Fluid Dynamics Revolution: Solid-State Pumps with Electro-Rheological Precision

Santiago Anthony, Andrew Hunter

Fluid Dynamics Revolution: Solid-State Pumps with Electro-Rheological Precision

Santiago Anthony, Andrew Hunter Department of Mechanical Engineering, NED University of Engineering and Technology

Keywords: Solid-State Pumps, Electro-Rheological Fluids, Fluid Dynamics, Precision Engineering, Electrorheological Precision, Pump Optimization, Smart Fluids, Rheological Properties, Fluidic Technologies, Industrial Fluid Conveyance

Abstract

This research delves into the revolutionary realm of fluid dynamics, focusing on the design and implementation of solid-state pumps enhanced with electro-rheological precision. The study explores the integration of electro-rheological fluids into pump systems, aiming to optimize fluid conveyance, enhance efficiency, and offer new possibilities for diverse applications. Through comprehensive experimentation and analysis, this investigation seeks to contribute to the advancement of fluidic technologies with potential implications for various industries, including medical devices, aerospace, and industrial processes.

Published

2020-03-31

How to Cite

Santiago Anthony, Andrew Hunter. (2020). Fluid Dynamics Revolution: Solid-State Pumps with Electro-Rheological Precision. INTERNATIONAL JOURNAL OF COMPUTER SCIENCE AND TECHNOLOGY, 4(1), 74-88. Retrieved from https://ijcst.com.pk/index.php/IJCST/article/view/366

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Issue

Vol. 4 No. 1 (2020): INTERNATIONAL JOURNAL OF COMPUTER SCIENCE AND TECHNOLOGY

Section

Articles