Portable calibrator for NO based on the photolysis of N2O and a combined NO2∕NO∕O3 source for field calibrations of air pollution monitors

Birks, John W.; Turnipseed, Andrew A.; Andersen, Peter C.; Williford, Craig J.; Strunk, Stanley; Carpenter, Brian; Ennis, Christine A.

doi:https://doi.org/10.5194/amt-13-1001-2020

Articles | Volume 13, issue 2

https://doi.org/10.5194/amt-13-1001-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/amt-13-1001-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 13, issue 2

Research article

|

03 Mar 2020

Research article |

| 03 Mar 2020

Portable calibrator for NO based on the photolysis of N₂O and a combined NO₂∕NO∕O₃ source for field calibrations of air pollution monitors

John W. Birks, Andrew A. Turnipseed, Peter C. Andersen, Craig J. Williford, Stanley Strunk, Brian Carpenter, and Christine A. Ennis

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Views and downloads (calculated since 05 Nov 2019)

Month	HTML	PDF	XML	Total
Nov 2019	181	49	3	233
Dec 2019	83	11	0	94
Jan 2020	16	5	0	21
Feb 2020	3	7	0	10
Mar 2020	180	52	6	238
Apr 2020	30	13	0	43
May 2020	22	11	0	33
Jun 2020	21	14	0	35
Jul 2020	72	23	4	99
Aug 2020	58	10	3	71
Sep 2020	37	8	0	45
Oct 2020	13	12	1	26
Nov 2020	18	8	0	26
Dec 2020	17	15	0	32
Jan 2021	21	8	0	29
Feb 2021	25	14	0	39
Mar 2021	25	12	0	37
Apr 2021	30	14	2	46
May 2021	33	8	1	42
Jun 2021	30	6	0	36
Jul 2021	27	15	1	43
Aug 2021	31	12	1	44
Sep 2021	24	6	0	30
Oct 2021	13	34	0	47
Nov 2021	15	31	4	50
Dec 2021	26	10	0	36
Jan 2022	9	7	0	16
Feb 2022	16	4	0	20
Mar 2022	9	6	1	16
Apr 2022	11	6	1	18
May 2022	11	6	2	19
Jun 2022	10	4	1	15
Jul 2022	24	0	24
Aug 2022	30	4	0	34
Sep 2022	21	2	0	23
Oct 2022	10	3	1	14
Nov 2022	18	7	1	26
Dec 2022	11	10	2	23
Jan 2023	8	9	0	17
Feb 2023	18	12	1	31
Mar 2023	25	5	0	30
Apr 2023	11	4	0	15
May 2023	12	8	0	20
Jun 2023	13	6	2	21
Jul 2023	7	4	0	11
Aug 2023	15	6	2	23
Sep 2023	11	13	2	26
Oct 2023	13	9	0	22
Nov 2023	3	10	0	13
Dec 2023	13	2	1	16
Jan 2024	28	5	0	33
Feb 2024	6	7	2	15
Mar 2024	12	15	4	31
Apr 2024	9	4	0	13

Cumulative views and downloads (calculated since 05 Nov 2019)

Month	HTML	PDF	XML	Total
Nov 2019	181	49	3	233
Dec 2019	83	11	0	94
Jan 2020	16	5	0	21
Feb 2020	3	7	0	10
Mar 2020	180	52	6	238
Apr 2020	30	13	0	43
May 2020	22	11	0	33
Jun 2020	21	14	0	35
Jul 2020	72	23	4	99
Aug 2020	58	10	3	71
Sep 2020	37	8	0	45
Oct 2020	13	12	1	26
Nov 2020	18	8	0	26
Dec 2020	17	15	0	32
Jan 2021	21	8	0	29
Feb 2021	25	14	0	39
Mar 2021	25	12	0	37
Apr 2021	30	14	2	46
May 2021	33	8	1	42
Jun 2021	30	6	0	36
Jul 2021	27	15	1	43
Aug 2021	31	12	1	44
Sep 2021	24	6	0	30
Oct 2021	13	34	0	47
Nov 2021	15	31	4	50
Dec 2021	26	10	0	36
Jan 2022	9	7	0	16
Feb 2022	16	4	0	20
Mar 2022	9	6	1	16
Apr 2022	11	6	1	18
May 2022	11	6	2	19
Jun 2022	10	4	1	15
Jul 2022	24	0	24
Aug 2022	30	4	0	34
Sep 2022	21	2	0	23
Oct 2022	10	3	1	14
Nov 2022	18	7	1	26
Dec 2022	11	10	2	23
Jan 2023	8	9	0	17
Feb 2023	18	12	1	31
Mar 2023	25	5	0	30
Apr 2023	11	4	0	15
May 2023	12	8	0	20
Jun 2023	13	6	2	21
Jul 2023	7	4	0	11
Aug 2023	15	6	2	23
Sep 2023	11	13	2	26
Oct 2023	13	9	0	22
Nov 2023	3	10	0	13
Dec 2023	13	2	1	16
Jan 2024	28	5	0	33
Feb 2024	6	7	2	15
Mar 2024	12	15	4	31
Apr 2024	9	4	0	13

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Short summary

We describe a portable calibration source of nitric oxide (NO) based on the photolysis of nitrous oxide. Combining this with a previous photolytic ozone (O₃) source yields a calibrator that produces known mixing ratios of NO, O₃, and nitrogen dioxide (NO₂); NO₂ is produced by the reaction of NO with O₃. This portable NO₂/NO/O₃ calibration source requires no external gas cylinders and can be used as a standard to calibrate O₃ and NO_x air pollution monitors in the field.