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A conceptual basis for surveying fouling communities at exposed and protected sites at sea: Feasible designs with exchangeable test bodies for in-situ biofouling collection

Authors :
Isbert, W
Lindemann, C
Lemburg, J
Littmann, M
Tegethoff, K
Goseberg, N
Durst, S
Schürenkamp, D
Buck, BH
Isbert, W
Lindemann, C
Lemburg, J
Littmann, M
Tegethoff, K
Goseberg, N
Durst, S
Schürenkamp, D
Buck, BH
Source :
EPIC3Applied Ocean Research, Elsevier, 136, pp. 103572-103572, ISSN: 0141-1187
Publication Year :
2023

Abstract

The enhanced inertia load caused by biofouling on device components, such as the foundations of wind turbines or other structures at sea, modifies the hydrodynamic properties, and increases the stress to structures, predominantly in upper water layers with high impact from wave dynamics. This compromises the stability, functioning, operation as well as the durability of these devices especially in exposed environments. A main challenge is the quantification of the impact of hydrodynamic forces on irregular bodies being overgrown by soft- and hard-bodied biofouling organisms. Therefore, test bodies from the upper 1–5 m water depth and thus exposed to the strongest wave actions close to the surface shall be overgrown by biofouling and used in measurement trials in a wave and current flume. These measurements shall shed light on the varying roughness and its influence on the load bearing capacity of foundation piles. Consequently, the main aims of the present work were the development of two independent test stations as holding devices for artificial test bodies for the collection of biofouling organisms during field studies: a carrying unit floating at the surface in an exposed area (System A) and a sampling device with access from a land-based facility (System B). Both systems are relatively easy to access, exhibit straightforward handling, and are reasonable cost-effective. A Test Body Support Unit (TBSU, System A) was designed and mounted on a spare buoy to carry the test bodies (cylinders), which serve as substrate for the fouling. The system was sufficiently robust to withstand several periods of rough sea conditions over the first two years. This system can only be accessed by vessels. System B (MareLift) provided the robustness and functionality needed for areas exhibiting harsh conditions but can be operated from land. The here used test bodies (steel panels) exhibited a sound basis for the monitoring of succession processes in the biofouling development. Syst

Details

Database :
OAIster
Journal :
EPIC3Applied Ocean Research, Elsevier, 136, pp. 103572-103572, ISSN: 0141-1187
Notes :
application/pdf
Publication Type :
Electronic Resource
Accession number :
edsoai.on1449535545
Document Type :
Electronic Resource