Numerical simulations of the 2004 Indian Ocean  tsunami deposits' thicknesses and emplacements

Syamsidik,; Al'ala, Musa; Fritz, Hermann M.; Fahmi, Mirza; Hafli, Teuku Mudi

doi:https://doi.org/10.5194/nhess-19-1265-2019

Articles | Volume 19, issue 6

https://doi.org/10.5194/nhess-19-1265-2019

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

https://doi.org/10.5194/nhess-19-1265-2019

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

Articles | Volume 19, issue 6

Research article

|

27 Jun 2019

Research article |

| 27 Jun 2019

Numerical simulations of the 2004 Indian Ocean tsunami deposits' thicknesses and emplacements

Syamsidik, Musa Al'ala, Hermann M. Fritz, Mirza Fahmi, and Teuku Mudi Hafli

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Apr 2021	19	22	1	42
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Jul 2025	35	23	1	59
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Sep 2025	44	22	3	69
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Cumulative views and downloads (calculated since 26 Nov 2018)

Month	HTML	PDF	XML	Total
Nov 2018	75	26	2	103
Dec 2018	107	13	1	121
Jan 2019	58	10	0	68
Feb 2019	9	7	0	16
Mar 2019	32	12	0	44
Apr 2019	10	8	1	19
May 2019	7	7	0	14
Jun 2019	125	36	2	163
Jul 2019	107	41	3	151
Aug 2019	59	17	1	77
Sep 2019	15	14	2	31
Oct 2019	17	12	0	29
Nov 2019	29	15	0	44
Dec 2019	34	12	0	46
Jan 2020	22	12	4	38
Feb 2020	19	9	1	29
Mar 2020	14	14	0	28
Apr 2020	15	11	1	27
May 2020	21	12	1	34
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Jul 2020	20	22	6	48
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Jan 2021	22	15	0	37
Feb 2021	13	15	0	28
Mar 2021	16	11	0	27
Apr 2021	19	22	1	42
May 2021	19	5	0	24
Jun 2021	515	6	0	521
Jul 2021	28	13	0	41
Aug 2021	33	13	2	48
Sep 2021	13	12	0	25
Oct 2021	17	41	1	59
Nov 2021	20	23	0	43
Dec 2021	12	5	1	18
Jan 2022	7	9	0	16
Feb 2022	14	5	1	20
Mar 2022	11	11	0	22
Apr 2022	17	5	2	24
May 2022	17	5	1	23
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Feb 2024	8	9	2	19
Mar 2024	18	22	2	42
Apr 2024	39	15	4	58
May 2024	33	12	1	46
Jun 2024	37	9	4	50
Jul 2024	25	12	2	39
Aug 2024	24	5	5	34
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Oct 2024	25	8	1	34
Nov 2024	15	5	0	20
Dec 2024	12	10	2	24
Jan 2025	35	7	3	45
Feb 2025	28	23	2	53
Mar 2025	32	11	1	44
Apr 2025	18	13	1	32
May 2025	25	10	1	36
Jun 2025	48	24	0	72
Jul 2025	35	23	1	59
Aug 2025	53	15	0	68
Sep 2025	44	22	3	69
Oct 2025	29	25	3	57

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Short summary

The use of numerical simulations to study tsunami-induced sediment transport was rare in Indonesia until the 2004 Indian Ocean tsunami. This study aims to couple two hydrodynamic numerical models in order to reproduce tsunami-induced sediment deposits, i.e., their locations and thicknesses. Numerical simulations were performed using the Cornell Multi-grid Coupled Tsunami (COMCOT) model and Delft3D. Lhoong, in the Aceh Besar District, Indonesia, was selected as the study site for this research.