Changes in PM<sub>2.5</sub> peat combustion source profiles with atmospheric aging in an oxidation flow reactor

Chow, Judith C.; Cao, Junji; Antony Chen, L.-W.; Wang, Xiaoliang; Wang, Qiyuan; Tian, Jie; Ho, Steven Sai Hang; Watts, Adam C.; Carlson, Tessa B.; Kohl, Steven D.; Watson, John G.

doi:10.5194/amt-12-5475-2019

Articles | Volume 12, issue 10

https://doi.org/10.5194/amt-12-5475-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/amt-12-5475-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 12, issue 10

Research article

|

17 Oct 2019

Research article |

| 17 Oct 2019

Changes in PM_2.5 peat combustion source profiles with atmospheric aging in an oxidation flow reactor

Judith C. Chow, Junji Cao, L.-W. Antony Chen, Xiaoliang Wang, Qiyuan Wang, Jie Tian, Steven Sai Hang Ho, Adam C. Watts, Tessa B. Carlson, Steven D. Kohl, and John G. Watson

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Views and downloads (calculated since 29 May 2019)

Month	HTML	PDF	XML	Total
May 2019	97	28	0	125
Jun 2019	103	21	2	126
Jul 2019	45	10	0	55
Aug 2019	36	16	2	54
Sep 2019	108	7	0	115
Oct 2019	185	65	2	252
Nov 2019	137	149	1	287
Dec 2019	31	84	0	115
Jan 2020	31	82	1	114
Feb 2020	18	42	0	60
Mar 2020	11	34	0	45
Apr 2020	13	19	0	32
May 2020	23	12	0	35
Jun 2020	21	20	0	41
Jul 2020	31	73	4	108
Aug 2020	24	21	2	47
Sep 2020	13	15	0	28
Oct 2020	13	22	3	38
Nov 2020	14	30	2	46
Dec 2020	8	20	0	28
Jan 2021	23	26	3	52
Feb 2021	9	21	0	30
Mar 2021	27	22	2	51
Apr 2021	14	16	0	30
May 2021	26	22	1	49
Jun 2021	24	14	0	38
Jul 2021	8	19	1	28
Aug 2021	13	17	0	30
Sep 2021	13	14	0	27
Oct 2021	9	46	0	55
Nov 2021	14	44	0	58
Dec 2021	23	11	1	35
Jan 2022	16	16	0	32
Feb 2022	16	42	1	59
Mar 2022	20	33	0	53
Apr 2022	18	12	1	31
May 2022	19	16	0	35
Jun 2022	9	4	1	14
Jul 2022	11	5	0	16
Aug 2022	8	17	0	25
Sep 2022	34	10	0	44
Oct 2022	32	46	1	79
Nov 2022	18	66	0	84
Dec 2022	18	67	2	87
Jan 2023	12	63	0	75
Feb 2023	23	77	2	102
Mar 2023	16	68	0	84
Apr 2023	4	70	0	74
May 2023	18	75	2	95
Jun 2023	9	63	1	73
Jul 2023	8	73	1	82
Aug 2023	13	73	2	88
Sep 2023	12	73	2	87
Oct 2023	17	72	0	89
Nov 2023	14	37	3	54
Dec 2023	13	68	1	82
Jan 2024	10	64	0	74
Feb 2024	18	14	2	34
Mar 2024	25	13	5	43
Apr 2024	21	9	4	34
May 2024	15	12	3	30
Jun 2024	30	16	3	49
Jul 2024	60	11	5	76
Aug 2024	38	13	2	53
Sep 2024	11	14	0	25
Oct 2024	13	14	0	27
Nov 2024	13	12	1	26
Dec 2024	13	14	0	27
Jan 2025	20	17	5	42
Feb 2025	26	18	5	49
Mar 2025	17	19	0	36
Apr 2025	8	20	1	29
May 2025	20	19	1	40
Jun 2025	36	23	0	59
Jul 2025	24	27	6	57
Aug 2025	41	34	6	81
Sep 2025	43	30	6	79
Oct 2025	29	22	0	51
Nov 2025	24	32	6	62
Dec 2025	34	26	7	67
Jan 2026	70	31	9	110
Feb 2026	62	20	1	83
Mar 2026	34	21	5	60
Apr 2026	4	5	1	10

