237–246.
  • Moffat, R. J. 1985. “Using Uncertainty Analysis in the Planning of an Experiment.” Journal of Fluids Engineering 107: 173–178.
  • Nijemeisland, M., and A. G. Dixon. 2001. “Comparison of CFD Simulations to Experiment for Convective Heat Transfer in a gas-Solid Fixed bed.” Chemical Engineering Journal 82: 231–246.
  • Perry, A. E., and M. S. Chong. 1987. “A Description of Eddying Motions and Flow Patterns Using Critical-Point Concepts.” Annual Review of Fluid Mechanics 19: 125–155.
  • Reddy, R. K., and J. B. Joshi. 2008. “CFD Modeling of Pressure Drop and Drag Coefficient in Fixed and Expanded Beds.” Chemical Engineering Research and Design 86: 444–453.
  • Romkes, S. J. P., F. M. Dautzenberg, C. M. Van den Bleek, and H. P. A. Calis. 2003. “CFD Modelling and Experimental Validation of Particle-to-Fluid Mass and Heat Transfer in a Packed bed at Very low Channel to Particle Diameter Ratio.” Chemical Engineering Journal 96: 3–13.
  • Schumacher, R. 1949. Erdol u Kohle 2: 189.
  • Seguin, D., A. Montillet, J. Comiti, and F. Huet. 1998. “Experimental Characterization of Flow Regimes in Various Porous Media II: Transition to Turbulent Regime.” Chemical Engineering Science 53 (22): 3897–3909.
  • Soleymani, A., I. Turunen, H. Yousefi, and D. Bastani. 2007. “Numerical Investigations of Fluid Flow and Lateral Fluid Dispersion in Bounded Granular Beds in a Cylindrical Coordinates System.” Chemical Engineering and Technology 30: 1369–1375.
  • Suekane, T., Y. Yokouchi, and S. Hirai. 2003. “Inertial Flow Structures in a Simple Packed Bed of Spheres”, Fluid Mechanics and Transport Phenomena.” AIChE Journal 49: 10–17.
  • Varahasamy, M., and R. M. Fand. 1996. “Heat Transfer by Forced Convection in Pipes Packed with Porous Media Whose Matrices are Composed of Spheres.” International Journal of Heat and Mass Transfer 39 (18): 3931–3947.

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