CRHyME (Climatic Rainfall Hydrogeological Modelling  Experiment): a new model for geo-hydrological  hazard assessment at the basin scale

Abbate, Andrea; Mancusi, Leonardo; Apadula, Francesco; Frigerio, Antonella; Papini, Monica; Longoni, Laura

doi:10.5194/nhess-24-501-2024

Articles | Volume 24, issue 2

https://doi.org/10.5194/nhess-24-501-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Hydro-meteorological extremes and hazards: vulnerability,...

https://doi.org/10.5194/nhess-24-501-2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 24, issue 2

Research article

|

14 Feb 2024

Research article |

| 14 Feb 2024

CRHyME (Climatic Rainfall Hydrogeological Modelling Experiment): a new model for geo-hydrological hazard assessment at the basin scale

Andrea Abbate, Leonardo Mancusi, Francesco Apadula, Antonella Frigerio, Monica Papini, and Laura Longoni

Viewed

Total article views: 3,757 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,457	1,173	127	3,757	148	175

HTML: 2,457
PDF: 1,173
XML: 127
Total: 3,757
BibTeX: 148
EndNote: 175

Views and downloads (calculated since 07 Feb 2023)

Month	HTML	PDF	XML	Total
Feb 2023	209	39	4	252
Mar 2023	48	13	1	62
Apr 2023	32	6	2	40
May 2023	46	20	6	72
Jun 2023	15	11	1	27
Jul 2023	26	12	1	39
Aug 2023	18	11	1	30
Sep 2023	26	12	0	38
Oct 2023	22	16	1	39
Nov 2023	6	8	0	14
Dec 2023	13	6	1	20
Jan 2024	20	7	0	27
Feb 2024	213	55	5	273
Mar 2024	144	34	4	182
Apr 2024	91	25	9	125
May 2024	58	43	7	108
Jun 2024	115	36	4	155
Jul 2024	45	30	4	79
Aug 2024	39	13	4	56
Sep 2024	48	26	7	81
Oct 2024	44	14	1	59
Nov 2024	28	17	1	46
Dec 2024	37	36	0	73
Jan 2025	49	22	7	78
Feb 2025	61	13	4	78
Mar 2025	31	14	0	45
Apr 2025	39	8	0	47
May 2025	47	18	2	67
Jun 2025	67	29	2	98
Jul 2025	36	32	2	70
Aug 2025	33	22	1	56
Sep 2025	94	28	2	124
Oct 2025	50	29	2	81
Nov 2025	35	38	2	75
Dec 2025	76	52	6	134
Jan 2026	90	66	15	171
Feb 2026	102	21	1	124
Mar 2026	97	99	6	202
Apr 2026	101	109	6	216
May 2026	92	58	1	151
Jun 2026	14	25	4	43

Cumulative views and downloads (calculated since 07 Feb 2023)

Month	HTML	PDF	XML	Total
Feb 2023	209	39	4	252
Mar 2023	48	13	1	62
Apr 2023	32	6	2	40
May 2023	46	20	6	72
Jun 2023	15	11	1	27
Jul 2023	26	12	1	39
Aug 2023	18	11	1	30
Sep 2023	26	12	0	38
Oct 2023	22	16	1	39
Nov 2023	6	8	0	14
Dec 2023	13	6	1	20
Jan 2024	20	7	0	27
Feb 2024	213	55	5	273
Mar 2024	144	34	4	182
Apr 2024	91	25	9	125
May 2024	58	43	7	108
Jun 2024	115	36	4	155
Jul 2024	45	30	4	79
Aug 2024	39	13	4	56
Sep 2024	48	26	7	81
Oct 2024	44	14	1	59
Nov 2024	28	17	1	46
Dec 2024	37	36	0	73
Jan 2025	49	22	7	78
Feb 2025	61	13	4	78
Mar 2025	31	14	0	45
Apr 2025	39	8	0	47
May 2025	47	18	2	67
Jun 2025	67	29	2	98
Jul 2025	36	32	2	70
Aug 2025	33	22	1	56
Sep 2025	94	28	2	124
Oct 2025	50	29	2	81
Nov 2025	35	38	2	75
Dec 2025	76	52	6	134
Jan 2026	90	66	15	171
Feb 2026	102	21	1	124
Mar 2026	97	99	6	202
Apr 2026	101	109	6	216
May 2026	92	58	1	151
Jun 2026	14	25	4	43

Viewed (geographical distribution)

Total article views: 3,757 (including HTML, PDF, and XML) Thereof 3,642 with geography defined and 115 with unknown origin.

Country	#	Views	%

1

1

Cited

Saved (final revised paper)

Latest update: 25 Jun 2026

Short summary

CRHyME (Climatic Rainfall Hydrogeological Modelling Experiment) is a new physically based and spatially distributed rainfall-runoff model. The main novelties consist of reproducing rainfall-induced geo-hydrological hazards such as shallow landslide, debris flow and watershed erosion through a multi-hazard approach. CRHyME was written in Python, works at a high spatial and temporal resolution, and is a tool suitable for quantifying extreme rainfall consequences at the basin scale.