Navigasjon

  • Hopp til innhold
NTNU Hjemmeside

HydroCen

  • HydroCen
  • Research
    • Hydropower structures
    • Turbine and generators
    • Market and services
    • Environmental design
    • Interdisciplinary projects
    • Laboratories
    • Associated projects
    • HydroCen Laboratories
  • Publications
  • News blog
  • Contact
  • About HydroCen
    • About HydroCen
    • Organisation
    • Partners
    • Board
    • Scientific Committee
    • Strategy and goals
  • International
    • International collaboration
    • Cross Atlantic Hydropower Research Alliance
    • DigiSur
    • EERA JP Hydropower
    • FishPath
    • FIThydro
    • Francis99
    • FranSed
    • HydroFlex
    • Hydro-Himalaya
  • Login Sharepoint
  1. HydroCen International FranSed Work Packages
  2. WP 3
  3. WP 3 Objectives

Språkvelger

WP 3 Objectives

×
  • International collaboration
  • Cross Atlantic Hydropower Research Alliance
  • DigiSur
  • EERA JP Hydropower
  • FishPath
  • FIThydro
  • Francis99
  • FranSed
    • About
    • Work Packages
      • WP 1
      • WP 2
      • WP 3
        • WP 3 Objectives
        • Task 3.1 Scaling for prototype turbine
        • Task 3.2 Sediment erosion model for ANSYS
        • Task 3.3 Experimental setup
        • Task 3.4 Numerical model
        • Task 3.5 CFD analysis of sediment erosion of Francis turbine
      • WP 4
      • WP 5
      • WP 6
    • News and Publications
    • FranSed Project Team
    • Contact
  • HydroFlex
  • Hydro-Himalaya

fransed logo

    FranSed logo. Logo.

MENY

WP3 objectives

Main Objective:

The major objective of WP 3 is to develop a sediment erosion model for the Francis turbine.

Secondary Objective:

  1. Develop a numerical model for flow field analysis of the Francis turbine and its validation with experimental measurements from NTNU.      
  2. Develop a sediment erosion model incorporating scaling between different materials used in the verification tests and for the prototype turbine.
  3. Develop an experimental setup to verify the sediment erosion model for Francis turbine
  4. Incorporate the sediment erosion model in ANSYS and validate the CFD model for the erosion of Francis turbine.
  5. CFD-analysis of the sediment erosion of the Francis turbine

WP 3.1 picture

   Bhilangana Power Plant. Photo : Ole Gunnar Dahlhaug

NTNU – Norges teknisk-naturvitenskapelige universitet

  • For ansatte
  • |
  • For studenter
  • |
  • Innsida
  • |
  • Blackboard

Studere

  • Om studier
  • Studieprogram
  • Emner
  • Videreutdanning
  • Karriere

Aktuelt

  • Nyheter
  • Arrangement
  • Jobbe ved NTNU

Om NTNU

  • Om NTNU
  • Bibliotek
  • Strategi
  • Forskning
  • Satsingsområder
  • Innovasjon
  • Organisasjonskart
  • Utdanningskvalitet

Kontakt

  • Kontakt oss
  • Finn ansatte
  • Spør en ekspert
  • Pressekontakter
  • Kart

NTNU i tre byer

  • NTNU i Gjøvik
  • NTNU i Trondheim
  • NTNU i Ålesund

Om nettstedet

  • Bruk av informasjonskapsler
  • Tilgjengelighetserklæring
  • Personvern
  • Ansvarlig redaktør
Logg inn
NTNU logo