Finally, the 13th International Conference on Fluidized Bed Technology is hosted by CFB on May 10-14, 2021 at Vancouver, Canada. The conference proceedings included multiple papers and video presentations involving Barracuda Virtual Reactor.
In this paper, researchers use Barracuda Virtual Reactor to study the gas-solid flow of Circulating Fluidized Bed (CFB) Units at variable load
In this paper, CFD modeling using Barracuda Virtual Reactor is employed to diagnose the causes of afterburn in an RFCC unit.
Researchers use Barracuda Virtual Reactor to validate experimental findings of fluidized beds with Geldart A particles
Numerical simulations in Barracuda Virtual Reactor is used to verify evaporation efficiency and ensure that wastewater from flue gas desulfurization is properly treated
In this study, machine learning was employed to elucidate the kinetics of olefins production from the direct cracking of crude oil feedstock in a dual-downer high severity fluidized bed system.
This paper analyzes and summarizes the fundamentals of CFD simulations of fluid-particle systems, specifically of fluidized beds.
Numerical granular-fluid simulations of high loaded cyclones with a concentric and with an eccentric vortex finder are performed using Barracuda Virtual Reactor to better understand their hydrodynamics.
This paper illustrates Barracuda Virtual Reactor’s ability to simulate a cold-flow model of a dual-fluidized bed (DFB).
This paper demonstrates the effectiveness of the numerical method used by Barracuda Virtual Reactor – the multiphase particle-in-cell (MP-PIC) method, which allows a detailed simulation of even large-scale units with affordable computational efforts.