lastID = -278774
Skip to main content Skip to top navigation Skip to site search
Top of page
  • My citations options
    Web Back (from Web)
    Chicago Back (from Chicago)
    MLA Back (from MLA)
Close action menu

You need to login to use this feature.

Please wait a moment…
Please wait while we update your results...
Please wait a moment...
Description: Access Water
Context Menu
Description: Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow...
Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?
  • Browse
  • Compilations
    • Compilations list
  • Subscriptions
Tools

Related contents

Loading related content

Workflow

No linked records yet

X
  • Current: 2020-02-23 14:56:50 Adam Phillips
  • 2020-02-23 14:56:49 Adam Phillips
  • 2020-02-01 03:25:54 Administrator
  • 2020-02-01 03:25:53 Administrator
  • 2020-02-01 03:25:52 Administrator
Description: Access Water
  • Browse
  • Compilations
  • Subscriptions
Log in
0
Accessibility Options

Base text size -

This is a sample piece of body text
Larger
Smaller
  • Shopping basket (0)
  • Accessibility options
  • Return to previous
Description: Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow...
Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?

Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?

Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?

  • New
  • View
  • Details
  • Reader
  • Default
  • Share
  • Email
  • Facebook
  • Twitter
  • LinkedIn
  • New
  • View
  • Default view
  • Reader view
  • Data view
  • Details

This page cannot be printed from here

Please use the dedicated print option from the 'view' drop down menu located in the blue ribbon in the top, right section of the publication.

screenshot of print menu option

Description: Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow...
Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?
Abstract
The Tideway project is deep tunnel system for CSO control in London, UK featuring 22 tangential vortex drops conveying flows from the existing network to the tunnel. The vortex intake designs are required to provide flow measurement and high capacity in highly constrained arrangements. Tideway vortex designs build on guidance from earlier publications to develop new standards meeting specific project objectives. Key findings from Tideway’s research and analysis are presented through a number of case studies including one dimensional calculations, CFD modelling and physical modelling. Results demonstrate that the Tideway vortex intake designs achieve their key performance objectives of flow measurement and operationally robust performance in small footprints, defining new design standards and proving the expanded capabilities of tangential vortex drops. The work identifies strengths, best practice and limitations in analytical methods, along with areas for future research to refine vortex intake design techniques and analysis.
The Tideway project is deep tunnel system for CSO control in London, UK featuring 22 tangential vortex drops conveying flows from the existing network to the tunnel. The vortex intake designs are required to provide flow measurement and high capacity in highly constrained arrangements. Tideway vortex designs build on guidance from earlier publications to develop new standards meeting specific...
Author(s)
Joss PlantDavid Crawford
SourceProceedings of the Water Environment Federation
SubjectResearch Article
Document typeConference Paper
PublisherWater Environment Federation
Print publication date Sep, 2016
ISSN1938-6478
DOI10.2175/193864716819706509
Volume / Issue2016 / 12
Content sourceWEFTEC
Copyright2016
Word count164

Purchase price $11.50

Get access
Log in Purchase content Purchase subscription
You may already have access to this content if you have previously purchased this content or have a subscription.
Need to create an account?

You can purchase access to this content but you might want to consider a subscription for a wide variety of items at a substantial discount!

Purchase access to 'Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?'

Add to cart
Purchase a subscription to gain access to 18,000+ Proceeding Papers, 25+ Fact Sheets, 20+ Technical Reports, 50+ magazine articles and select Technical Publications' chapters.
Loading items
There are no items to display at the moment.
Something went wrong trying to load these items.
Description: Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow...
Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?
Pricing
Non-member price: $11.50
Member price:
-278774
Get access
-278774
Log in Purchase content Purchase subscription
You may already have access to this content if you have previously purchased this content or have a subscription.
Need to create an account?

You can purchase access to this content but you might want to consider a subscription for a wide variety of items at a substantial discount!

Purchase access to 'Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?'

Add to cart
Purchase a subscription to gain access to 18,000+ Proceeding Papers, 25+ Fact Sheets, 20+ Technical Reports, 50+ magazine articles and select Technical Publications' chapters.

Details

Description: Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow...
Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?
Abstract
The Tideway project is deep tunnel system for CSO control in London, UK featuring 22 tangential vortex drops conveying flows from the existing network to the tunnel. The vortex intake designs are required to provide flow measurement and high capacity in highly constrained arrangements. Tideway vortex designs build on guidance from earlier publications to develop new standards meeting specific project objectives. Key findings from Tideway’s research and analysis are presented through a number of case studies including one dimensional calculations, CFD modelling and physical modelling. Results demonstrate that the Tideway vortex intake designs achieve their key performance objectives of flow measurement and operationally robust performance in small footprints, defining new design standards and proving the expanded capabilities of tangential vortex drops. The work identifies strengths, best practice and limitations in analytical methods, along with areas for future research to refine vortex intake design techniques and analysis.
The Tideway project is deep tunnel system for CSO control in London, UK featuring 22 tangential vortex drops conveying flows from the existing network to the tunnel. The vortex intake designs are required to provide flow measurement and high capacity in highly constrained arrangements. Tideway vortex designs build on guidance from earlier publications to develop new standards meeting specific...
Author(s)
Joss PlantDavid Crawford
SourceProceedings of the Water Environment Federation
SubjectResearch Article
Document typeConference Paper
PublisherWater Environment Federation
Print publication date Sep, 2016
ISSN1938-6478
DOI10.2175/193864716819706509
Volume / Issue2016 / 12
Content sourceWEFTEC
Copyright2016
Word count164

Actions, changes & tasks

Outstanding Actions

Add action for paragraph

Current Changes

Add signficant change

Current Tasks

Add risk task

Connect with us

Follow us on Facebook
Follow us on Twitter
Connect to us on LinkedIn
Subscribe on YouTube
Powered by Librios Ltd
Powered by Librios Ltd
Authors
Terms of Use
Policies
Help
Accessibility
Contact us
Copyright © 2024 by the Water Environment Federation
Loading items
There are no items to display at the moment.
Something went wrong trying to load these items.
Description: WWTF Digital Boot 180x150
WWTF Digital (180x150)
Created on Jul 02
Websitehttps:/­/­www.wef.org/­wwtf?utm_medium=WWTF&utm_source=AccessWater&utm_campaign=WWTF
180x150
Joss Plant# David Crawford. Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?. Alexandria, VA 22314-1994, USA: Water Environment Federation, 2018. Web. 12 Jul. 2025. <https://www.accesswater.org?id=-278774CITANCHOR>.
Joss Plant# David Crawford. Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?. Alexandria, VA 22314-1994, USA: Water Environment Federation, 2018. Accessed July 12, 2025. https://www.accesswater.org/?id=-278774CITANCHOR.
Joss Plant# David Crawford
Pushing The Limits Of Tangential Vortex Intakes: Is Higher Capacity And Flow Measurement Possible In A Smaller Footprint?
Access Water
Water Environment Federation
December 22, 2018
July 12, 2025
https://www.accesswater.org/?id=-278774CITANCHOR