Open Access Article
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Correction: A scalable twin surface dielectric barrier discharge system for pollution remediation at high gas flow rates
Alexander
Böddecker
*a,
Arisa
Bodnar
a,
Lars
Schücke
a,
Jonas
Giesekus
a,
Katja
Wenselau
a,
Ryan T.
Nguyen-Smith
a,
Timothy
Oppotsch
b,
Christian
Oberste-Beulmann
b,
Martin
Muhler
b,
Andrew R.
Gibson
ac and
Peter
Awakowicz
a
aInstitute of Electrical Engineering and Plasma Technology, Faculty of Electrical Engineering and Information Sciences, Ruhr University Bochum, Bochum, Germany. E-mail: boeddecker@aept.rub.de; Fax: +49234 32 14230; Tel: +49234 32 23062
bLaboratory of Industrial Chemistry (LTC), Faculty of Chemistry and Biochemistry, Ruhr University Bochum, Bochum, Germany
cResearch Group for Biomedical Plasma Technology, Faculty of Electrical Engineering and Information Sciences, Ruhr University Bochum, Bochum, Germany
First published on 16th February 2023
Abstract
Correction for ‘A scalable twin surface dielectric barrier discharge system for pollution remediation at high gas flow rates’ by Alexander Böddecker et al., React. Chem. Eng., 2022, 7, 2348–2358, https://doi.org/10.1039/D2RE00167E.
The Royal Society of Chemistry regrets that several incorrect symbols were used within the manuscript. Specifically, in Section 3.2, in the section beginning with the sentence “The highest relative conversion of (30.3…”, + was inserted in place of ± in several instances.
The corrected section is as shown below:
The highest relative conversion of (30.3 ± 0.5)% can be seen at (153.1 ± 6.7) J L−1 and (162.6 ± 7.1) slm. At higher gas flows the n-butane mass flow had to be increased for maintaining the same concentration which means that the relative conversion is decreasing, because there are more molecules to convert. For a comparison Schücke et al.21 reached a maximum conversion of (46.20 ± 3.75)% of 50 ppm of n-butane for an energy density of 423 J L−1.
The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.
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