The effects of sea spray and atmosphere–wave coupling on air–sea exchange during a tropical cyclone

Garg, Nikhil; Ng, Eddie Yin Kwee; Narasimalu, Srikanth

doi:10.5194/acp-18-6001-2018

Articles | Volume 18, issue 8

https://doi.org/10.5194/acp-18-6001-2018

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

https://doi.org/10.5194/acp-18-6001-2018

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

Articles | Volume 18, issue 8

Research article

|

27 Apr 2018

Research article |

| 27 Apr 2018

The effects of sea spray and atmosphere–wave coupling on air–sea exchange during a tropical cyclone

Nikhil Garg, Eddie Yin Kwee Ng, and Srikanth Narasimalu

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Feb 2018	14	5	2	21
Mar 2018	18	6	0	24
Apr 2018	110	25	5	140
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Sep 2019	5	9	0	14
Oct 2019	16	19	0	35
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Dec 2019	8	8	0	16
Jan 2020	8	4	0	12
Feb 2020	12	4	1	17
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Apr 2020	13	19	1	33
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Jun 2024	21	7	9	37
Jul 2024	407	13	0	420
Aug 2024	24	13	4	41
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Oct 2024	28	19	0	47
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Dec 2024	33	8	2	43
Jan 2025	20	15	1	36
Feb 2025	26	13	2	41
Mar 2025	16	7	1	24
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May 2025	52	10	5	67
Jun 2025	48	33	0	81
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Aug 2025	26	18	1	45
Sep 2025	25	17	1	43
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Nov 2025	162	22	4	188
Dec 2025	4	2	0	6

Cumulative views and downloads (calculated since 05 Oct 2017)

Month	HTML	PDF	XML	Total
Oct 2017	149	34	4	187
Nov 2017	19	8	0	27
Dec 2017	14	8	1	23
Jan 2018	14	5	1	20
Feb 2018	14	5	2	21
Mar 2018	18	6	0	24
Apr 2018	110	25	5	140
May 2018	92	43	7	142
Jun 2018	25	13	0	38
Jul 2018	18	16	0	34
Aug 2018	16	12	0	28
Sep 2018	25	22	0	47
Oct 2018	13	16	2	31
Nov 2018	15	23	0	38
Dec 2018	10	9	2	21
Jan 2019	12	13	1	26
Feb 2019	11	17	0	28
Mar 2019	5	9	0	14
Apr 2019	11	16	0	27
May 2019	12	12	0	24
Jun 2019	25	14	0	39
Jul 2019	10	11	0	21
Aug 2019	8	9	0	17
Sep 2019	5	9	0	14
Oct 2019	16	19	0	35
Nov 2019	3	5	0	8
Dec 2019	8	8	0	16
Jan 2020	8	4	0	12
Feb 2020	12	4	1	17
Mar 2020	4	12	0	16
Apr 2020	13	19	1	33
May 2020	9	5	0	14
Jun 2020	14	12	0	26
Jul 2020	15	21	4	40
Aug 2020	11	7	0	18
Sep 2020	8	7	2	17
Oct 2020	9	1	1	11
Nov 2020	15	5	0	20
Dec 2020	14	3	0	17
Jan 2021	22	15	0	37
Feb 2021	7	5	0	12
Mar 2021	8	9	0	17
Apr 2021	6	1	0	7
May 2021	9	9	1	19
Jun 2021	5	4	0	9
Jul 2021	8	12	0	20
Aug 2021	22	9	0	31
Sep 2021	19	10	0	29
Oct 2021	9	36	0	45
Nov 2021	9	27	0	36
Dec 2021	7	12	0	19
Jan 2022	5	10	0	15
Feb 2022	15	11	2	28
Mar 2022	14	8	0	22
Apr 2022	14	10	1	25
May 2022	8	8	0	16
Jun 2022	3	5	1	9
Jul 2022	10	3	0	13
Aug 2022	32	3	0	35
Sep 2022	13	10	0	23
Oct 2022	10	1	11
Nov 2022	18	9	0	27
Dec 2022	11	7	0	18
Jan 2023	12	12	0	24
Feb 2023	12	9	0	21
Mar 2023	11	19	0	30
Apr 2023	16	6	0	22
May 2023	11	13	0	24
Jun 2023	7	5	1	13
Jul 2023	14	11	0	25
Aug 2023	15	8	2	25
Sep 2023	20	4	1	25
Oct 2023	22	8	1	31
Nov 2023	11	6	0	17
Dec 2023	16	7	0	23
Jan 2024	22	11	0	33
Feb 2024	14	11	0	25
Mar 2024	19	16	1	36
Apr 2024	17	4	3	24
May 2024	25	12	5	42
Jun 2024	21	7	9	37
Jul 2024	407	13	0	420
Aug 2024	24	13	4	41
Sep 2024	17	14	0	31
Oct 2024	28	19	0	47
Nov 2024	17	17	4	38
Dec 2024	33	8	2	43
Jan 2025	20	15	1	36
Feb 2025	26	13	2	41
Mar 2025	16	7	1	24
Apr 2025	30	13	3	46
May 2025	52	10	5	67
Jun 2025	48	33	0	81
Jul 2025	32	20	1	53
Aug 2025	26	18	1	45
Sep 2025	25	17	1	43
Oct 2025	15	28	0	43
Nov 2025	162	22	4	188
Dec 2025	4	2	0	6

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Short summary

This study investigated the effects of air–sea interaction on the life cycle of Hurricane Arthur (2014) that traversed through the North Atlantic Ocean. The study explored the role of ocean surface waves and sea-spray-mediated heat and momentum fluxes on the structure and intensity of the tropical cyclone. The sea spray fluxes were modelled using wave energy dissipation from a wave model, which reduced the amount of spray fluxes as compared to the empirical spray source generation function.


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