Application of intensified heat transfer for the retrofit of heat exchanger network

Yufei Wang, Ming Pan, Igor Bulatov, Robin Smith, Jin Kuk Kim

    Research output: Contribution to journalArticlepeer-review

    Abstract

    A number of design methods have been proposed for the retrofit of heat exchanger networks (HEN) during the last three decades. Although considerable potential for energy savings can be identified from conventional retrofit approaches, the proposed solutions have rarely been adopted in practice, due to significant topology modifications required and resulting engineering complexities during implementation. The intensification of heat transfer for conventional shell-and-tube heat exchangers can eliminate the difficulties of implementing retrofit in HEN which are commonly restricted by topology, safety and maintenance constraints, and includes high capital costs for replacing equipment and pipelines. This paper presents a novel design approach to solve HEN retrofit problems based on heat transfer enhancement. A mathematical model has been developed to evaluate shell-and-tube heat exchanger performances, with which heat-transfer coefficients and pressure drops for both fluids in tube and shell sides are obtained. The developed models have been compared with the Bell-Delaware, simplified Tinker and Wills-Johnston methods and tested with the HTRI® and HEXTRAN® software packages. This demonstrates that the new model is much simpler but can give reliable results in most cases. For the debottlenecking of HEN, four heuristic rules are proposed to identify the most appropriate heat exchangers requiring heat transfer enhancements in the HEN. The application of this new design approach allows a significant improvement in energy recovery without fundamental structural modifications to the network. © 2011 Elsevier Ltd.
    Original languageEnglish
    Pages (from-to)45-59
    Number of pages14
    JournalApplied Energy
    Volume89
    Issue number1
    DOIs
    Publication statusPublished - Jan 2012

    Keywords

    • Heat exchanger model
    • Heat exchanger network (HEN)
    • Heat transfer enhancement (HTE)
    • Heuristics
    • Retrofit

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