Sign Up

Join TheConstructor to ask questions, answer questions, write articles, and connect with other people. When you join you get additional benefits.

Have an account? Sign In


Have an account? Sign In Now

Sign In

Log in to TheConstructor to ask questions, answer people’s questions, write articles & connect with other people. When you join you get additional benefits.

Sign Up Here

Join for free or log in to continue reading...


Forgot Password?

Don't have account, Sign Up Here

Forgot Password

Lost your password? Please enter your email address. You will receive a link and will create a new password via email.

Have an account? Sign In Now

Sorry, you do not have a permission to ask a question, You must login to ask question. Get the paid membership

Join for free or log in to continue reading...


Forgot Password?

Don't have account, Sign Up Here
Get the paid membership
theconstructor.org Logo theconstructor.org Logo
Log inJoin

theconstructor.org

theconstructor.org Navigation

  • Articles
    • Recent Articles
    • Popular Articles
    • Write for us
  • Community
  • Categories
    • How To Guide
      • Material Testing Guide
    • Concrete
    • Building
      • Brick Masonry
      • Building Materials
      • Building Tips
    • Construction
      • Equipments
      • Management
    • Digital Construction
    • Geotechnical
      • Foundation
  • Case Studies
Search
Ask A Question

Mobile menu

Close
Ask a Question
  • Questions
  • Ask Questions
  • Write for us
  • Artificial Intelligence
  • Sustainability
  • Building
    • Brick Masonry
    • Building Materials
    • Building Tips
    • Formwork/Shuttering
  • Concrete
    • Concrete Admixtures
    • Cement
    • Concrete Cracks
    • Concrete Properties
  • Construction
    • Construction Equipments
    • Construction Management
    • Construction Project
    • Estimating & Costing
  • How To Guide
    • Material Estimation
    • Repair/Protection Guide
    • Material Testing Guide
    • Mix Design Guide
    • Rate Analysis
  • Geotechnical
    • Foundation Engineering
    • Ground Improvement
  • Structural Engineering
    • Strengthening of Structure
    • Structual Inspection
    • Structural Detailing
  • Surveying
  • Tips

What is Vena Contract in Orifice?

Home/ Questions/Q 46990
Next
In Process

Do you need to remove the ads? Get the paid membership

Asked: July 27, 20202020-07-27T19:45:36-07:00 2020-07-27T19:45:36-07:00In: Miscellaneous
civl engineer
civl engineer

civl engineer

  • 6 Questions
  • 0 Answers
  • 0 Best Answers
  • 30 Points
View Profile
civl engineer User

What is Vena Contract in Orifice?

  • 0
  • 5 5 Answers
  • 7,724 Views
  • 0 Followers
  • 0
  • Share
    Share
    • Share on Facebook
    • Share on Twitter
    • Share on LinkedIn
    • Share on WhatsApp

5 Answers

  • Voted
  • Oldest
  • Recent
  1. Himanshu joshi

    Himanshu joshi

    • 11 Questions
    • 27 Answers
    • 0 Best Answers
    • 767 Points
    View Profile
    Himanshu joshi Learner
    2020-07-28T22:05:17-07:00Added an answer on July 28, 2020 at 10:05 pm

    Vena-contract is a section in orifice which has a minimum cross-section area and has maximum velocity.
    At this, all streamlines are parallel, straight, and uniform, so have laminar flow.
    It is calculated by the area of the orifice (Ao) and the coefficient of contraction (Cc).
    Area of vena contracta Ac= Ao *(Cc).

    • 4
    • Share
      Share
      • Share on Facebook
      • Share on Twitter
      • Share on LinkedIn
      • Share on WhatsApp
  2. CB Sowmya

    CB Sowmya

    • 3 Questions
    • 53 Answers
    • 4 Best Answers
    • 5 Points
    View Profile
    CB Sowmya User
    2020-07-28T22:40:32-07:00Added an answer on July 28, 2020 at 10:40 pm

    Vena contracta is a section in the flow of water where the flow has considerably narrow. Vena contracta can be found when there is a sudden change in the cross-sectional area.  The streamlines of the fluid cannot change abruptly when the CS area changes. This sudden reduction in the cross-sectional area makes the streamlines converge and form the vena contracta.

