MEASUREMENT OF FLOW IN CIRCULAR ELASTIC TUBE

Authors

  • Muhamad Mazwan Mahat Faculty of Mechanical Engineering, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia
  • Salmiah Kasolang Faculty of Mechanical Engineering, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia
  • Izdihar Tharazi Faculty of Mechanical Engineering, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia
  • R. Nazirul Izzati Faculty of Mechanical Engineering, Universiti Teknologi MARA, 40450 Shah Alam, Malaysia

DOI:

https://doi.org/10.11113/jt.v76.5792

Keywords:

Valveless pump, lastic tube, impedance pump, thickness, flow rate

Abstract

 

Impedance pump is a simple valveless pumping mechanism which typically used in viscosity measurement device to assist pumping of fluid. It is typically connected to an elastic tube in a circulatory system of a more rigid tube. In conventional mechanical circulatory support systems using rotary pump, the pumping mechanism was exposed to turbulent stresses. Hence,  this may cause damage to blood cells flowing through the impeller. There has been initial work on finding alternative solution using the impedance pump system. However,  substantial findings are not yet sufficient to fully understand the mechanism. The purpose of this research is to extend the investigation on impedance pump by specifically looking at the effect of structural parameters on the elastic tube and the flow behaviour. In this study, a closed loop impedance pump system was set up to demonstrate blood flow circulatory system where the mixture of glycerine and water was used as the working fluid. Three variables were regulated namely voltage, tube thickness, and tube length was used in order to get the flowrate of the working fluid. Based on the results, it was found that  tube thickness of 1 mm and a length of 200 mm had produced the highest flowrate in the region 75 ml/min.

References

Meier, J. A. 2011. A Novel Experimental Study of a Valveless Impedance Pump for Applications at Lab-on-Chip, Microfluidic, and Biomedical Device Size Scales. Dissertation (Ph.D). California Institute of Technology.

Hickerson, A. I. 2005. An Experimental Analysis of The Characteristic Behaviours of an Impedance Pump. California: Dissertation (Ph.D). California Institute of Technology.

Yunus A. Cengal and John M. Cimbala. 2010. Fluid Mechanics Fundamentals and Applications. New York: McGraw-Hill.

Heart disease and stroke statistics 2013. update 2013.

Kenneth D. Kochanek, Jiaquan Xu, Sherry L. Murphy, Arialdi M. M. and Hsiang-Ching Kung. 2009. Deaths: Final Data for 2009. National Vital Statistics Report. 60(3).

Sean R. Wilson, Michael M. Givertz and Garrick C. Stewart. 2013. The Challenges of Outpatient Management. J. AM. Coll. Cardiol. 54(18): 1647.

Lucia Angermayr, Marcial Velasco Garrido and ReinhardBusse. 2007. Ventricular Assist Device for Heart Failure. GMS Health Technol Assess. 3.

Mark S. Slaughter, Joseph G. Rogers, Carmelo A. Milano,Stuart D. Russell, John V. Conte, David Feldman, Benjamin Sun, Antone J. Tatooles and Reynolds M. Delgado. 2009. Advanced Heart Failure Treated with Continuous-Flow Left Ventricular Assist Device. The New England Journal of Medicine. 361(23): 2241.

Vincent C. C. Lee, Yousif A. A.Bakr, K. C. Woo and Mushtak Al-Atabi. 2011. Experimental Investigation of Open Loop Multi Stage Impedance Pump System. Journal of Engineering Science and Technology. 6(5): 551-557.

Thomas T. Bringley, Stephen Childress, Nicolas Vandenberghe and Jun Zhang. 2008. An Experimental Investigation and a Simple Model of a Valveless Pump. Physics of Fluids. 20.

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Published

2015-10-11

How to Cite

MEASUREMENT OF FLOW IN CIRCULAR ELASTIC TUBE. (2015). Jurnal Teknologi (Sciences & Engineering), 76(10). https://doi.org/10.11113/jt.v76.5792