Multidisciplinary Research Journal

On Fractal Geometry for Water Implosion Engineering

Jurendic T1, Pavuna D2*

1Department of Industrial and Physical Pharmacy, Purdue University, West Lafayette, IN 47907, USA

1
Bioquanta Inc., Dravska 17, HR-48000 Koprivnica, Croatia 

2
Physics Section, Ecole Polytechnique Federale de Lausanne (EPFL) Station 3, FSB, CH-1015 Lausanne, Switzerland

*Correspondence E-mail: davor.pavuna@epfl.ch

Key Words: fluid mechanics, fractal geometry, implosion engineering, vortex, water clusters

Received March 22nd, 2012; Accepted June 11th, 2012; Published December 9th, 2012;

Available online December 15th, 2012

doi: 10.14294/WATER.2012.7

Summary

Historically water engineering was pre-dominantly treated within a conventional mathematical framework, like Bernoulli approach or more advanced Navier-Stokes equations; lately by various numerical modeling schemes. Here we outline how the natural, yet complex water (and related fluids) flow and implosion engineering can successfully be treated by contemporary fra-ctal mathematics. Such an approach could gradually improve our fluid engineering and the planetary use of natural water in bio-medical, transport and energy context.

Read: Full Text | PDF | Volume 4

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