Skip to content
CPFD Software
Computational Particle Fluid Dynamics
CPFD Software
  • Technology
    • Award winning technology
    • High Business Value
    • Powerful Yet Simple
    • Complements other tools
    • Best in class support
  • Applications
    • FCCU / Refining
    • Petrochemicals
    • Gasification
    • Materials & Chemicals
    • Power Generation
    • Clean Technologies and Renewables
    • Research & General Fluidization
    • Other
  • Solutions
    • Software Licensing
    • Services
    • Training and Technology Transfer
    • R&D Partnerships
  • Community
    • Events Calendar
    • Partners
    • Users’ Conferences
    • Social Media
  • Resources
    • Publications
    • Testimonials
    • Webinars / Presentations
    • Simulation Videos
    • Bibliography
    • Finder
  • Company
    • Our Team
    • News
    • Careers
    • Distributors
  • Contact
Search:
Login
  • Technology
    • Award winning technology
    • High Business Value
    • Powerful Yet Simple
    • Complements other tools
    • Best in class support
  • Applications
    • FCCU / Refining
    • Petrochemicals
    • Gasification
    • Materials & Chemicals
    • Power Generation
    • Clean Technologies and Renewables
    • Research & General Fluidization
    • Other
  • Solutions
    • Software Licensing
    • Services
    • Training and Technology Transfer
    • R&D Partnerships
  • Community
    • Events Calendar
    • Partners
    • Users’ Conferences
    • Social Media
  • Resources
    • Publications
    • Testimonials
    • Webinars / Presentations
    • Simulation Videos
    • Bibliography
    • Finder
  • Company
    • Our Team
    • News
    • Careers
    • Distributors
  • Contact

Daily Archives: December 31, 2014

You are here:
  1. Home
  2. 2014
  3. December
  4. 31

Experimental and Theoretical Study of Minimum Fluidization Velocity and Void Fraction of a Limestone Based CO2 Sorbent

PublicationsDecember 31, 2014

Multiphase flow simulations created using Barracuda Virtual Reactor are used to compare with experimental data for determining minimum fluidization velocity for four different sizes of particles.

CPFD Software © 2022
  • Privacy Policy
  • Terms & Conditions
footer menu
Go to Top