Measurement of local bed shear stress in combined sewers

C. Oms; M. C. Gromaire-Mertz; R. DeSutter; G. Chebbo

doi:10.1061/40583(275)48

Measurement of local bed shear stress in combined sewers

C. Oms
, M. C. Gromaire-Mertz
, R. DeSutter
, G. Chebbo

ENPC UPEC

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Bed shear stress is a relevant factor to determine erosion and deposition of sewer sediments. Experiments have been undertaken in a laboratory flume and in two sewer trunks of "Le Marais", in Paris, to compare different methods to calculate local bed shear stress (based either on the log-law of the wall or on the Reynolds shear stress distribution) and to calculate mean bed shear stress (with τ_m = ρgR_hJ). Measurements were performed with a micro-propeller and an Acoustic Doppler Velocimeter during dry weather flow. Values of local bed shear stress calculated with the different methods were comparable but measurements with ADV revealed a great dispersion of shear stress close to the bed. It was found that in sewers were b/h < 5 the spatial variability of local shear stress was very low, and so local bed shear stress in mid-flow was equivalent to mean bed shear stress. The relation τ_m = ρgR_hJ_c was found to be applied with the energy slope because data plotted on maps are very imprecise and lead to big errors.

Original language	English
Title of host publication	Urban Drainage Modeling
Editors	R W Brashear, C Maksimovic
Publisher	ASCE - American Society of Civil Engineers
Pages	507-517
Number of pages	11
ISBN (Print)	0784405832, 9780784405833
DOIs	https://doi.org/10.1061/40583(275)48
Publication status	Published - 1 Jan 2001
Externally published	Yes
Event	Urban Drainage Modeling: Proceedings of the Specialty Symposium of the World Water and Environmental Resources Congress - Orlando, FL, United States Duration: 20 May 2001 → 24 May 2001

Publication series

Name	Urban Drainage Modeling

Conference

Conference	Urban Drainage Modeling: Proceedings of the Specialty Symposium of the World Water and Environmental Resources Congress
Country/Territory	United States
City	Orlando, FL
Period	20/05/01 → 24/05/01

Access to Document

10.1061/40583(275)48

Cite this

@inproceedings{7ec17ea13d7846ef8f1a4584f6ff78f3,

title = "Measurement of local bed shear stress in combined sewers",

abstract = "Bed shear stress is a relevant factor to determine erosion and deposition of sewer sediments. Experiments have been undertaken in a laboratory flume and in two sewer trunks of {"}Le Marais{"}, in Paris, to compare different methods to calculate local bed shear stress (based either on the log-law of the wall or on the Reynolds shear stress distribution) and to calculate mean bed shear stress (with τm = ρgRhJ). Measurements were performed with a micro-propeller and an Acoustic Doppler Velocimeter during dry weather flow. Values of local bed shear stress calculated with the different methods were comparable but measurements with ADV revealed a great dispersion of shear stress close to the bed. It was found that in sewers were b/h < 5 the spatial variability of local shear stress was very low, and so local bed shear stress in mid-flow was equivalent to mean bed shear stress. The relation τm = ρgRhJc was found to be applied with the energy slope because data plotted on maps are very imprecise and lead to big errors.",

author = "C. Oms and Gromaire-Mertz, \{M. C.\} and R. DeSutter and G. Chebbo",

year = "2001",

month = jan,

day = "1",

doi = "10.1061/40583(275)48",

language = "English",

isbn = "0784405832",

series = "Urban Drainage Modeling",

publisher = "ASCE - American Society of Civil Engineers",

pages = "507--517",

editor = "Brashear, \{R W\} and C Maksimovic",

booktitle = "Urban Drainage Modeling",

note = "Urban Drainage Modeling: Proceedings of the Specialty Symposium of the World Water and Environmental Resources Congress ; Conference date: 20-05-2001 Through 24-05-2001",

}

Oms, C, Gromaire-Mertz, MC, DeSutter, R & Chebbo, G 2001, Measurement of local bed shear stress in combined sewers. in RW Brashear & C Maksimovic (eds), Urban Drainage Modeling. Urban Drainage Modeling, ASCE - American Society of Civil Engineers, pp. 507-517, Urban Drainage Modeling: Proceedings of the Specialty Symposium of the World Water and Environmental Resources Congress, Orlando, FL, United States, 20/05/01. https://doi.org/10.1061/40583(275)48

TY - GEN

T1 - Measurement of local bed shear stress in combined sewers

AU - Oms, C.

AU - Gromaire-Mertz, M. C.

AU - DeSutter, R.

AU - Chebbo, G.

PY - 2001/1/1

Y1 - 2001/1/1

N2 - Bed shear stress is a relevant factor to determine erosion and deposition of sewer sediments. Experiments have been undertaken in a laboratory flume and in two sewer trunks of "Le Marais", in Paris, to compare different methods to calculate local bed shear stress (based either on the log-law of the wall or on the Reynolds shear stress distribution) and to calculate mean bed shear stress (with τm = ρgRhJ). Measurements were performed with a micro-propeller and an Acoustic Doppler Velocimeter during dry weather flow. Values of local bed shear stress calculated with the different methods were comparable but measurements with ADV revealed a great dispersion of shear stress close to the bed. It was found that in sewers were b/h < 5 the spatial variability of local shear stress was very low, and so local bed shear stress in mid-flow was equivalent to mean bed shear stress. The relation τm = ρgRhJc was found to be applied with the energy slope because data plotted on maps are very imprecise and lead to big errors.

AB - Bed shear stress is a relevant factor to determine erosion and deposition of sewer sediments. Experiments have been undertaken in a laboratory flume and in two sewer trunks of "Le Marais", in Paris, to compare different methods to calculate local bed shear stress (based either on the log-law of the wall or on the Reynolds shear stress distribution) and to calculate mean bed shear stress (with τm = ρgRhJ). Measurements were performed with a micro-propeller and an Acoustic Doppler Velocimeter during dry weather flow. Values of local bed shear stress calculated with the different methods were comparable but measurements with ADV revealed a great dispersion of shear stress close to the bed. It was found that in sewers were b/h < 5 the spatial variability of local shear stress was very low, and so local bed shear stress in mid-flow was equivalent to mean bed shear stress. The relation τm = ρgRhJc was found to be applied with the energy slope because data plotted on maps are very imprecise and lead to big errors.

UR - https://www.scopus.com/pages/publications/0035774005

U2 - 10.1061/40583(275)48

DO - 10.1061/40583(275)48

M3 - Conference contribution

AN - SCOPUS:0035774005

SN - 0784405832

SN - 9780784405833

T3 - Urban Drainage Modeling

SP - 507

EP - 517

BT - Urban Drainage Modeling

A2 - Brashear, R W

A2 - Maksimovic, C

PB - ASCE - American Society of Civil Engineers

T2 - Urban Drainage Modeling: Proceedings of the Specialty Symposium of the World Water and Environmental Resources Congress

Y2 - 20 May 2001 through 24 May 2001

ER -

Measurement of local bed shear stress in combined sewers

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