<i>HydrothermalFoam</i> v1.0: a 3-D hydrothermal transport model  for natural submarine hydrothermal systems

Guo, Zhikui; Rüpke, Lars; Tao, Chunhui

doi:10.5194/gmd-13-6547-2020

Articles | Volume 13, issue 12

https://doi.org/10.5194/gmd-13-6547-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/gmd-13-6547-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 13, issue 12

Model description paper

|

23 Dec 2020

Model description paper |

| 23 Dec 2020

HydrothermalFoam v1.0: a 3-D hydrothermal transport model for natural submarine hydrothermal systems

Zhikui Guo, Lars Rüpke, and Chunhui Tao

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XML: 119
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BibTeX: 161
EndNote: 199

Views and downloads (calculated since 13 Jul 2020)

Month	HTML	PDF	XML	Total
Jul 2020	104	42	16	162
Aug 2020	47	14	2	63
Sep 2020	67	17	0	84
Oct 2020	69	16	1	86
Nov 2020	45	13	1	59
Dec 2020	202	49	3	254
Jan 2021	124	40	3	167
Feb 2021	37	25	1	63
Mar 2021	25	16	0	41
Apr 2021	23	13	0	36
May 2021	23	21	1	45
Jun 2021	11	13	0	24
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Dec 2021	42	18	3	63
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Feb 2022	37	14	2	53
Mar 2022	30	16	0	46
Apr 2022	39	18	0	57
May 2022	40	20	2	62
Jun 2022	34	14	1	49
Jul 2022	79	16	0	95
Aug 2022	128	11	0	139
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Dec 2022	43	11	2	56
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Jan 2024	91	14	1	106
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Aug 2024	30	11	2	43
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Nov 2024	44	16	3	63
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Aug 2025	62	14	1	77
Sep 2025	106	19	1	126
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Nov 2025	104	41	2	147
Dec 2025	54	39	2	95
Jan 2026	52	20	10	82
Feb 2026	50	31	0	81
Mar 2026	39	29	4	72
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Cumulative views and downloads (calculated since 13 Jul 2020)

Month	HTML	PDF	XML	Total
Jul 2020	104	42	16	162
Aug 2020	47	14	2	63
Sep 2020	67	17	0	84
Oct 2020	69	16	1	86
Nov 2020	45	13	1	59
Dec 2020	202	49	3	254
Jan 2021	124	40	3	167
Feb 2021	37	25	1	63
Mar 2021	25	16	0	41
Apr 2021	23	13	0	36
May 2021	23	21	1	45
Jun 2021	11	13	0	24
Jul 2021	13	18	0	31
Aug 2021	20	20	0	40
Sep 2021	37	24	0	61
Oct 2021	43	52	0	95
Nov 2021	48	29	1	78
Dec 2021	42	18	3	63
Jan 2022	24	14	0	38
Feb 2022	37	14	2	53
Mar 2022	30	16	0	46
Apr 2022	39	18	0	57
May 2022	40	20	2	62
Jun 2022	34	14	1	49
Jul 2022	79	16	0	95
Aug 2022	128	11	0	139
Sep 2022	58	11	0	69
Oct 2022	30	16	1	47
Nov 2022	44	23	2	69
Dec 2022	43	11	2	56
Jan 2023	21	25	0	46
Feb 2023	36	15	1	52
Mar 2023	32	21	0	53
Apr 2023	8	7	0	15
May 2023	18	14	0	32
Jun 2023	21	13	2	36
Jul 2023	18	11	0	29
Aug 2023	20	7	1	28
Sep 2023	21	16	0	37
Oct 2023	22	17	0	39
Nov 2023	16	9	0	25
Dec 2023	23	18	4	45
Jan 2024	91	14	1	106
Feb 2024	22	15	0	37
Mar 2024	34	30	3	67
Apr 2024	34	27	3	64
May 2024	39	15	12	66
Jun 2024	57	18	2	77
Jul 2024	29	8	1	38
Aug 2024	30	11	2	43
Sep 2024	22	16	2	40
Oct 2024	35	16	0	51
Nov 2024	44	16	3	63
Dec 2024	42	19	1	62
Jan 2025	39	15	0	54
Feb 2025	58	15	2	75
Mar 2025	37	13	3	53
Apr 2025	55	15	0	70
May 2025	45	15	0	60
Jun 2025	61	20	1	82
Jul 2025	42	12	4	58
Aug 2025	62	14	1	77
Sep 2025	106	19	1	126
Oct 2025	70	25	2	97
Nov 2025	104	41	2	147
Dec 2025	54	39	2	95
Jan 2026	52	20	10	82
Feb 2026	50	31	0	81
Mar 2026	39	29	4	72
Apr 2026	74	51	4	129
May 2026	88	42	3	133
Jun 2026	16	1	0	17

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Short summary

We present the 3-D hydro-thermo-transport model HydrothermalFoam v1.0, which we designed to provide the marine geosciences community with an easy-to-use and state-of-the-art tool for simulating mass and energy transport in submarine hydrothermal systems. HydrothermalFoam is based on the popular open-source platform OpenFOAM, comes with a number of tutorials, and is published under the GNU General Public License v3.0.