Operation and Optimization of an Oscillatory Flow Continuous Reactor

Abstract: Oscillatory flow reactors (OFRs) are a novel type of continuous reactor, in which tubes fitted with orifice plate baffles have an oscillatory motion superimposed upon the net flow of the process fluid. The combination of baffles and the oscillatory motion creates a flow pattern conducive to efficient heat and mass transfer while maintaining plug flow. Unlike conventional tubular reactors, where a minimum Reynolds number must be maintained, tube-side mixing is independent of the net flow, allowing long residenc… Show more

“…An example of this consists of employing static mixers and a technology developed over the past few decades, the continuous oscillatory baffled reactor (COBR). [14][15][16] The unique features of the technology that differentiates it from the tubular reactor are the combination of baffles placed at controlled intervals in the flow path, and the mechanical oscillation of the fluid. 14 The oscillatory flow coupled with the baffles results in vortex rings being formed in the system leading to unique mixing patterns that allow achieving near plug flow conditions at low Reynolds numbers.…”

“…[14][15][16] The unique features of the technology that differentiates it from the tubular reactor are the combination of baffles placed at controlled intervals in the flow path, and the mechanical oscillation of the fluid. 14 The oscillatory flow coupled with the baffles results in vortex rings being formed in the system leading to unique mixing patterns that allow achieving near plug flow conditions at low Reynolds numbers. 17 In this way, an even velocity profile in the direction of flow, complete mixing in the radial direction and minimal mixing in the axial direction can be achieved employing this technology.…”

Advanced reactor engineering with 3D printing for the continuous-flow synthesis of silver nanoparticles

“…An example of this consists of employing static mixers and a technology developed over the past few decades, the continuous oscillatory baffled reactor (COBR). [14][15][16] The unique features of the technology that differentiates it from the tubular reactor are the combination of baffles placed at controlled intervals in the flow path, and the mechanical oscillation of the fluid. 14 The oscillatory flow coupled with the baffles results in vortex rings being formed in the system leading to unique mixing patterns that allow achieving near plug flow conditions at low Reynolds numbers.…”

“…[14][15][16] The unique features of the technology that differentiates it from the tubular reactor are the combination of baffles placed at controlled intervals in the flow path, and the mechanical oscillation of the fluid. 14 The oscillatory flow coupled with the baffles results in vortex rings being formed in the system leading to unique mixing patterns that allow achieving near plug flow conditions at low Reynolds numbers. 17 In this way, an even velocity profile in the direction of flow, complete mixing in the radial direction and minimal mixing in the axial direction can be achieved employing this technology.…”

Advanced reactor engineering with 3D printing for the continuous-flow synthesis of silver nanoparticles

“…The OBR is a novel reactor in which an oscillatory motion is superimposed upon the net flow of the process fluid in a tube fitted with equally-spaced orifice baffles (Harvey et al, 2001). The interaction of the oscillating fluid with the baffles generates short-lived vortices resulting in uniform mixing in each of the inter-baffle regions, as each behaves as a stirred tank reactor (Mackley et al, 1990;Ni et al, 2003).…”

Kinetics of Cellulose Hydrolysis in an Oscillatory Baffled Reactor

“…The oscillatory flow reactor is a good example of an equipment with intensified heat transfer [36]. Indeed, it combines a reduction of the reactor volume and a better control of the reaction with enhanced safety and better selectivity and yield.…”

Heat exchanger/reactors (HEX reactors): Concepts, technologies: State-of-the-art