Hydrogen Through Methane Pyrolysis
This article illustrates that methane pyrolysis is an important emerging technology that presents an economically attractive hydrogen production process with zero CO2 emissions.
This article illustrates that methane pyrolysis is an important emerging technology that presents an economically attractive hydrogen production process with zero CO2 emissions.
This paper investigates adding silicon carbide and adjusting the crude oil–to–chemicals process in a multizone fluidized bed reactor to improve the performance in terms of morphology of hydrodynamics and thermal conductivity
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.
In order to analyze the effects that maldistribution of gas can have on FCC regenerator performance, researchers from China University of Petroleum conducted simulations using Barracuda Virtual Reactor.
CPFD Software are excited to participate in Altair’s upcoming webinar titled “Exploring Altair’s Solutions for Granular, Fluid, and Coupled Fluid-Particle Applications”. The webinar is scheduled to take place on March 20, 2024, from 10-11 AM EDT.
This publication summarizes studies available in the open literature on fluidized bed strippers as applied to the FCC and fluid coker unit operations.
In this paper, the simulation of the SE-SMR process in a DFB reactor is done in Barracuda Virtual Reactor, and the effects of bed inventory, superficial velocity and steam to methane ratio on hydrogen purity and methane conversion are discussed
CPFD Software announced that it has entered into a software licensing and services agreement with ACT-ion Battery Technologies. ACT-ion Battery Technologies are developing a novel continuous supercritical hydrothermal manufacturing process for coated single crystal cathode active materials in collaboration with Argonne National Laboratory.
Standpipes are an essential component to circulating fluidized bed systems. They are one of the only components of a circulating fluidized bed system that build pressure and adjust their height and pressure build automatically to balance the pressure drop along the rest of the circulating loop.
This PSRI Research Brief (RB 238) describes a new method developed at PSRI for sorting textile fibers