Biofouling in canals and pipelines used for hydroelectric power generation decreases the flow capacity of conduits. A pipeline rig was designed consisting of test sections of varying substrata (PVC, painted steel) and light levels (transparent, frosted, opaque). Stalk-forming diatoms were abundant in both the frosted and transparent PVC pipes but negligible in the painted steel and opaque PVC pipes. Fungi were slightly more abundant in the painted steel pipe but equally present in all the other pipes while bacterial diversity was similar in all pipes. Photosynthetically functional biofouling (mainly diatoms) was able to develop in near darkness. Different biological fouling compositions generated differing friction factors. The highest friction factor was observed in the transparent pipe (densest diatom fouling), the lowest peak friction for the opaque PVC pipe (lowest fouling biomass), and with the painted steel pipe (high fouling biomass, but composed of fungal and bacterial crusts) being intermediate between the opaque and frosted PVC pipes.
Funding
Australian Research Council
Hydro Tasmania
History
Publication title
Biofouling
Volume
32
Issue
6
Pagination
685-697
ISSN
0892-7014
Department/School
Institute for Marine and Antarctic Studies
Publisher
Taylor & Francis Ltd
Place of publication
4 Park Square, Milton Park, Abingdon, England, Oxon, Ox14 4Rn
Rights statement
Copyright 2016 Informa UK Limited, trading as Taylor & Francis Group