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    The Quest for the Ultimate Prime Mover Engine
                               Key Question: 
        "What is the most efficient, effective 
             way to produce rotary shaft power?"

    In 2001, while vacationing on Prince Edward Island, Canada, Mert Pekrul was reading the book by James Gleick on Chaos Theory.  Gas law was being discussed and the author was providing examples of the  difference just one degree in temperature (thermodynamics) could make in terms of its  potentially far-reaching implications and ultimate effects. 
         Mert had also been studying cymatics, sonoluminesence, the Hebrew alphabet and  the vibrational frequencies of various substances.  As unrelated as these areas of study would  seem, some fascinating insights were gained when several concepts were connected.    More specifically, several critically important questions  were  raised regarding Bernoulli's gas laws and the then current approaches to  gas turbine design.

        For example, two questions grew out of those insights:

1) Why not apply the concept of the Fibonacci Ratio to the dynamics of a  confined expanding gas?  

2) How does the physical shape (based on the Fibonacci Ratio)  of a containment device configured as a dynamically sealed, rotating chamber,  affect the predictability of the net directional force of that expanding gas?

    Thus was discovered the most critically important Design Key of all.  In order to fabricate a truly efficient Rotary Expander Vane Engine, the Fibonacci Ratio and the Golden Mean, must be taken seriously. The Quest  to design the "Ultimate Engine" had now begun in earnest. 

    During the next 10 years other critical design keys were discovered. These additional Design Keys were also embodied into the final fabrication stages of the Fibonacci Engine (E-2).
The Kinematics of Machinery by Franz Reuleaux, provided further insights regarding a  Theory of Machines.

    The applications of these design keys have provided the solutions necessary to overcome the historic problems typically associated with rotary vane devices.  

  For example, the Fibonacci Seal System does not create excessive friction, yet provides excellent sealing, even with rapid  variations in internal temperature ranges, as well as wide fluctuations in internal vapor pressures. 
                            Repowering our Planet, One Nation at a Time
               Copyright (c) 2014-2023          Fibonacci Motors Corporation                          
           All Rights Reserved,
Patent(s) Pending