AbstractThis work introduces a novel electromagnetic pump (EMP) that depends on rotating two hard magnets placed in an annular channel in opposing polarity through simultaneous energization of a set of solenoids. The magnetic field in each winding is energized to move one magnet (pumping) while the other is attracted between the inlet and the outlet ports (valving). At the end of each pumping cycle, magnets change their function between pumping and valving. The pump concept was tested for pumping water, where a flow rate of 13.7 ml/min at 200 rpm and a pressure of 785 Pa at 136 rpm are obtained
Theoretical and experimental modelling investigations have demonstrated that electromagnetic inducti...
peer-reviewedMicrofluidic technology witnessed a fast growth in recent years thanks to its diverse n...
In this study, we propose flap and duckbill valve Magnetorheological elastomeric (MRE) micropumps, w...
AbstractThis work introduces a novel electromagnetic pump (EMP) that depends on rotating two hard ma...
This paper presents the design and performance evaluation of a meso-scale electromechanical fluid pu...
There is a demand for intravenous drips for medical sites and for liquid delivery of microfluidic ch...
This paper presents an electromagnetic miniature pump using peristaltic motion of an interchangeable...
Theoretical and experimental modelling investigations have demonstrated that electromagnetic inducti...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.This...
Electromagnetic bi-directional micropumps (EMBM) are indispensable for the development of portable d...
A new type of micro-pump using an angular movement of an elastic plate is proposed. The moving part ...
This study presents an electromagnetically-actuated reciprocating pump for high-flow-rate microfluid...
Microfluidic technology witnessed a fast growth in recent years thanks to its diverse nature that al...
Micropumps play an important role in the delivery of insulin, hormonal and pain management for biome...
This paper presents a novel micropump of which pumping mechanism is based upon magnetohydrodynamic (...
Theoretical and experimental modelling investigations have demonstrated that electromagnetic inducti...
peer-reviewedMicrofluidic technology witnessed a fast growth in recent years thanks to its diverse n...
In this study, we propose flap and duckbill valve Magnetorheological elastomeric (MRE) micropumps, w...
AbstractThis work introduces a novel electromagnetic pump (EMP) that depends on rotating two hard ma...
This paper presents the design and performance evaluation of a meso-scale electromechanical fluid pu...
There is a demand for intravenous drips for medical sites and for liquid delivery of microfluidic ch...
This paper presents an electromagnetic miniature pump using peristaltic motion of an interchangeable...
Theoretical and experimental modelling investigations have demonstrated that electromagnetic inducti...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.This...
Electromagnetic bi-directional micropumps (EMBM) are indispensable for the development of portable d...
A new type of micro-pump using an angular movement of an elastic plate is proposed. The moving part ...
This study presents an electromagnetically-actuated reciprocating pump for high-flow-rate microfluid...
Microfluidic technology witnessed a fast growth in recent years thanks to its diverse nature that al...
Micropumps play an important role in the delivery of insulin, hormonal and pain management for biome...
This paper presents a novel micropump of which pumping mechanism is based upon magnetohydrodynamic (...
Theoretical and experimental modelling investigations have demonstrated that electromagnetic inducti...
peer-reviewedMicrofluidic technology witnessed a fast growth in recent years thanks to its diverse n...
In this study, we propose flap and duckbill valve Magnetorheological elastomeric (MRE) micropumps, w...