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Detail publikace
Klemeš, J.J., Wang, Q.W., Varbanov, P.S., Zeng, M., Chin, H.H., Lal, N.S., Li, N.Q., Wang, B., Wang, X.C., Walmsley, T.G.
Originální název
Heat transfer enhancement, intensification and optimisation in heat exchanger network retrofit and operation
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
angličtina
Originální abstrakt
The improvement of heat recovery in the industry has traditionally been approached from two different viewpoints - Process Intensification and Process Integration. Many of the developments took the form of Heat Transfer Enhancement or Heat Integration within Heat Exchanger Networks, developing in parallel. In the past decade, however, there have been successful applications of both approaches together, resulting in cost benefits for heat-integrated retrofits. Heat Integration literature has continued to provide a variety of network modelling and retrofit approaches. Recent reviews of the area show that the mathematical-based and thermodynamic-based approaches have reached maturity within the current modelling paradigm. There are indications that the modelling concepts and frameworks need a further step-change to bridge the gap between the solutions to heat recovery problems offered by the current methods and the practical implementation in terms of real retrofit actions, leading to economically feasible reduction of energy use and emissions. The current paper takes these indications as a departure point and reviews the history and the recent developments in the areas of Heat Transfer Enhancement and the retrofit of Heat Exchanger Networks, providing a critical analysis from the viewpoint of obtaining practical solutions with positive cash flows, while minimising the issues related to operability - emissions, flexible operation and control. The analysis clearly shows the need to focus future research and development efforts on increasing model fidelity and practicality, addressing operability issues, and most importantly - development of flexible and efficient tools for communicating optimisation results to industrial practitioners and plant managers who would implement the process retrofit recommendations.
Klíčová slova
Heat exchanger; Heat transfer enhancement; Heat exchanger network; Energy retrofit; Process integration; Process intensification; ARTIFICIAL NEURAL-NETWORKS; RESILIENT PROCESSING PLANTS; PRESSURE-DROP CORRELATIONS; MODEL-PREDICTIVE CONTROL; FLOW-RATE DISTRIBUTION; TWISTED-TAPE INSERTS; SHELL-SIDE; PINCH ANALYSIS; MULTIOBJECTIVE OPTIMIZATION; OPERABILITY CONSIDERATIONS
Autoři
Vydáno
1. 3. 2020
Nakladatel
PERGAMON-ELSEVIER SCIENCE LTD, THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND
ISSN
1364-0321
Periodikum
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
Číslo
120
Stát
Spojené státy americké
Strany od
109644
Strany do
109653
Strany počet
31
URL
https://www.sciencedirect.com/science/article/abs/pii/S1364032119308512?via%3Dihub
BibTex
@article{BUT163342, author="Jiří {Klemeš} and Petar Sabev {Varbanov} and Hon Huin {Chin} and Bohong {Wang} and Xuechao {Wang} and Timothy Gordon {Walmsley}", title="Heat transfer enhancement, intensification and optimisation in heat exchanger network retrofit and operation", journal="RENEWABLE & SUSTAINABLE ENERGY REVIEWS", year="2020", number="120", pages="109644--109653", doi="10.1016/j.rser.2019.109644", issn="1364-0321", url="https://www.sciencedirect.com/science/article/abs/pii/S1364032119308512?via%3Dihub" }