CPFD Releases Barracuda Virtual Reactor 24.0
CPFD announces the release of Barracuda Virtual Reactor® 24.0 that includes new physics capabilities, usability enhancements, and automated plotting for monitoring running simulations.
CPFD announces the release of Barracuda Virtual Reactor® 24.0 that includes new physics capabilities, usability enhancements, and automated plotting for monitoring running simulations.
Sponsors have been announced for the Barracuda Virtual Reactor Users’ Conference 2024 which will be held at the W Chicago – Lakeshore hotel, immediately following the PSRI Annual Meeting.
Beijing Hi-key Technology Co. Ltd., CPFD Software’s distributor for Barracuda Virtual Reactor in the People’s Republic of China, has announced a series of online and in-person training courses for 2024
Despite more than 100 years of commercialization of wide-ranging fluidized bed reactors, scale-up tools and methods have remained quite similar. To exploit the benefits of fluidized beds for the time-critical sustainability challenges, scale-up has to be implemented quicker and better.
This webinar on Barracuda Virtual Reactor 24.0, to be hosted by CPFD on May 8, 2024, provides overview of new features and enhancements including rotating and time-varying gravity, particle-to-particle thermal conduction, and SFF option to disable interpolation between rows.
When reactive particles which might agglomerate have to be withdrawn quickly from a fluidized bed reactor, intermittent powder discharge reduces the risk of agglomeration by ensuring high turbulence and low residence time in the discharge line
Also available on Youtube. About This Webinar Presented by: Sam Clark, Product Manager – CPFD Software CPFD hosted a webinar on Wednesday, May 8, 2024: Getting Started with Virtual Reactor…
CPFD will be attending tcbiomass2024, September 10-12. CPFD is pleased to be a Silver Sponsor at the event and will be staging an exhibit.
CPFD Software enters into a 2-year software licensing contract with ENEA of Italy. ENEA uses Barracuda Virtual Reactor simulation software for the simulation of a dual fluidized bed (DFB) system aimed at the modelling of several components of the EU research infrastructure ZECOMIX (Zero Emissions of Carbon with Mixed technologies).
This article highlights the collaboration between CPFD Software and the University of Hull in utilizing Barracuda Virtual Reactor for pioneering research on low-carbon hydrogen production through Sorption-enhanced steam reforming, showcasing the software’s efficiency, scalability, and pivotal role in advancing sustainable technologies.