Post on 10-Jun-2020
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Engage CFD analysis to prevent and resolve your heat exchanger issuesComputational fluid dynamics (CFD) analysis is one of the most successful methods of solving heat exchanger problems.
HTRI e�ectively uses CFD simulation in its research and contract projects to improve heat exchanger performance for customers worldwide. CFD studies can assist in the design stage to identify potential problems, as well as resolve operational issues afterthe exchanger is in service.
COMPUTATIONAL FLUID DYNAMICS
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Velocity magnitude and direction through air-cooled heat exchanger
Temperature and flow direction during heating of Alta-Vis oil
Problem resolved CFD analysis
Maldistribution Detailed flow velocities and temperature distribution across the exchanger bundle
Bundle dryout resulting Kettle circulation and vapor in decreased heat transfer fraction profiles
Potential fouling Extent of flow stagnation regions, local shear stress
Poor utilization of allowable Pressure gradient pressure drop
Shortened equipment Shear and pressure forces life cycle on components
Flow maldistribution and Flow profile in header excessive pressure drop or channel
Low cost-to-benefit ratio Heat flux and pressure dropfor heat transfer of enhanced geometries enhancement techniques
Excessive tube vibration Flow distribution in tube bundles, actual 3D velocity profile for annular distributor or impingement device
Lower performance Distribution of shellside flow due to bypassing
How we can help
PROPRIETARYCONTRACTS
201908HTRI and the HTRI logo are registered trademarks of Heat Transfer Research, Inc. All rights reserved.
Heat Transfer Research, Inc.+1.979.690.5050 • www.htri.net
Contours of (a) static pressure and (b) velocity magnitude
Contours of void fraction
Contours of heat transfer coe�cient
(a) (b)
Liquid
Vapor
Vaporpathlines
Liquid path lines
HTRI’s personal approachOur researchers meticulously review your problem from every angle and utilize state-of-the-art analysis tools to
■ outline an e�cient computational modeling approach
■ define simulation boundary and initial conditions and outputs
■ generate a mesh consistent with the computational approach
■ simulate the case with appropriate software packages, including those with multiphysics capabilities
■ post-process the results and prepare a comprehensive report containing your engineering solution
We leverage our research results to expand the evaluation scope of your problem. We can quickly formulate an e�ective solution, as meshing approaches and validation cases have already been completed.
HTRI engineers and analysts are familiar with geometry and thermal-hydraulic phenomena and can rapidly apply their hands-on skills and experience to customer challenges.
Contact us today!
Email contracts@htri.net to learn more about how our Proprietary Contracts group can help with your next project.
Contours of out-of-plane vorticity