Towards an absolute scale for adhesion strength of ship hull microfouling.

Towards an absolute scale for adhesion strength of ship hull microfouling. Biofouling. 2019 Apr 10;:1-15 Authors: Oliveira DR, Larsson L, Granhag L Abstract In-water ships' hull cleaning enables significant fuel savings through removal of marine fouling from surfaces. However, cleaning may also shorten the lifetime of hull coatings, with a subsequent increase in the colonization and growth rate of fouling organisms. Deleterious effects of cleaning would be minimized by matching cleaning forces to the adhesion strength of the early stages of fouling, or microfouling. Calibrated waterjets are routinely used to compare different coatings in terms of the adhesion strength of microfouling. However, an absolute scale is lacking for translating such results into cleaning forces, which are of interest for the design and operation of hull cleaning devices. This paper discusses how such forces can be determined using computational fluid dynamics. Semi-empirical formulae are derived for forces under immersed waterjets, where the normal and tangential components of wall forces are given as functions of different flow parameters. Nozzle translation speed is identified as a parameter for future research, as this may affect cleaning efficacy. PMID: 30966794 [PubMed - as supplied by publisher]
Source: Biofouling - Category: Molecular Biology Authors: Tags: Biofouling Source Type: research