Multiphase flows are ubiquitous in industrial settings. It is often necessary to characterize these fluid mixtures in support of process optimization. Unfortunately, existing commercial technologies ...

Researchers have developed a mathematical technique that radically reduces the enormous computational costs of trying to model fluids that combine both liquid and gas phases, especially within rocket ...

Operational experience shows that virtual metering of multiphase flow from subsea wells in the Malampaya project, off the Philippines, has been cost-effective, accurate, and reliable in determining ...

Accurate numerical simulation of multiphase flow in porous media underpins advances in hydrocarbon recovery, carbon capture and storage, and groundwater management. The governing equations combine ...

Multiphase flows as a research area focus on the physics, modeling, and numerical simulation of flows involving more than one thermodynamic phase (e.g., gas–liquid, liquid–solid, gas–solid, or ...

The design of devices such as ink-jet nozzles and piezoelectric fuel injectors and the control of these devices, depending on their operating conditions, demand an in-depth understanding of multiphase ...

Multiphase pumping has evolved into a well-accepted "best practice" in many producing areas and is now being asked to solve a wide range of operational problems. With hundreds of multiphase pumps now ...

Built for the digital and analytical world, the PipeFractionalFlow software has its origins in a college doctoral programme. “It’s a science project that started in 2007,” says Anand Nagoo, chief ...

Thanks to Project 5-100, the SUSU university staff has multiplied its intellectual potential. More and more international scientists tend to participate in the university's research work. Since ...