ORACLE 2-D (v2.0): an efficient module to compute  the volatility and oxygen content of organic aerosol  with a global chemistry–climate model

Tsimpidi, Alexandra P.; Karydis, Vlassis A.; Pozzer, Andrea; Pandis, Spyros N.; Lelieveld, Jos

doi:10.5194/gmd-11-3369-2018

Articles | Volume 11, issue 8

https://doi.org/10.5194/gmd-11-3369-2018

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

Special issue:

The Modular Earth Submodel System (MESSy) (ACP/GMD inter-journal...

https://doi.org/10.5194/gmd-11-3369-2018

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

Articles | Volume 11, issue 8

Model description paper

|

21 Aug 2018

Model description paper |

| 21 Aug 2018

ORACLE 2-D (v2.0): an efficient module to compute the volatility and oxygen content of organic aerosol with a global chemistry–climate model

Alexandra P. Tsimpidi, Vlassis A. Karydis, Andrea Pozzer, Spyros N. Pandis, and Jos Lelieveld

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Jan 2024	27	6	1	34
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Apr 2024	37	14	4	55
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Oct 2024	13	10	1	24
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Dec 2024	17	2	1	20
Jan 2025	14	7	3	24
Feb 2025	23	10	5	38
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Apr 2025	18	18	1	37
May 2025	40	9	1	50
Jun 2025	34	18	1	53
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Cumulative views and downloads (calculated since 23 Mar 2018)

Month	HTML	PDF	XML	Total
Mar 2018	115	27	4	146
Apr 2018	47	19	2	68
May 2018	25	13	0	38
Jun 2018	17	6	1	24
Jul 2018	9	8	1	18
Aug 2018	149	47	3	199
Sep 2018	62	22	1	85
Oct 2018	24	23	4	51
Nov 2018	25	19	2	46
Dec 2018	16	14	1	31
Jan 2019	16	17	0	33
Feb 2019	14	15	0	29
Mar 2019	9	13	0	22
Apr 2019	11	10	2	23
May 2019	22	20	0	42
Jun 2019	28	12	0	40
Jul 2019	20	13	0	33
Aug 2019	17	24	0	41
Sep 2019	8	8	0	16
Oct 2019	30	25	0	55
Nov 2019	16	6	0	22
Dec 2019	18	11	0	29
Jan 2020	16	11	2	29
Feb 2020	11	11	0	22
Mar 2020	8	15	2	25
Apr 2020	16	13	0	29
May 2020	14	11	0	25
Jun 2020	15	19	0	34
Jul 2020	44	47	10	101
Aug 2020	11	5	0	16
Sep 2020	13	10	0	23
Oct 2020	11	10	3	24
Nov 2020	20	16	0	36
Dec 2020	31	19	0	50
Jan 2021	35	11	0	46
Feb 2021	14	9	1	24
Mar 2021	9	14	0	23
Apr 2021	11	9	0	20
May 2021	14	5	0	19
Jun 2021	14	12	0	26
Jul 2021	24	9	1	34
Aug 2021	20	10	0	30
Sep 2021	21	9	1	31
Oct 2021	16	25	1	42
Nov 2021	20	27	1	48
Dec 2021	13	9	0	22
Jan 2022	18	8	0	26
Feb 2022	19	12	1	32
Mar 2022	20	8	0	28
Apr 2022	13	7	2	22
May 2022	12	6	0	18
Jun 2022	11	4	0	15
Jul 2022	31	2	0	33
Aug 2022	149	7	0	156
Sep 2022	12	3	2	17
Oct 2022	17	4	3	24
Nov 2022	32	9	1	42
Dec 2022	43	8	2	53
Jan 2023	34	10	0	44
Feb 2023	45	8	0	53
Mar 2023	52	12	1	65
Apr 2023	21	9	0	30
May 2023	8	10	0	18
Jun 2023	12	8	0	20
Jul 2023	16	5	1	22
Aug 2023	11	4	2	17
Sep 2023	16	12	1	29
Oct 2023	17	14	0	31
Nov 2023	11	3	0	14
Dec 2023	24	7	2	33
Jan 2024	27	6	1	34
Feb 2024	15	11	1	27
Mar 2024	24	16	4	44
Apr 2024	37	14	4	55
May 2024	22	10	6	38
Jun 2024	41	8	2	51
Jul 2024	17	7	2	26
Aug 2024	24	8	6	38
Sep 2024	14	7	0	21
Oct 2024	13	10	1	24
Nov 2024	14	1	2	17
Dec 2024	17	2	1	20
Jan 2025	14	7	3	24
Feb 2025	23	10	5	38
Mar 2025	14	12	0	26
Apr 2025	18	18	1	37
May 2025	40	9	1	50
Jun 2025	34	18	1	53
Jul 2025	35	15	2	52
Aug 2025	49	24	2	75
Sep 2025	84	23	4	111
Oct 2025	47	23	2	72
Nov 2025	29	32	3	64

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Short summary

A new module, ORACLE 2-D, that calculates the concentrations of surrogate organic species in two-dimensional space defined by volatility and oxygen-to-carbon ratio has been developed and evaluated. ORACLE 2-D uses a simple photochemical aging scheme that efficiently simulates the net effects of fragmentation and functionalization. ORACLE 2-D can be used to compute the ability of organic particles to act as cloud condensation nuclei and serves as a tool to quantify their climatic impact.


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