Tandem configuration of differential mobility and centrifugal particle mass analysers for investigating aerosol hygroscopic properties

Vlasenko, Sergey S.; Su, Hang; Pöschl, Ulrich; Andreae, Meinrat O.; Mikhailov, Eugene F.

doi:https://doi.org/10.5194/amt-10-1269-2017

Articles | Volume 10, issue 3

https://doi.org/10.5194/amt-10-1269-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/amt-10-1269-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 10, issue 3

Research article

|

30 Mar 2017

Research article |

| 30 Mar 2017

Tandem configuration of differential mobility and centrifugal particle mass analysers for investigating aerosol hygroscopic properties

Sergey S. Vlasenko, Hang Su, Ulrich Pöschl, Meinrat O. Andreae, and Eugene F. Mikhailov

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Feb 2017	13	6	4	23
Mar 2017	109	51	5	165
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Jun 2018	13	19	2	34
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Oct 2018	15	29	3	47
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Dec 2018	12	21	0	33
Jan 2019	10	17	0	27
Feb 2019	5	15	1	21
Mar 2019	5	16	1	22
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Dec 2019	9	10	0	19
Jan 2020	18	5	1	24
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Jun 2020	15	13	4	32
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Jan 2021	19	8	1	28
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Apr 2021	10	11	0	21
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Jul 2021	12	13	2	27
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Oct 2021	11	37	4	52
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Mar 2022	30	13	0	43
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Jun 2022	4	2	0	6
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Jun 2023	40	16	1	57
Jul 2023	33	4	0	37
Aug 2023	43	14	5	62
Sep 2023	38	7	1	46
Oct 2023	45	7	1	53
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Dec 2023	36	4	1	41
Jan 2024	40	11	1	52
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Mar 2024	48	10	3	61
Apr 2024	39	9	5	53
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Cumulative views and downloads (calculated since 23 Sep 2016)

Month	HTML	PDF	XML	Total
Sep 2016	70	13	2	85
Oct 2016	47	20	2	69
Nov 2016	20	7	0	27
Dec 2016	5	2	1	8
Jan 2017	22	11	1	34
Feb 2017	13	6	4	23
Mar 2017	109	51	5	165
Apr 2017	168	83	9	260
May 2017	55	39	2	96
Jun 2017	35	26	1	62
Jul 2017	15	18	0	33
Aug 2017	18	20	2	40
Sep 2017	19	19	0	38
Oct 2017	9	6	1	16
Nov 2017	14	14	0	28
Dec 2017	13	19	1	33
Jan 2018	16	22	1	39
Feb 2018	10	9	0	19
Mar 2018	12	22	0	34
Apr 2018	9	18	0	27
May 2018	14	16	0	30
Jun 2018	13	19	2	34
Jul 2018	5	20	0	25
Aug 2018	15	22	1	38
Sep 2018	13	15	1	29
Oct 2018	15	29	3	47
Nov 2018	16	30	1	47
Dec 2018	12	21	0	33
Jan 2019	10	17	0	27
Feb 2019	5	15	1	21
Mar 2019	5	16	1	22
Apr 2019	13	12	1	26
May 2019	11	19	0	30
Jun 2019	5	7	1	13
Jul 2019	2	3	0	5
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Sep 2019	7	10	2	19
Oct 2019	8	26	1	35
Nov 2019	12	23	2	37
Dec 2019	9	10	0	19
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Feb 2020	7	2	0	9
Mar 2020	10	11	0	21
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May 2020	4	9	0	13
Jun 2020	15	13	4	32
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Aug 2020	12	12	7	31
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Oct 2020	7	6	1	14
Nov 2020	4	17	0	21
Dec 2020	10	14	0	24
Jan 2021	19	8	1	28
Feb 2021	10	14	2	26
Mar 2021	13	8	0	21
Apr 2021	10	11	0	21
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Jun 2021	9	8	1	18
Jul 2021	12	13	2	27
Aug 2021	10	16	2	28
Sep 2021	19	6	1	26
Oct 2021	11	37	4	52
Nov 2021	8	16	1	25
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Jan 2022	14	8	0	22
Feb 2022	7	7	1	15
Mar 2022	30	13	0	43
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Feb 2023	15	12	2	29
Mar 2023	23	9	0	32
Apr 2023	31	7	1	39
May 2023	42	22	0	64
Jun 2023	40	16	1	57
Jul 2023	33	4	0	37
Aug 2023	43	14	5	62
Sep 2023	38	7	1	46
Oct 2023	45	7	1	53
Nov 2023	25	5	0	30
Dec 2023	36	4	1	41
Jan 2024	40	11	1	52
Feb 2024	34	5	2	41
Mar 2024	48	10	3	61
Apr 2024	39	9	5	53
May 2024	17	18	4	39
Jun 2024	17	14	4	35
Jul 2024	7	2	0	9

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Short summary

The paper describes a new technique for measuring the hygroscopic properties of laboratory and ambient aerosols. The direct measurements of humidified particle mass allow avoiding complications that occur in the commonly used technique due to poorly defined particle morphology and density. Both test results and field measurements have shown that the system can be applied for aerosol size-resolved mass growth factor measurements in hydration and dehydration modes up to 95 % RH.

Tandem configuration of differential mobility and centrifugal particle mass analysers for investigating aerosol hygroscopic properties

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Cited

9 citations as recorded by crossref.

9 citations as recorded by crossref.


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