Water quality modelling of an impacted semi-arid catchment using flow data from the WEAP model

Slaughter, Andrew R.; Mantel, Sukhmani K.

doi:https://doi.org/10.5194/piahs-377-25-2018

Articles | Volume 377

Proc. IAHS, 377, 25–33, 2018

https://doi.org/10.5194/piahs-377-25-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

Proc. IAHS, 377, 25–33, 2018

https://doi.org/10.5194/piahs-377-25-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 377

16 Apr 2018

Water quality modelling of an impacted semi-arid catchment using flow data from the WEAP model

Andrew R. Slaughter and Sukhmani K. Mantel

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Total article views: 2,215 (including HTML, PDF, and XML)

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Views and downloads (calculated since 16 Apr 2018)

Month	HTML	PDF	XML	Total
Apr 2018	26	14	2	42
May 2018	24	10	0	34
Jun 2018	23	14	2	39
Jul 2018	19	12	1	32
Aug 2018	9	6	2	17
Sep 2018	7	7	0	14
Oct 2018	11	8	1	20
Nov 2018	14	17	0	31
Dec 2018	8	16	0	24
Jan 2019	7	5	1	13
Feb 2019	15	8	0	23
Mar 2019	16	7	0	23
Apr 2019	12	10	0	22
May 2019	27	9	0	36
Jun 2019	232	11	0	243
Jul 2019	219	8	0	227
Aug 2019	71	12	0	83
Sep 2019	104	10	0	114
Oct 2019	111	17	0	128
Nov 2019	155	5	0	160
Dec 2019	119	8	1	128
Jan 2020	81	6	0	87
Feb 2020	13	10	0	23
Mar 2020	7	10	0	17
Apr 2020	13	4	0	17
May 2020	20	8	1	29
Jun 2020	42	7	1	50
Jul 2020	125	24	15	164
Aug 2020	14	4	1	19
Sep 2020	9	3	0	12
Oct 2020	15	8	0	23
Nov 2020	7	4	0	11
Dec 2020	12	7	0	19
Jan 2021	18	20	2	40
Feb 2021	7	6	0	13
Mar 2021	4	4	0	8
Apr 2021	6	7	0	13
May 2021	6	6	0	12
Jun 2021	4	9	0	13
Jul 2021	11	6	0	17
Aug 2021	5	6	0	11
Sep 2021	2	4	0	6
Oct 2021	11	17	0	28
Nov 2021	13	19	0	32
Dec 2021	14	4	0	18
Jan 2022	7	7	0	14
Feb 2022	11	8	1	20
Mar 2022	7	4	0	11
Apr 2022	10	6	1	17
May 2022	5	3	1	9
Jun 2022	6	3	0	9
Jul 2022	0

Cumulative views and downloads (calculated since 16 Apr 2018)

Month	HTML	PDF	XML	Total
Apr 2018	26	14	2	42
May 2018	24	10	0	34
Jun 2018	23	14	2	39
Jul 2018	19	12	1	32
Aug 2018	9	6	2	17
Sep 2018	7	7	0	14
Oct 2018	11	8	1	20
Nov 2018	14	17	0	31
Dec 2018	8	16	0	24
Jan 2019	7	5	1	13
Feb 2019	15	8	0	23
Mar 2019	16	7	0	23
Apr 2019	12	10	0	22
May 2019	27	9	0	36
Jun 2019	232	11	0	243
Jul 2019	219	8	0	227
Aug 2019	71	12	0	83
Sep 2019	104	10	0	114
Oct 2019	111	17	0	128
Nov 2019	155	5	0	160
Dec 2019	119	8	1	128
Jan 2020	81	6	0	87
Feb 2020	13	10	0	23
Mar 2020	7	10	0	17
Apr 2020	13	4	0	17
May 2020	20	8	1	29
Jun 2020	42	7	1	50
Jul 2020	125	24	15	164
Aug 2020	14	4	1	19
Sep 2020	9	3	0	12
Oct 2020	15	8	0	23
Nov 2020	7	4	0	11
Dec 2020	12	7	0	19
Jan 2021	18	20	2	40
Feb 2021	7	6	0	13
Mar 2021	4	4	0	8
Apr 2021	6	7	0	13
May 2021	6	6	0	12
Jun 2021	4	9	0	13
Jul 2021	11	6	0	17
Aug 2021	5	6	0	11
Sep 2021	2	4	0	6
Oct 2021	11	17	0	28
Nov 2021	13	19	0	32
Dec 2021	14	4	0	18
Jan 2022	7	7	0	14
Feb 2022	11	8	1	20
Mar 2022	7	4	0	11
Apr 2022	10	6	1	17
May 2022	5	3	1	9
Jun 2022	6	3	0	9
Jul 2022	0

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Short summary

WQSAM is a water quality model designed specifically for South Africa as it relies on flow data generated by South African-specific flow models. However, many of the characteristics of WQSAM would make it suitable for other developing semi-arid countries. This study attempted to adapt WQSAM to take in flow data from the globally-applied WEAP flow model so that WQSAM can be applied elsewhere. WQSAM could effectively use the flow data from the WEAP model as demonstrated on a case-study catchment.


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Water quality modelling of an impacted semi-arid catchment using flow data from the WEAP model

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