Forecasting the regional fire radiative power for regularly ignited vegetation fires

Partanen, Tero M.; Sofiev, Mikhail

doi:https://doi.org/10.5194/nhess-22-1335-2022

Articles | Volume 22, issue 4

https://doi.org/10.5194/nhess-22-1335-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

The role of fire in the Earth system: understanding interactions...

https://doi.org/10.5194/nhess-22-1335-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 22, issue 4

Research article

|

13 Apr 2022

Research article |

| 13 Apr 2022

Forecasting the regional fire radiative power for regularly ignited vegetation fires

Tero M. Partanen and Mikhail Sofiev

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Total article views: 2,580 (including HTML, PDF, and XML)

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Views and downloads (calculated since 15 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	138	19	3	160
Oct 2021	95	18	4	117
Nov 2021	25	15	5	45
Dec 2021	34	18	5	57
Jan 2022	18	5	0	23
Feb 2022	20	3	0	23
Mar 2022	19	6	2	27
Apr 2022	180	43	2	225
May 2022	88	21	3	112
Jun 2022	30	15	1	46
Jul 2022	33	16	1	50
Aug 2022	50	18	0	68
Sep 2022	22	15	0	37
Oct 2022	28	7	1	36
Nov 2022	35	12	0	47
Dec 2022	27	22	3	52
Jan 2023	27	19	1	47
Feb 2023	16	14	1	31
Mar 2023	21	18	2	41
Apr 2023	13	23	0	36
May 2023	16	21	5	42
Jun 2023	27	17	0	44
Jul 2023	30	21	3	54
Aug 2023	25	22	3	50
Sep 2023	20	10	1	31
Oct 2023	26	21	2	49
Nov 2023	17	2	0	19
Dec 2023	17	9	1	27
Jan 2024	74	9	0	83
Feb 2024	20	17	4	41
Mar 2024	27	16	1	44
Apr 2024	36	54	1	91
May 2024	35	13	4	52
Jun 2024	72	17	2	91
Jul 2024	28	13	7	48
Aug 2024	31	13	4	48
Sep 2024	62	18	5	85
Oct 2024	54	11	1	66
Nov 2024	10	6	2	18
Dec 2024	18	12	0	30
Jan 2025	20	14	0	34
Feb 2025	19	12	1	32
Mar 2025	33	8	0	41
Apr 2025	25	15	0	40
May 2025	27	8	2	37
Jun 2025	41	29	4	74
Jul 2025	22	6	1	29

Cumulative views and downloads (calculated since 15 Sep 2021)

Month	HTML	PDF	XML	Total
Sep 2021	138	19	3	160
Oct 2021	95	18	4	117
Nov 2021	25	15	5	45
Dec 2021	34	18	5	57
Jan 2022	18	5	0	23
Feb 2022	20	3	0	23
Mar 2022	19	6	2	27
Apr 2022	180	43	2	225
May 2022	88	21	3	112
Jun 2022	30	15	1	46
Jul 2022	33	16	1	50
Aug 2022	50	18	0	68
Sep 2022	22	15	0	37
Oct 2022	28	7	1	36
Nov 2022	35	12	0	47
Dec 2022	27	22	3	52
Jan 2023	27	19	1	47
Feb 2023	16	14	1	31
Mar 2023	21	18	2	41
Apr 2023	13	23	0	36
May 2023	16	21	5	42
Jun 2023	27	17	0	44
Jul 2023	30	21	3	54
Aug 2023	25	22	3	50
Sep 2023	20	10	1	31
Oct 2023	26	21	2	49
Nov 2023	17	2	0	19
Dec 2023	17	9	1	27
Jan 2024	74	9	0	83
Feb 2024	20	17	4	41
Mar 2024	27	16	1	44
Apr 2024	36	54	1	91
May 2024	35	13	4	52
Jun 2024	72	17	2	91
Jul 2024	28	13	7	48
Aug 2024	31	13	4	48
Sep 2024	62	18	5	85
Oct 2024	54	11	1	66
Nov 2024	10	6	2	18
Dec 2024	18	12	0	30
Jan 2025	20	14	0	34
Feb 2025	19	12	1	32
Mar 2025	33	8	0	41
Apr 2025	25	15	0	40
May 2025	27	8	2	37
Jun 2025	41	29	4	74
Jul 2025	22	6	1	29

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Total article views: 2,580 (including HTML, PDF, and XML) Thereof 2,455 with geography defined and 125 with unknown origin.

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Short summary

The presented method aims to forecast regional wildfire-emitted radiative power in a time-dependent manner several days in advance. The temporal fire radiative power can be converted to an emission production rate, which can be implemented in air quality forecasting simulations. It is shown that in areas with a high incidence of wildfires, the fire radiative power is quite predictable, but otherwise it is not.

Forecasting the regional fire radiative power for regularly ignited vegetation fires

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3 citations as recorded by crossref.

3 citations as recorded by crossref.


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