    In this section, the velocity of the flow is maximum. From Vena contracta we can find the coefficient of contraction.

    Further, Vena contracta has wide use in studying the blood flow and in various treatments ad diagnoses like echocardiography.

    • 1
    • Share
      Share
      • Share on Facebook
      • Share on Twitter
      • Share on LinkedIn
      • Share on WhatsApp
  3. nikeetasharma

    nikeetasharma

    • 23 Questions
    • 303 Answers
    • 0 Best Answers
    • 2,680 Points
    View Profile
    nikeetasharma Guru
    2020-11-28T19:20:18-08:00Added an answer on November 28, 2020 at 7:20 pm

    Vena contracta is the point in a fluid stream where the diameter of the stream is the least and fluid velocity is at its maximum, such as in the case of the stream issuing out of a nozzle. It is a place where cross section area is minimum.

    • 1
    • Share
      Share
      • Share on Facebook
      • Share on Twitter
      • Share on LinkedIn
      • Share on WhatsApp
  4. Preet Chovatiya

    Preet Chovatiya

    • 11 Questions
    • 81 Answers
    • 5 Best Answers
    • 858 Points
    View Profile
    Preet Chovatiya Learner
    2020-07-28T22:47:46-07:00Added an answer on July 28, 2020 at 10:47 pm

    Vena contract is the point in flowing fluid at where the pressure energy is minimum and kinetic energy is maximum.

    This phenomenon happens because of the fluid streamline can’t change its direction abruptly. Streamline can’t follow Sharpe angles so vena contract forms.

    • 0
    • Share
      Share
      • Share on Facebook
      • Share on Twitter
      • Share on LinkedIn
      • Share on WhatsApp
  5. Vivek Patel

    Vivek Patel

    • 39 Questions
    • 80 Answers
    • 1 Best Answer
    • 6 Points
    View Profile
    Vivek Patel User
    2020-07-29T09:25:50-07:00Added an answer on July 29, 2020 at 9:25 am

    Veena Contra is a section where velocity distribution is uniform, and fluid streamline is parallel to each other.

    The study of Vena Contra is used for actual velocity study in jet flow.

    Coefficient of velocity is the ratio of actual velocity divided by the theoretical velocity

    The actual velocity is equal to the velocity at vena contra.

     

     

    • 0
    • Share
      Share
      • Share on Facebook
      • Share on Twitter
      • Share on LinkedIn
      • Share on WhatsApp

You must login to add an answer.

Join for free or log in to continue reading...


Forgot Password?

Need An Account, Sign Up Here

Sidebar

Explore

  • Questions
  • Ask Questions
  • Write for us
  • Artificial Intelligence
  • Sustainability
  • Building
    • Brick Masonry
    • Building Materials
    • Building Tips
    • Formwork/Shuttering
  • Concrete
    • Concrete Admixtures
    • Cement
    • Concrete Cracks
    • Concrete Properties
  • Construction
    • Construction Equipments
    • Construction Management
    • Construction Project
    • Estimating & Costing
  • How To Guide
    • Material Estimation
    • Repair/Protection Guide
    • Material Testing Guide
    • Mix Design Guide
    • Rate Analysis
  • Geotechnical
    • Foundation Engineering
    • Ground Improvement
  • Structural Engineering
    • Strengthening of Structure
    • Structual Inspection
    • Structural Detailing
  • Surveying
  • Tips

Footer

  • Ask Questions
  • Write for us
  • Popular Questions
  • Facebook
  • Instagram
  • Twitter
  • Telegram

© 2009-2021 The Constructor. All Rights Reserved.