Sea-spray measurement tools and technique employed in marine icing field expeditions: A critical literature review and assessment using CFD simulations
Permanent lenke
https://hdl.handle.net/10037/32202Dato
2023-09-24Type
Journal articleTidsskriftartikkel
Peer reviewed
Forfatter
Dhar, Sushmit; Naseri, Masoud; Khawaja, Hassan Abbas; Samuelsen, Eirik Mikal; Edvardsen, Kåre; Barabady, JavadSammendrag
Sea-spray icing resulting from sea spray droplets accreting on exposed surfaces poses a significant safety concern
for vessels and marine structures operating in cold climate regions. One of the key parameters determining the
amount of ice accretion is the quantity of incoming sea spray, which eventually comes in contact with the
structure in the presence of brine film freezing temperature. Hence, to develop marine icing estimation models,
researchers have been inclined towards conducting field measurements to acquire data on sea spray and its key
characteristics, such as liquid water content (LWC, mass of spray water per unit volume of air), spray frequency
and duration, and droplet size distribution. This paper provides a critical review of various techniques used by
researchers for sea spray field measurements. By employing Computational Fluid Dynamics (CFD) simulation,
this paper also evaluates the performance of instruments for measuring sea-spray flux employed in such field
campaigns. Design issues and potential areas for improvement are identified and discussed, based on which
further recommendations for improvement of sea spray data collection are provided. The study provides valuable
insights for researchers planning field measurement expeditions and exploring viable options to design an efficient system for collecting sea spray data.
Forlag
ElsevierSitering
Dhar S, Naseri N, Khawaja HA, Samuelsen EMS, Edvardsen K, Barabady J. Sea-spray measurement tools and technique employed in marine icing field expeditions: A critical literature review and assessment using CFD simulations. Cold Regions Science and Technology. 2023Metadata
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