Cumulative views and downloads (calculated since 29 May 2019)

Month	HTML	PDF	XML	Total
May 2019	97	28	0	125
Jun 2019	103	21	2	126
Jul 2019	45	10	0	55
Aug 2019	36	16	2	54
Sep 2019	108	7	0	115
Oct 2019	185	65	2	252
Nov 2019	137	149	1	287
Dec 2019	31	84	0	115
Jan 2020	31	82	1	114
Feb 2020	18	42	0	60
Mar 2020	11	34	0	45
Apr 2020	13	19	0	32
May 2020	23	12	0	35
Jun 2020	21	20	0	41
Jul 2020	31	73	4	108
Aug 2020	24	21	2	47
Sep 2020	13	15	0	28
Oct 2020	13	22	3	38
Nov 2020	14	30	2	46
Dec 2020	8	20	0	28
Jan 2021	23	26	3	52
Feb 2021	9	21	0	30
Mar 2021	27	22	2	51
Apr 2021	14	16	0	30
May 2021	26	22	1	49
Jun 2021	24	14	0	38
Jul 2021	8	19	1	28
Aug 2021	13	17	0	30
Sep 2021	13	14	0	27
Oct 2021	9	46	0	55
Nov 2021	14	44	0	58
Dec 2021	23	11	1	35
Jan 2022	16	16	0	32
Feb 2022	16	42	1	59
Mar 2022	20	33	0	53
Apr 2022	18	12	1	31
May 2022	19	16	0	35
Jun 2022	9	4	1	14
Jul 2022	11	5	0	16
Aug 2022	8	17	0	25
Sep 2022	34	10	0	44
Oct 2022	32	46	1	79
Nov 2022	18	66	0	84
Dec 2022	18	67	2	87
Jan 2023	12	63	0	75
Feb 2023	23	77	2	102
Mar 2023	16	68	0	84
Apr 2023	4	70	0	74
May 2023	18	75	2	95
Jun 2023	9	63	1	73
Jul 2023	8	73	1	82
Aug 2023	13	73	2	88
Sep 2023	12	73	2	87
Oct 2023	17	72	0	89
Nov 2023	14	37	3	54
Dec 2023	13	68	1	82
Jan 2024	10	64	0	74
Feb 2024	18	14	2	34
Mar 2024	25	13	5	43
Apr 2024	21	9	4	34
May 2024	15	12	3	30
Jun 2024	30	16	3	49
Jul 2024	60	11	5	76
Aug 2024	38	13	2	53
Sep 2024	11	14	0	25
Oct 2024	13	14	0	27
Nov 2024	13	12	1	26
Dec 2024	13	14	0	27
Jan 2025	20	17	5	42
Feb 2025	26	18	5	49
Mar 2025	17	19	0	36
Apr 2025	8	20	1	29
May 2025	20	19	1	40
Jun 2025	36	23	0	59
Jul 2025	24	27	6	57
Aug 2025	41	34	6	81
Sep 2025	43	30	6	79
Oct 2025	29	22	0	51
Nov 2025	24	32	6	62
Dec 2025	34	26	7	67
Jan 2026	70	31	9	110
Feb 2026	62	20	1	83
Mar 2026	34	21	5	60
Apr 2026	4	5	1	10

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Short summary

Source profiles that allow peat fire contributions to be distinguished from other source contributions using receptor models are lacking for a wide variety of peat fuels and burning conditions. These profiles change with photochemical aging during transport. Fresh and aged profiles for a variety of peat fuels are measured with an oxidation flow reactor to improve source attributions at distant receptors.


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Changes in PM2.5 peat combustion source profiles with atmospheric aging in an oxidation flow reactor

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Changes in PM_2.5 peat combustion source profiles with atmospheric aging in an oxidation flow reactor