Scholarly Work - Center for Biofilm Engineering
Permanent URI for this collectionhttps://scholarworks.montana.edu/handle/1/9335
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Item Microbial Films and Energy Losses(1984) Characklis, William G.; Zelver, Nick; Turakhia, Mukesh HarilalFouling microbial film formation can cause significant energy losses as reflected by increased fluid frictional resistance and heat tranfer resistance. Methods to predict and monitor rate of microbial film formation and its effect on energy losses in different environments is essential for efficient design and operation of engineering systems. This paper will discuss measurement methods and their incorporation in predictive models.Item Potential for Monitoring Fouling in the Food Industry(1985) Zelver, Nick; Roe, Frank L.; Characklis, William G.Item Tube Material, Fluid Velocity, Surface Temperature and Fouling: A Field Study(1984) Zelver, Nick; Characklis, William G.; Robinson, J. R.; Roe, Frank L.; Dicic, Z.; Chapple, K. R.; Ribaudo, A.Item Influence of biofouling and biofouling control techniques on corrosion of copper-nickel tubes(1983) Characklis, William G.; Zelver, Nick; Nelson, Christopher H.; Lewis, R. O.; Dobb, David E.; Pagenkopf, G. K.Item Analysis and Monitoring of Heat Transfer Tube Fouling(1982-10) Zelver, Nick; Flandreau, J. R.; Spataro, W. H.; Chapple, K. R.; Characklis, William G.; Roe, Frank L.Item Discriminating between biofouling and scaling in a deposition monitor(1981) Zelver, Nick; Characklis, William G.; Roe, Frank L.Item Fouling in heat exchange equipment(1981) Characklis, William G.; Zelver, Nick; Turakhia, Mukesh HarilalItem Biofouling control with UV/peroxide - A laboratory study(1981) Zelver, Nick; Legan, R.; Characklis, William G.Item Energy losses in water conduits: monitoring and diagnosis(1981) Characklis, William G.; Zelver, Nick; Turakhia, Mukesh HarilalItem Biofouling film development and its effects on energy losses: a laboratory study(1980) Characklis, William G.; Bryers, James D.; Trulear, Michael Gerald; Zelver, NickExperiments on biofouling of tubes are reported. Processes leading to fouling biological film development are identified and the procedures used in the experimental work are described. Results concerning the growth of biofouling and its effects on fluid friction and heat transfer are presented.