D. I. Wilson scite author profile

The presence of biofouling layers on heat transfer surfaces can reduce heat transfer efficiency markedly. A new method for inhibiting biofouling growth and promoting rapid online cleaning for heat exchangers recovering thermal energy from treated sewage streams based on a temporary coating is reported. A paraffin wax coating is cast in place without needing to disassemble the device, while the low roughness and the hydrophobicity of the coating inhibit bacterial growth. The coating and any attached biofouling can be removed by raising the surface temperature above the wax melting point. The effectiveness of this online cleaning and inhibition strategy was investigated using a simple laboratory test channel, representing a plate heat exchanger, and a process stream simulating treated sewage. The thermal resistance was monitored and showed that the reduction in biofouling thermal resistance eventually outweighed the additional thermal resistance resulting from the coating. A techno-economic analysis is presented to quantify the advantages of the paraffin coating method in terms of energy saving and cost reduction.

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A study of surface fracture in paste extrusion using signal processing

Russell¹,

Blackburn

Wilson³

2006

J Mater Sci

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Modelling of starch extrusion and damage in industrial forming processes

Barsby¹,

Donald²,

Frazier³

et al.

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Management of Acute Particulate Fouling in a Titanium Dioxide Reactor System

Lister¹,

Davidson²,

Sutcliffe

et al. 2016

Heat Transfer Engineering

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D. I. Wilson

Methodology and assumptions for evaluating heating and cooling energy requirements in new single-family residential buildings: Technical support document for the PEAR (Program for Energy Analysis of Residences) microcomputer program

A New Approach for Mitigating Biofouling by Promoting Online Cleaning Using a Sacrificial Paraffin Coating

A study of surface fracture in paste extrusion using signal processing

Modelling of starch extrusion and damage in industrial forming processes

Management of Acute Particulate Fouling in a Titanium Dioxide Reactor System

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