Add to ORKGMultiphase transport processes are encountered in many branches of science and engineering. Bubbles can be used, for example, as to cut off the blood flows that feed sick tissue growth and as potential drug delivery systems. This paper addresses the effect of bubbles on the increase of flow resistance within optimized Y-shaped tubes under different size constraints (volume, surface area). Y-shaped constructs of fluid streams can mimic the anatomy of the vascular system, and the results presented in this paper can be used for facilitating the design and analysis of the flow of bubbles through these systems
The lodging mechanisms and dynamics of cardiovascular gas bubbles are investigated in microfluidic m...
Decompression sickness is known to be due to the formation of bubbles in the body as a result of dec...
Microscale process engineering requires precise control of bubbles and droplets. We investigate geom...
Gas embolisms can hinder blood flow and lead to occlusion of the vessels and ischemia. Bubbles in mi...
Embolotherapy involves introduction of foreign objects into the bloodstream, normally solid, to occl...
Precise manipulation of minute volumes of fluids is at the heart of microfluidics and opens up an ex...
Air sparging is a means to prevent biofouling and scaling in hollow fibers and tubular membranes. Li...
lished March 24, 2005; doi:10.1152/japplphysiol.00656.2004.—The transport of long gas bubbles, suspe...
The purpose of this research is to investigate the behavior of a long bubbles penetrating through vi...
As an inevitable trend for the sustainable development of the global economy, saving energy and redu...
A bubbly flow in a vertical miniature tube is analyzed theoretically. The liquid and gas phase are c...
My summer research focused on the two-dimensional fluid dynamics problem of a single air bubble trav...
The characteristics of flows generated in different Y-junction bubble generators will be studied.Pre...
We present detailed results for the motion of a finite-sized gas bubble in a blood vessel. The bubbl...
Ramifying networks of tubes for delivery and multipoint distribution of fluids pervade engineered an...
The lodging mechanisms and dynamics of cardiovascular gas bubbles are investigated in microfluidic m...
Decompression sickness is known to be due to the formation of bubbles in the body as a result of dec...
Microscale process engineering requires precise control of bubbles and droplets. We investigate geom...
Gas embolisms can hinder blood flow and lead to occlusion of the vessels and ischemia. Bubbles in mi...
Embolotherapy involves introduction of foreign objects into the bloodstream, normally solid, to occl...
Precise manipulation of minute volumes of fluids is at the heart of microfluidics and opens up an ex...
Air sparging is a means to prevent biofouling and scaling in hollow fibers and tubular membranes. Li...
lished March 24, 2005; doi:10.1152/japplphysiol.00656.2004.—The transport of long gas bubbles, suspe...
The purpose of this research is to investigate the behavior of a long bubbles penetrating through vi...
As an inevitable trend for the sustainable development of the global economy, saving energy and redu...
A bubbly flow in a vertical miniature tube is analyzed theoretically. The liquid and gas phase are c...
My summer research focused on the two-dimensional fluid dynamics problem of a single air bubble trav...
The characteristics of flows generated in different Y-junction bubble generators will be studied.Pre...
We present detailed results for the motion of a finite-sized gas bubble in a blood vessel. The bubbl...
Ramifying networks of tubes for delivery and multipoint distribution of fluids pervade engineered an...
The lodging mechanisms and dynamics of cardiovascular gas bubbles are investigated in microfluidic m...
Decompression sickness is known to be due to the formation of bubbles in the body as a result of dec...
Microscale process engineering requires precise control of bubbles and droplets. We investigate geom...