Water Resources and Industry (Dec 2018)

In-plant real-time manufacturing water content characterisation

  • D. Patrick Webb,
  • George Skouteris,
  • Shahin Rahimifard

Journal volume & issue
Vol. 20
pp. 37 – 45

Abstract

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To trial the concept of in-plant real-time manufacturing water content characterisation, a commercial optical system for measuring light absorption and backscatter intensity was used with samples of food industry wastewater, and the results compared with conventional laboratory based water analysis. It is shown that the instrumentation is capable of coping with the range of turbidities presented by the wastewater and that there is some correlation between the absorption and backscatter measurements with the conventional parameters COD and TSS. It is suggested that combining backscatter and absorption data may provide an optical fingerprint of effluent that can be used as a management parameter, for example to identify unexpected contamination events. Potential uses of the instrumentation are discussed, including to provide rapid feedback on effects of system changes on effluent production, and in a feedback control loop to allow reuse of water without compromising product safety. Keywords: Industrial water sustainability, Food industry, Water quality, In-line instrumentation, Turbidity, Optical fingerprint