Kinetic mass-transfer calculation of water isotope fractionation due to cloud microphysics in a regional meteorological model

Tsai, I-Chun; Chen, Wan-Yu; Chen, Jen-Ping; Liang, Mao-Chang

doi:https://doi.org/10.5194/acp-19-1753-2019

Articles | Volume 19, issue 3

https://doi.org/10.5194/acp-19-1753-2019

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

https://doi.org/10.5194/acp-19-1753-2019

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

Articles | Volume 19, issue 3

Research article

|

08 Feb 2019

Research article |

| 08 Feb 2019

Kinetic mass-transfer calculation of water isotope fractionation due to cloud microphysics in a regional meteorological model

I-Chun Tsai, Wan-Yu Chen, Jen-Ping Chen, and Mao-Chang Liang

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Jul 2018	111	21	4	136
Aug 2018	48	12	3	63
Sep 2018	18	4	0	22
Oct 2018	23	6	1	30
Nov 2018	15	6	1	22
Dec 2018	18	4	0	22
Jan 2019	5	2	0	7
Feb 2019	190	50	2	242
Mar 2019	19	17	1	37
Apr 2019	18	16	0	34
May 2019	24	12	0	36
Jun 2019	19	14	0	33
Jul 2019	11	16	0	27
Aug 2019	7	12	0	19
Sep 2019	8	6	0	14
Oct 2019	13	9	0	22
Nov 2019	14	9	0	23
Dec 2019	15	9	0	24
Jan 2020	15	9	0	24
Feb 2020	20	3	0	23
Mar 2020	7	5	0	12
Apr 2020	8	5	0	13
May 2020	11	7	0	18
Jun 2020	18	15	0	33
Jul 2020	15	14	3	32
Aug 2020	20	8	0	28
Sep 2020	13	7	6	26
Oct 2020	16	6	0	22
Nov 2020	9	7	0	16
Dec 2020	7	4	1	12
Jan 2021	14	11	2	27
Feb 2021	12	7	0	19
Mar 2021	10	9	0	19
Apr 2021	5	8	0	13
May 2021	13	11	2	26
Jun 2021	10	12	0	22
Jul 2021	6	12	0	18
Aug 2021	12	13	0	25
Sep 2021	16	12	0	28
Oct 2021	6	39	1	46
Nov 2021	10	16	0	26
Dec 2021	13	7	1	21
Jan 2022	6	11	1	18
Feb 2022	9	5	1	15
Mar 2022	4	6	0	10
Apr 2022	9	7	0	16
May 2022	7	8	0	15
Jun 2022	7	4	1	12
Jul 2022	5	6	0	11
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Oct 2022	7	4	2	13
Nov 2022	10	18	0	28
Dec 2022	7	8	1	16
Jan 2023	10	6	0	16
Feb 2023	16	3	0	19
Mar 2023	17	6	0	23
Apr 2023	2	2	0	4
May 2023	9	16	0	25
Jun 2023	20	7	2	29
Jul 2023	10	6	1	17
Aug 2023	10	7	2	19
Sep 2023	11	2	1	14
Oct 2023	16	5	2	23
Nov 2023	5	4	0	9
Dec 2023	16	10	2	28
Jan 2024	11	2	0	13
Feb 2024	15	13	1	29
Mar 2024	16	12	3	31
Apr 2024	7	4	1	12

Cumulative views and downloads (calculated since 19 Jul 2018)

Month	HTML	PDF	XML	Total
Jul 2018	111	21	4	136
Aug 2018	48	12	3	63
Sep 2018	18	4	0	22
Oct 2018	23	6	1	30
Nov 2018	15	6	1	22
Dec 2018	18	4	0	22
Jan 2019	5	2	0	7
Feb 2019	190	50	2	242
Mar 2019	19	17	1	37
Apr 2019	18	16	0	34
May 2019	24	12	0	36
Jun 2019	19	14	0	33
Jul 2019	11	16	0	27
Aug 2019	7	12	0	19
Sep 2019	8	6	0	14
Oct 2019	13	9	0	22
Nov 2019	14	9	0	23
Dec 2019	15	9	0	24
Jan 2020	15	9	0	24
Feb 2020	20	3	0	23
Mar 2020	7	5	0	12
Apr 2020	8	5	0	13
May 2020	11	7	0	18
Jun 2020	18	15	0	33
Jul 2020	15	14	3	32
Aug 2020	20	8	0	28
Sep 2020	13	7	6	26
Oct 2020	16	6	0	22
Nov 2020	9	7	0	16
Dec 2020	7	4	1	12
Jan 2021	14	11	2	27
Feb 2021	12	7	0	19
Mar 2021	10	9	0	19
Apr 2021	5	8	0	13
May 2021	13	11	2	26
Jun 2021	10	12	0	22
Jul 2021	6	12	0	18
Aug 2021	12	13	0	25
Sep 2021	16	12	0	28
Oct 2021	6	39	1	46
Nov 2021	10	16	0	26
Dec 2021	13	7	1	21
Jan 2022	6	11	1	18
Feb 2022	9	5	1	15
Mar 2022	4	6	0	10
Apr 2022	9	7	0	16
May 2022	7	8	0	15
Jun 2022	7	4	1	12
Jul 2022	5	6	0	11
Aug 2022	14	5	0	19
Sep 2022	9	5	0	14
Oct 2022	7	4	2	13
Nov 2022	10	18	0	28
Dec 2022	7	8	1	16
Jan 2023	10	6	0	16
Feb 2023	16	3	0	19
Mar 2023	17	6	0	23
Apr 2023	2	2	0	4
May 2023	9	16	0	25
Jun 2023	20	7	2	29
Jul 2023	10	6	1	17
Aug 2023	10	7	2	19
Sep 2023	11	2	1	14
Oct 2023	16	5	2	23
Nov 2023	5	4	0	9
Dec 2023	16	10	2	28
Jan 2024	11	2	0	13
Feb 2024	15	13	1	29
Mar 2024	16	12	3	31
Apr 2024	7	4	1	12

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Short summary

In conventional models, isotope exchange between liquid and gas phases is usually assumed to be in equilibrium, and the highly kinetic phase transformation processes inferred in clouds are yet to be fully investigated. We show that different factors controlling isotopic composition, including water vapor sources, atmospheric transport, phase transition pathways of water in clouds, and kinetic-versus-equilibrium mass transfer, contributed significantly to the variations in isotope composition.

Kinetic mass-transfer calculation of water isotope fractionation due to cloud microphysics in a regional meteorological model

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Cited

3 citations as recorded by crossref.

3 citations as recorded by crossref.


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