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Title: Numerical simulation of falling film sensible heat transfer over round horizontal tubes

Journal Article · · International Journal of Heat and Mass Transfer
ORCiD logo [1];  [1]
  1. Illinois Institute of Technology, Chicago, IL (United States)
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Numerical simulations are performed to explore the heat transfer characteristics of falling films over horizontal round tubes with uniform heat flux imposed for a range of Reynolds numbers spanning the droplet, jet, and sheet regimes. Simulations results agree well with available experimental measurements. The study analyzes the local as well as average heat transfer behavior under the different flow modes. The numerical results show that the local Nusselt number (Nu) distribution depends on the flow features in each mode and varies substantially in all directions for the respective mode. In the droplet mode, the Nu value varies significantly as the droplet impinges and the remnant liquid-bridge retracts (peak instantaneous Nu near 6), followed by wave propagation over the tube surface with peak Nu around 0.25. For the jet modes, the local maximum in the heat transfer occurs off-center to the impingement location with magnitudes of peak Nu = 3.1 for the inline jet mode and Nu = 2.7 for the staggered jet mode, while on the rest of the tube surface, it has an inverse relation with the liquid film thickness. Substantial variations in the heat transfer value are also recorded in the middle of the two impinging jets with Nu = 0.95 in the inline jet mode where the neighboring jets do not interact, and Nu = 0.60 in the crest region of the staggered jet mode where the neighboring jets interact with each other. In the sheet mode, the Nu was seen to depend on the thickness of the liquid waves traversing over the tube surface. Lower Nu values were recorded beneath the crest location of the liquid waves, which increases (1.4–11.6% depending on circumferential location) abruptly in magnitude at the advancing fronts of the waves. The temperature distribution in the liquid film in each of the modes was examined to evaluate the mechanism of heat transfer process. This study also compares the local heat transfer coefficient distribution with the analytical heat transfer models derived to predict heat transfer performance over horizontal tube surfaces.

Research Organization:
Electric Power Research Inst. (EPRI), Palo Alto, CA (United States); Illinois Institute of Technology, Chicago, IL (United States)
Sponsoring Organization:
USDOE Advanced Research Projects Agency - Energy (ARPA-E); USDOE Office of Science (SC)
Grant/Contract Number:
AR0000572; AC02-05CH11231; AC05-00OR22725
OSTI ID:
1977198
Alternate ID(s):
OSTI ID: 1961511
Journal Information:
International Journal of Heat and Mass Transfer, Vol. 190, Issue C; ISSN 0017-9310
Publisher:
ElsevierCopyright Statement
Country of Publication:
United States
Language:
English

References (46)

Numerical simulation of falling film flow hydrodynamics over round horizontal tubes journal July 2021
Flow and heat transfer characteristics of falling water film on horizontal circular and non-circular cylinders journal June 2013
Drop impact onto a liquid layer of finite thickness: Dynamics of the cavity evolution journal March 2009
Review on CFD analysis of horizontal falling film evaporators in multi effect desalination plants journal January 2019
Coupling of the Interface Tracking and the Two-Fluid Models for the Simulation of Incompressible Two-Phase Flow journal August 2001
Experimental investigation of falling film evaporation on horizontal tubes journal January 1998
Review on liquid film flow and heat transfer characteristics outside horizontal tube falling film evaporator: Cfd numerical simulation journal December 2020
Experimental investigation of R410A and R32 falling film evaporation on horizontal enhanced tubes journal June 2018
An Experimental Study of Falling Liquid Film Breakdown on a Horizontal Cylinder During Heat Transfer journal May 1980
A Study on the Laminar-flow Heat Transfer Between a Two-dimensional Water Jet and a Flat Surface with Constant Heat Flux journal January 1981
Heat Transfer Through Falling Film Evaporation and Boiling on Horizontal Tubes journal August 1990
Heat transfer correlations of refrigerant falling film evaporation on a single horizontal smooth tube journal April 2019
Heat transfer characteristics of obliquely dispensed evaporating falling films on an elliptic tube journal April 2019
Evaluating the performance of the two-phase flow solver interFoam journal January 2012
Falling film heat transfer analysis on a bank of horizontal tube evaporator journal September 1988
A comprehensive numerical study on the subcooled falling film heat transfer on a horizontal smooth tube journal April 2018
Numerical study on heat transfer of oily wastewater spray falling film over a horizontal tube in a sewage source heat pump journal October 2019
Gravity-driven flow of liquid films and droplets in horizontal tube banks journal August 2003
The spatial distribution of liquid film thickness outside the horizontal falling film tube journal November 2019
Falling-film and droplet mode heat and mass transfer in a horizontal tube LiBr/water absorber journal March 2002
Simulation of Pendant Droplets and Falling Films in Horizontal Tube Absorbers journal December 2004
Falling film evaporation and nucleate pool boiling heat transfer of R134a on the same enhanced tube journal January 2019
Pendant droplet motion for absorption on horizontal tube banks journal September 2004
Local convective heat transfer from a heated surface to an impinging, planar jet of water journal March 1991
The heat transfer performance of horizontal tube bundles in large falling film evaporators journal January 2011
Falling liquid film periodical fluctuation over a superhydrophilic horizontal tube at low spray density journal February 2020
Laminar falling film flow and heat transfer characteristics on horizontal tubes journal April 1981
A study of pool boiling and falling-film vaporization with R-245fa/oil mixtures on horizontal tubes journal April 2019
Evaporation Heat Transfer of Falling Films on Horizontal Tube. 1st Report, Analytical Study. journal January 1994
Experimental study of the local and average falling film evaporation coefficients in a horizontal enhanced tube bundle using R134a journal January 2018
Effects of tube shape on flow and heat transfer characteristics in falling film evaporation journal February 2019
Falling film evaporation in a triangular tube bundle under the influence of cross vapor stream journal April 2020
Investigation on heat transfer performance of corrugated tubes in low-temperature multi-effect falling-film evaporation journal January 2020
A continuum method for modeling surface tension journal June 1992
3-D simulation of flow behaviour and film distribution outside a horizontal tube journal April 2017
Experimental study on fluid flow and heat transfer characteristics of falling film over tube bundle journal March 2019
Insights into the local heat transfer of a submerged impinging jet: Influence of local flow acceleration and vortex-wall interaction journal December 2012
Effect of counter current airflow on film dispersion and heat transfer of evaporative falling film over a horizontal elliptical tube journal October 2019
An Analytical and Experimental Study of Falling-Film Evaporation on a Horizontal Tube journal November 1987
Evaporative cooling of a falling water film on horizontal tubes journal November 1998
Departure-site spacing for liquid droplets and jets falling between horizontal circular tubes journal April 1998
The Intertube Falling Film: Part 2—Mode Effects on Sensible Heat Transfer to a Falling Liquid Film journal August 1996
Falling-film evaporation on horizontal tubes—a critical review journal August 2005
The Intertube Falling Film: Part 1—Flow Characteristics, Mode Transitions, and Hysteresis journal August 1996
Flow and heat transfer on a flat plate normal to a two-dimensional laminar jet issuing from a nozzle of finite height journal November 1972
Physics of liquid jets journal February 2008

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42 ENGINEERING
falling film
horizontal tubes
droplet mode
jet mode
sheet mode
heat transfer
film thickness
numerical simulations
volume of fluid