Predicting soil hydraulic properties for binary mixtures –  concept and application for constructed Technosols

Willaredt, Moreen; Nehls, Thomas; Peters, Andre

doi:10.5194/hess-27-3125-2023

Articles | Volume 27, issue 16

https://doi.org/10.5194/hess-27-3125-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/hess-27-3125-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 27, issue 16

Research article

|

29 Aug 2023

Research article |

| 29 Aug 2023

Predicting soil hydraulic properties for binary mixtures – concept and application for constructed Technosols

Moreen Willaredt, Thomas Nehls, and Andre Peters

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Total article views: 4,522 (including HTML, PDF, and XML)

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HTML: 3,628
PDF: 787
XML: 107
Total: 4,522
BibTeX: 114
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Views and downloads (calculated since 16 Aug 2022)

Month	HTML	PDF	XML	Total
Aug 2022	184	33	6	223
Sep 2022	28	8	0	36
Oct 2022	15	5	1	21
Nov 2022	37	11	2	50
Dec 2022	26	8	4	38
Jan 2023	25	12	0	37
Feb 2023	39	17	5	61
Mar 2023	9	7	0	16
Apr 2023	16	13	0	29
May 2023	15	7	2	24
Jun 2023	7	5	2	14
Jul 2023	41	17	2	60
Aug 2023	121	28	5	154
Sep 2023	182	33	5	220
Oct 2023	65	23	2	90
Nov 2023	29	6	0	35
Dec 2023	30	13	1	44
Jan 2024	95	12	2	109
Feb 2024	30	16	1	47
Mar 2024	27	25	3	55
Apr 2024	196	7	3	206
May 2024	57	8	0	65
Jun 2024	74	9	2	85
Jul 2024	241	10	6	257
Aug 2024	71	13	5	89
Sep 2024	37	1	38
Oct 2024	47	3	2	52
Nov 2024	34	10	1	45
Dec 2024	36	3	2	41
Jan 2025	56	12	5	73
Feb 2025	45	16	3	64
Mar 2025	44	16	0	60
Apr 2025	49	11	6	66
May 2025	57	10	2	69
Jun 2025	77	21	0	98
Jul 2025	61	22	3	86
Aug 2025	63	9	1	73
Sep 2025	81	14	1	96
Oct 2025	92	30	2	124
Nov 2025	118	21	2	141
Dec 2025	443	32	2	477
Jan 2026	481	19	7	507
Feb 2026	41	21	2	64
Mar 2026	43	40	4	87
Apr 2026	61	131	2	194
May 2026	2	0	2

Cumulative views and downloads (calculated since 16 Aug 2022)

Month	HTML	PDF	XML	Total
Aug 2022	184	33	6	223
Sep 2022	28	8	0	36
Oct 2022	15	5	1	21
Nov 2022	37	11	2	50
Dec 2022	26	8	4	38
Jan 2023	25	12	0	37
Feb 2023	39	17	5	61
Mar 2023	9	7	0	16
Apr 2023	16	13	0	29
May 2023	15	7	2	24
Jun 2023	7	5	2	14
Jul 2023	41	17	2	60
Aug 2023	121	28	5	154
Sep 2023	182	33	5	220
Oct 2023	65	23	2	90
Nov 2023	29	6	0	35
Dec 2023	30	13	1	44
Jan 2024	95	12	2	109
Feb 2024	30	16	1	47
Mar 2024	27	25	3	55
Apr 2024	196	7	3	206
May 2024	57	8	0	65
Jun 2024	74	9	2	85
Jul 2024	241	10	6	257
Aug 2024	71	13	5	89
Sep 2024	37	1	38
Oct 2024	47	3	2	52
Nov 2024	34	10	1	45
Dec 2024	36	3	2	41
Jan 2025	56	12	5	73
Feb 2025	45	16	3	64
Mar 2025	44	16	0	60
Apr 2025	49	11	6	66
May 2025	57	10	2	69
Jun 2025	77	21	0	98
Jul 2025	61	22	3	86
Aug 2025	63	9	1	73
Sep 2025	81	14	1	96
Oct 2025	92	30	2	124
Nov 2025	118	21	2	141
Dec 2025	443	32	2	477
Jan 2026	481	19	7	507
Feb 2026	41	21	2	64
Mar 2026	43	40	4	87
Apr 2026	61	131	2	194
May 2026	2	0	2

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Total article views: 4,522 (including HTML, PDF, and XML) Thereof 4,504 with geography defined and 18 with unknown origin.

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Short summary

This study proposes a model to predict soil hydraulic properties (SHPs) of constructed Technosols for urban greening. The SHPs are determined by the Technosol composition and describe their capacity to store and supply water to plants. The model predicts SHPs of any binary mixture based on the SHPs of its two pure components, facilitating simulations of flow and transport processes before production. This can help create Technosols designed for efficient urban greening and water management.