A customized stand-alone photometric Raman sensor applicable in explosive atmospheres: a proof-of-concept study

Nachtmann, Marcel; Keck, Shaun Paul; Braun, Frank; Eckhardt, Hanns Simon; Mattolat, Christoph; Gretz, Norbert; Scholl, Stephan; Rädle, Matthias

doi:https://doi.org/10.5194/jsss-7-543-2018

Articles | Volume 7, issue 2

https://doi.org/10.5194/jsss-7-543-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Dresden Sensor Symposium 2017

https://doi.org/10.5194/jsss-7-543-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 7, issue 2

Regular research article

|

12 Oct 2018

Regular research article |

| 12 Oct 2018

A customized stand-alone photometric Raman sensor applicable in explosive atmospheres: a proof-of-concept study

Marcel Nachtmann, Shaun Paul Keck, Frank Braun, Hanns Simon Eckhardt, Christoph Mattolat, Norbert Gretz, Stephan Scholl, and Matthias Rädle

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Mar 2019	17	3	0	20
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May 2019	27	3	3	33
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Jul 2019	249	3	5	257
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Dec 2019	92	10	4	106
Jan 2020	77	8	6	91
Feb 2020	57	10	2	69
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May 2020	125	3	3	131
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Jul 2020	199	11	7	217
Aug 2020	204	6	7	217
Sep 2020	113	6	1	120
Oct 2020	30	9	0	39
Nov 2020	38	1	4	43
Dec 2020	11	8	4	23
Jan 2021	24	7	4	35
Feb 2021	18	6	3	27
Mar 2021	5	4	5	14
Apr 2021	21	7	5	33
May 2021	34	15	2	51
Jun 2021	19	7	5	31
Jul 2021	5	5	4	14
Aug 2021	13	8	1	22
Sep 2021	8	8	3	19
Oct 2021	5	15	0	20
Nov 2021	20	15	1	36
Dec 2021	19	1	1	21
Jan 2022	17	6	2	25
Feb 2022	9	5	2	16
Mar 2022	11	4	1	16
Apr 2022	8	5	0	13
May 2022	14	7	4	25
Jun 2022	11	6	3	20
Jul 2022	17	5	2	24
Aug 2022	37	3	0	40
Sep 2022	8	3	1	12
Oct 2022	14	1	2	17
Nov 2022	20	4	1	25
Dec 2022	18	7	0	25
Jan 2023	8	2	0	10
Feb 2023	7	5	0	12
Mar 2023	13	4	1	18
Apr 2023	5	3	0	8
May 2023	16	7	3	26
Jun 2023	5	6	0	11
Jul 2023	10	6	1	17
Aug 2023	5	4	5	14
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Cumulative views and downloads (calculated since 12 Oct 2018)

Month	HTML	PDF	XML	Total
Oct 2018	102	37	6	145
Nov 2018	74	13	3	90
Dec 2018	51	18	3	72
Jan 2019	37	10	3	50
Feb 2019	21	4	2	27
Mar 2019	17	3	0	20
Apr 2019	16	5	2	23
May 2019	27	3	3	33
Jun 2019	236	9	2	247
Jul 2019	249	3	5	257
Aug 2019	61	8	3	72
Sep 2019	110	5	6	121
Oct 2019	110	19	4	133
Nov 2019	177	9	1	187
Dec 2019	92	10	4	106
Jan 2020	77	8	6	91
Feb 2020	57	10	2	69
Mar 2020	45	6	6	57
Apr 2020	340	3	6	349
May 2020	125	3	3	131
Jun 2020	246	9	2	257
Jul 2020	199	11	7	217
Aug 2020	204	6	7	217
Sep 2020	113	6	1	120
Oct 2020	30	9	0	39
Nov 2020	38	1	4	43
Dec 2020	11	8	4	23
Jan 2021	24	7	4	35
Feb 2021	18	6	3	27
Mar 2021	5	4	5	14
Apr 2021	21	7	5	33
May 2021	34	15	2	51
Jun 2021	19	7	5	31
Jul 2021	5	5	4	14
Aug 2021	13	8	1	22
Sep 2021	8	8	3	19
Oct 2021	5	15	0	20
Nov 2021	20	15	1	36
Dec 2021	19	1	1	21
Jan 2022	17	6	2	25
Feb 2022	9	5	2	16
Mar 2022	11	4	1	16
Apr 2022	8	5	0	13
May 2022	14	7	4	25
Jun 2022	11	6	3	20
Jul 2022	17	5	2	24
Aug 2022	37	3	0	40
Sep 2022	8	3	1	12
Oct 2022	14	1	2	17
Nov 2022	20	4	1	25
Dec 2022	18	7	0	25
Jan 2023	8	2	0	10
Feb 2023	7	5	0	12
Mar 2023	13	4	1	18
Apr 2023	5	3	0	8
May 2023	16	7	3	26
Jun 2023	5	6	0	11
Jul 2023	10	6	1	17
Aug 2023	5	4	5	14
Sep 2023	5	2	1	8
Oct 2023	12	6	0	18
Nov 2023	8	5	3	16
Dec 2023	1	1	0	2

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Short summary

This paper presents an explosion-proof two-channel Raman photometer designed for chemical process monitoring in hazardous explosive atmospheres. Due to its design, alignment of components is simplified and economic in comparison to spectrometer systems. The described embedded sensor is ideally suited as a process analytical technology (PAT) tool for applications in environments with limitations on power input.


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A customized stand-alone photometric Raman sensor applicable in explosive atmospheres: a proof-of-concept study

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