Publication detail
Industrial validation of developed equipment for identifying the fouling capabilities of gaseous waste heat-usable process streams
DAXNER, J. BABIČKA FIALOVÁ, D. ZABLOUDIL, J. JEGLA, Z. STRAPINA, J.
English title
Industrial validation of developed equipment for identifying the fouling capabilities of gaseous waste heat-usable process streams
Type
article in a collection out of WoS and Scopus
Language
en
Original abstract
Particulate fouling in gaseous waste heat-recovery processes reduces heat transfer efficiency and increases operational costs. This paper presents the industrial validation of developed equipment, building on earlier laboratory studies, to identify and characterize fouling capabilities in diverse applications. The device enables to work with a wide range of particulate deposition rates for different types of fouling particles and operating conditions such as temperatures, flow rates, and different heat transfer surface geometries. Industrial tests on operating process streams allow real-time assessment of fouling behavior. The results confirm the equipment’s capability to capture key fouling parameters, aiding process optimization reliably. Insights from the collected data support recommendations on heat exchanger geometry and operating conditions to mitigate fouling, helping extend equipment lifespan and reduce maintenance. Results of industrial validation confirm that the device can be used as a reliable and versatile tool to help the industry make better use of waste heat, save energy, and reduce problems associated with particulate deposition.
English abstract
Particulate fouling in gaseous waste heat-recovery processes reduces heat transfer efficiency and increases operational costs. This paper presents the industrial validation of developed equipment, building on earlier laboratory studies, to identify and characterize fouling capabilities in diverse applications. The device enables to work with a wide range of particulate deposition rates for different types of fouling particles and operating conditions such as temperatures, flow rates, and different heat transfer surface geometries. Industrial tests on operating process streams allow real-time assessment of fouling behavior. The results confirm the equipment’s capability to capture key fouling parameters, aiding process optimization reliably. Insights from the collected data support recommendations on heat exchanger geometry and operating conditions to mitigate fouling, helping extend equipment lifespan and reduce maintenance. Results of industrial validation confirm that the device can be used as a reliable and versatile tool to help the industry make better use of waste heat, save energy, and reduce problems associated with particulate deposition.
Keywords in English
Flue gas, Heat exchanger, Particulate fouling, Fouling rate, Pressure drop
Released
14.05.2025
Publisher
Institute of Theoretical and Applied Mechanics of the Czech Academy of Sciences
Location
Prague
ISBN
ISBN 978-80-86246-96
Book
ENGINEERING MECHANICS 2025
Pages from–to
65–68
Pages count
224
BIBTEX
@inproceedings{BUT198256,
author="Ján {Daxner} and Dominika {Babička Fialová} and Jan {Zabloudil} and Zdeněk {Jegla} and Jiří {Strapina} and Jiří {Strapina},
title="Industrial validation of developed equipment for identifying the fouling capabilities of gaseous waste heat-usable process streams",
booktitle="ENGINEERING MECHANICS 2025",
year="2025",
month="May",
pages="65--68",
publisher="Institute of Theoretical and Applied Mechanics of the Czech Academy of Sciences",
address="Prague",
isbn="ISBN 978-80-86246-96"
}