Development of a small-scale test facility for effectiveness evaluation of fixed-bed regenerators

Easwaran N. Krishnan, Hadi Ramin, Mohsen Shakouri, Lee D. Wilson, Carey J. Simonson

Research output: Contribution to journalArticlepeer-review

21 Scopus citations

Abstract

Fixed-bed regenerators (FBR) transfer heat (and moisture) between supply and exhaust air streams in heating, ventilating and air conditioning (HVAC) systems to reduce building energy consumption. This paper presents a new small-scale testing facility to evaluate the performance (i.e. sensible effectiveness) of FBRs for HVAC applications. The major contributions of this paper are: development of a new small-scale experimental facility and methodology for testing FBRs, quantification of uncertainties, and verification of small-scale test data over a large range of FBR design conditions. A numerical model and two well-known design correlations are used to verify the results and testing methodology. The advantages of small-scale testing are that it requires low volume of conditioned airflow, has low uncertainty, requires less exchanger material and has a low cost per test. Moreover, the small-scale testing methodology of FBR would benefit heat exchanger manufacturers to perform detailed sensitivity studies and optimize the exchanger performance over a wide range of design and operating parameters prior to the fabrication of full-scale exchangers.

Original languageEnglish
Article number115263
JournalApplied Thermal Engineering
Volume174
DOIs
StatePublished - Jun 25 2020
Externally publishedYes

Funding

Financial support from the College of Engineering and Postdoctoral Studies of the University of Saskatchewan, National Science and Engineering Research Council ( NSERC ), Canada, Tempeff North America Inc., Winnipeg, Canada (Project No: 533225-18) and the Government of Saskatchewan (Agriculture Development Fund, Project No: 20160266) are gratefully acknowledged. The support provided by Hayden Reitenbach and Shawn Reinink (Department of Mechanical Engineering, University of Saskatchewan) are also greatly appreciated. Financial support from the College of Engineering and Postdoctoral Studies of the University of Saskatchewan, National Science and Engineering Research Council (NSERC), Canada, Tempeff North America Inc. Winnipeg, Canada (Project No: 533225-18) and the Government of Saskatchewan (Agriculture Development Fund, Project No: 20160266) are gratefully acknowledged. The support provided by Hayden Reitenbach and Shawn Reinink (Department of Mechanical Engineering, University of Saskatchewan) are also greatly appreciated.

FundersFunder number
Canada
Department of Mechanical Engineering, University of Saskatchewan
Government of Saskatchewan20160266
Hayden Reitenbach and Shawn Reinink
Tempeff North America Inc.533225-18
University of Saskatchewan
Natural Sciences and Engineering Research Council of Canada

    Keywords

    • Fixed-bed regenerators
    • HVAC
    • Heat recovery
    • Performance testing
    • Sensible effectiveness

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