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Micropumps: Design, Fabrication And Applications

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Micromachines, an international, peer-reviewed Open Access journal. Journals. Active Journals Find a Journal Journal Proposal Proceedings Series

Passive micropumps are highly desirable for this purpose due to their ease of integration, low energy requirements, and simplistic design and operation. The design of a

Bilder von Micropumps Design, Fabrication and applications

Micromachines | Special Issue : Micropumps: Design, Fabrication and ...

Utilization of the model as a design tool, resulted in a dramatic improvement from previous “flexible” pump designs with maximum heads of approximately 0.24 m of H2O to a

MicropumpsCurrent micropump designs using MEMS fabrication technology are classified into two categories by pumping principles: mechanical micropumps and non

Some key features of micropumps like actuation techniques, performance parameters, working principles, structure, fabrication and applications have been reported, but this review has not

  • Bilder von Micropumps Design, Fabrication and applications
  • Micropumps and microvalves for biomedical applications
  • Microvalves and Micropumps for BioMEMS

Micropumps are one of the most powerful approaches for biomedical applications. The review focuses on proposals for operating principles and performance of two types of

This paper presents design, construction, and evaluation of a micropump for drug delivery applications. The proposed micropump consists of three components: fluidics, electronics, and

The micropump’s entire housing is 3D printed by fused deposition modeling to allow for ease of fabrication and flexible adoption to microfluidic applications. The proposed system

8. A. Nisar, Nitin Afzulpurkar, MEMS-based micropumps in drug delivery and biomedical applications, Sensors and Actuators, B 130, 917-942 (2008) 9. Tarik Bourouinay, Alain

Synthetic active systems capable of autonomous motion or driving fluid flow are of great current interest owing to their potential applications in nanomachinery, cargo capture and delivery,

Eijkel et al. (2003) developed a circular AC MHD micropump for application to chromatography, and West et al. (2003) fabricated and tested miniature-machined and micro

The significant finding from the thesis is the successful design, fabrication, and evaluation of an innovative electrostatic micropump that employs electrostatic forces to initiate movement,

First true micropumps were reported in the mid-1970s, [8] but attracted interest only in the 1980s, when Jan Smits and Harald Van Lintel developed MEMS micropumps. [9] Most of the

The structures of the valveless micropumps are relatively simple comparing to the check valve micropumps and thus the fabrication processes of the valveless micropumps are

Micropumps constitute an essential part of precise delivery and directional volume control of fluid in a microfluidic system. In biomedical applications, micropump is widely used especially in

Micropump features such as miniaturization potential, actuation voltage and ease and cost of fabrication are compared and application-determining performance characteristics

Applications of micropumps that demonstrate the advantages of miniaturization or the benefits of specific micro- and nanotechnologies and micropump designs (for a particular

This paper focuses on the design of a micropump specifically tailored for drug delivery applications. The micropump is an essential component in microfluidics systems that

The design and fabrication methods are described and the characteristics of the micropump are discussed. 2. Theory and design . MHD micropumps operate on the basis of

Micropumps can precisely control the delivery speed and dose of drug solutions, simulating the release process of drugs in vivo. Micropumps can provide a stable and controlled

This paper reviews the comprehensive research on the design, fabrication and application of electromagnetic micromotors performed in our laboratory over the past years. Microactuators have become essential

There are no standardized measures of performance for microvalves and micropumps and each type of design varies greatly based on operating principle, materials,

This paper emphasis on physical principles and fabrication of micropump, state-of-the-art micropumping technologies developed over the past fifteen years, highlighting their

The ongoing challenges for developing the micropumps for healthcare applications are the working mechanisms of the pumps, the device configurations, and the fabrication

A micropump is a miniature fluid delivery device capable of generating flow at finite pressure loads. Micropumps are smaller than the conventional pumps, which use rotary or sliding

A valveless micropump based on an electromagnetic actuation for drug delivery application has been designed. The parametric studies are performed to examine the effects of

Inspired by the widespread applications of micropumps in different domains, an attempt is made to review the recent work that has been carried by the researchers in the field

Micromachines, an international, peer-reviewed Open Access journal. Journals. Active Journals Find a Journal Proceedings Series

The Tesla valve is appealing for drift control and rectification in mini and microfluidic applications due to its passive operation and no-shifting-elements design. The effectiveness of

1 Introduction. A micropump is a miniaturized device that has the function of transporting or distributing the liquid flow [1,2].Since the invention of the first micropump about four decades

The ongoing challenges for developing the micropumps for healthcare applications are the working mechanisms of the pumps, the device configurations, and the fabrication