Robert E. Wilson scite author profile

Robert E. Wilson

5Publications

193Citation Statements Received

7Citation Statements Given

How they've been cited

537

188

How they cite others

Affiliations

Imperial College London, Oregon State University, American Standard (United States)

Publications

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Humidity Control by Means of Sulfuric Acid Solutions, with Critical Compilation of Vapor Pressure Data.

Wilson¹

1921

J. Ind. Eng. Chem.

189

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tie oil comes with it, it is removed by filtering through dry filter paper. An aliquot part, depending on the salt content, is then concentrated for titration with a solution of approximately 0.05 N silver nitrate, using potassium chromate as an indicator.From these results the chlorine can be calculated, or, if previous analysis of similar brine has shown it to consist mostly of sodium chloride, it may be calculated as such.We have tested the accuracy of the method by making a re-treatment of some of the oil which had settled out after the treatment outlined above. A mere trace of chlorides could be found, thus furnishing good proof that the first treatment had effected their almost com-

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Aerodynamic performance of wind turbines. Final report

Wilson¹,

Lissaman²,

Walker³

1976

120

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Applied Aerodynamics of Wind Power Machines

Wilson¹,

Lissaman²

2018

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Fermentation Process Control, Population Dynamics of a Continuous Propagator for Microorganisms

Finn¹,

Wilson²

1954

J. Agric. Food Chem.

117

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Biofouling and in situ electrochemical cleaning of a boron-doped diamond free chlorine sensor

Wilson

Stoianov

O’Hare

2016

Electrochemistry Communications

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Biofouling presents a significant obstacle to the long-term use of electrochemical sensors in complex media. Drinking water biofilms reduce performance of sensors by insulating electrode surfaces by inter alia inhibiting mass transport. Boron-doped diamond (BDD) electrodes are relatively resistant to biofouling and inert at high potentials. These qualities can be exploited to create a drinking water quality sensor that resists biofouling to meet performance criteria for longer, and to enable electrochemical cleaning of the sensor surface in situ using high potentials without disconnecting or disassembling the sensor. A purpose-built BDD wall-jet sensor was compared with a glassy carbon (GC) sensor in ability to determine free chlorine, detect biofilm and remove biofilm in situ. It was found that the BDD produced accurate and reliable readings with a 4.86% standard error and a LOD of 0.18 ppm. The BDD could be electrochemically cleaned in situ whereas this was less successful with the GC electrode. The BDD electrode could also detect electroactive pyocyanin, secreted in the biofilm of the drinking water biofilm indicator organism Pseudomonas aeruginosa, potentially enabling biofouling and non-biological fouling such as scaling to be distinguished. Observed changes in flow sensitivity and current-voltage curves that correspond to fouling provide multiple fouling detection methods, resulting in an accurate, sensitive, water quality sensor that can be cleaned without disassembly or replacement of parts and can identify when cleaning is required

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Robert E. Wilson

Humidity Control by Means of Sulfuric Acid Solutions, with Critical Compilation of Vapor Pressure Data.

Aerodynamic performance of wind turbines. Final report

Applied Aerodynamics of Wind Power Machines

Fermentation Process Control, Population Dynamics of a Continuous Propagator for Microorganisms

Biofouling and in situ electrochemical cleaning of a boron-doped diamond free chlorine sensor

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