Modeling particle transport and discoloration risk in drinking water distribution networks

van Summeren, Joost; Blokker, Mirjam

doi:https://doi.org/10.5194/dwes-10-99-2017

Articles | Volume 10, issue 2

https://doi.org/10.5194/dwes-10-99-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Special issue:

Computing and Control for the Water Industry, CCWI 2016

https://doi.org/10.5194/dwes-10-99-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 10, issue 2

Research article

|

16 Oct 2017

Research article |

| 16 Oct 2017

Modeling particle transport and discoloration risk in drinking water distribution networks

Joost van Summeren and Mirjam Blokker

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Jan 2018	76	11	4	91
Feb 2018	23	9	3	35
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May 2019	1	3	0	4
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Apr 2020	3	6	0	9
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Jun 2020	30	16	1	47
Jul 2020	22	45	19	86
Aug 2020	9	9	2	20
Sep 2020	9	3	0	12
Oct 2020	10	7	3	20
Nov 2020	3	7	1	11
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Jan 2021	13	10	3	26
Feb 2021	9	7	1	17
Mar 2021	5	9	0	14
Apr 2021	11	11	1	23
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Apr 2022	7	7	0	14
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Jul 2022	6	6	0	12
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Jan 2023	15	12	0	27
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Apr 2023	7	6	0	13
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Oct 2023	12	8	1	21
Nov 2023	6	1	1	8
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Jan 2024	3	8	0	11
Feb 2024	9	11	0	20
Mar 2024	8	15	2	25
Apr 2024	12	4	1	17
May 2024	24	16	1	41
Jun 2024	22	12	2	36
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Aug 2024	21	8	2	31
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Cumulative views and downloads (calculated since 02 May 2017)

Month	HTML	PDF	XML	Total
May 2017	94	30	6	130
Jun 2017	73	16	6	95
Jul 2017	33	9	2	44
Aug 2017	19	9	1	29
Sep 2017	22	6	0	28
Oct 2017	101	25	4	130
Nov 2017	152	28	0	180
Dec 2017	94	9	4	107
Jan 2018	76	11	4	91
Feb 2018	23	9	3	35
Mar 2018	13	7	2	22
Apr 2018	14	9	2	25
May 2018	9	8	1	18
Jun 2018	12	8	0	20
Jul 2018	13	6	2	21
Aug 2018	12	10	1	23
Sep 2018	9	4	0	13
Oct 2018	11	14	1	26
Nov 2018	17	8	0	25
Dec 2018	9	4	1	14
Jan 2019	6	7	1	14
Feb 2019	5	11	0	16
Mar 2019	3	4	1	8
Apr 2019	12	5	0	17
May 2019	1	3	0	4
Jun 2019	8	13	2	23
Jul 2019	4	3	0	7
Aug 2019	4	6	0	10
Sep 2019	1	12	0	13
Oct 2019	7	6	1	14
Nov 2019	7	8	0	15
Dec 2019	10	0	10
Jan 2020	29	7	1	37
Feb 2020	15	5	0	20
Mar 2020	12	8	0	20
Apr 2020	3	6	0	9
May 2020	5	6	1	12
Jun 2020	30	16	1	47
Jul 2020	22	45	19	86
Aug 2020	9	9	2	20
Sep 2020	9	3	0	12
Oct 2020	10	7	3	20
Nov 2020	3	7	1	11
Dec 2020	13	14	0	27
Jan 2021	13	10	3	26
Feb 2021	9	7	1	17
Mar 2021	5	9	0	14
Apr 2021	11	11	1	23
May 2021	9	7	1	17
Jun 2021	11	4	0	15
Jul 2021	10	8	2	20
Aug 2021	7	11	1	19
Sep 2021	10	13	1	24
Oct 2021	6	38	0	44
Nov 2021	7	23	3	33
Dec 2021	11	10	0	21
Jan 2022	10	10	0	20
Feb 2022	12	16	5	33
Mar 2022	2	9	0	11
Apr 2022	7	7	0	14
May 2022	8	10	4	22
Jun 2022	5	3	1	9
Jul 2022	6	6	0	12
Aug 2022	7	7	1	15
Sep 2022	14	8	1	23
Oct 2022	12	5	1	18
Nov 2022	5	4	0	9
Dec 2022	15	11	1	27
Jan 2023	15	12	0	27
Feb 2023	11	8	0	19
Mar 2023	15	13	0	28
Apr 2023	7	6	0	13
May 2023	6	13	0	19
Jun 2023	9	14	0	23
Jul 2023	15	12	1	28
Aug 2023	4	9	0	13
Sep 2023	6	7	1	14
Oct 2023	12	8	1	21
Nov 2023	6	1	1	8
Dec 2023	12	7	1	20
Jan 2024	3	8	0	11
Feb 2024	9	11	0	20
Mar 2024	8	15	2	25
Apr 2024	12	4	1	17
May 2024	24	16	1	41
Jun 2024	22	12	2	36
Jul 2024	30	6	4	40
Aug 2024	21	8	2	31
Sep 2024	17	6	3	26
Oct 2024	12	16	1	29
Nov 2024	5	6	0	11

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Short summary

The build-up and subsequent remobilization of microscopic particles can cause discoloration of drinking water during distribution. We theoretically investigated the relevant transport processes and dependencies on flow conditions and particle properties. The presented theoretical framework is intended as a starting point for a numerical tool to help water utilities determine regions of high discoloration risk and reduce these risks, e.g., by designing more efficient pipe cleaning programs.

Modeling particle transport and discoloration risk in drinking water distribution networks

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12 citations as recorded by crossref.

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