Question:
"Is it possible The Fibonacci™ Engine (FE) really does represent
the most advanced break-through in Engine Technology today?”
Answer: Many believe so. Why?
Because the FE™ meets all the key design criteria required to earn it the title,
“The Ultimate, Prime Mover Engine”.
Question: If in fact such a system were to exist, would that energy conversion
system force a world-wide change-over to that new system?
Answer: It will take a concerted effort to force change, but it can be done.
Question: So, What are the criteria which would determine if an
Energy Conversion System could actually be considered as
being the Ultimate Prime Mover Engine System?
Answer: A major engine manufacturer had once written that if
an engine system met 5 of 7 key criteria, it would force change to the new engine system.
Assuming the above statement is accurate,
we believe we have the ultimate engine system required to meet the energy demands of the 21st Century.
Why? This point is a given:
The components of the FE are designed so most parts have at least two functions,
all working together to uniquely resolve the historic problems associated with rotary vane
devices. The assembled engine becomes greater than the sum of its component parts.
The Fibonacci™ Engine in fact, exceeds 15 of 15 key design criteria, not just 5 of the 7
Let’s now examine these 15+ Key design Criteria incorporated into the Fibonacci Engine System:
1) Low pressure system
2) Low temperature system
3) Massive torque at Zero RPM
4) Can operate at very high RPM, yet able to control classic problem of friction vs. sealing
5) Low weight to Horse Power ratio
6) No exotic materials needed for manufacturing
7) Few Moving Parts
8) Simple to maintain and repair
9) Multiplicity of function of key engine components
10) Low pollution factor: very environmentally friendly, even when using carbon-based fuels
11) High Fuel Economy: External Combustion, thus complete combustion, means savings at the pump
12) Can now use liquefied or powdered coal (water added), as a primary fuel, yet with low pollution
13) Can function as a hybrid system: can combine solar heat with an external burner
14) Able to benefit from use of Multiple Heat Cycles: either in combination or separately
15) Can operate as a Hybrid Heat Engine: Engine easily transformed using interchangeable parts
16) Low co-efficient of friction
17) Low co-efficient of expansion
18) Simple to manufacture, simple machining processes
19) Low-cost manufacturing change-over: minimal new tools for manufacturing required
20) Scalability: the size and complexity of such an engine must be able to satisfy a wide range
of power out-put needs
21) Gyroscopically balanced (Twin-Rotor Unit)
22) Excellent Vapor Flow Characteristics
23) Multiplicity of applications: easily adapt the power output to best match
the needs of the application
24) Renewable Energy Compatible, including functioning as a
solar-powered hybrid engine, capable of running an electrical generator 24/7
25) May be retrofitted into existing power generation systems,
replacing obsolete prime mover engines
Let's Further Examine One Key Design Criteria:
Low pollution & excellent fuel economy due to External Combustion (EC).
An External Combustion engine system results in a more complete combustion,
and thus, lowered emissions, better economy.
"Is it possible The Fibonacci™ Engine (FE) really does represent
the most advanced break-through in Engine Technology today?”
Answer: Many believe so. Why?
Because the FE™ meets all the key design criteria required to earn it the title,
“The Ultimate, Prime Mover Engine”.
Question: If in fact such a system were to exist, would that energy conversion
system force a world-wide change-over to that new system?
Answer: It will take a concerted effort to force change, but it can be done.
Question: So, What are the criteria which would determine if an
Energy Conversion System could actually be considered as
being the Ultimate Prime Mover Engine System?
Answer: A major engine manufacturer had once written that if
an engine system met 5 of 7 key criteria, it would force change to the new engine system.
Assuming the above statement is accurate,
we believe we have the ultimate engine system required to meet the energy demands of the 21st Century.
Why? This point is a given:
The components of the FE are designed so most parts have at least two functions,
all working together to uniquely resolve the historic problems associated with rotary vane
devices. The assembled engine becomes greater than the sum of its component parts.
The Fibonacci™ Engine in fact, exceeds 15 of 15 key design criteria, not just 5 of the 7
Let’s now examine these 15+ Key design Criteria incorporated into the Fibonacci Engine System:
1) Low pressure system
2) Low temperature system
3) Massive torque at Zero RPM
4) Can operate at very high RPM, yet able to control classic problem of friction vs. sealing
5) Low weight to Horse Power ratio
6) No exotic materials needed for manufacturing
7) Few Moving Parts
8) Simple to maintain and repair
9) Multiplicity of function of key engine components
10) Low pollution factor: very environmentally friendly, even when using carbon-based fuels
11) High Fuel Economy: External Combustion, thus complete combustion, means savings at the pump
12) Can now use liquefied or powdered coal (water added), as a primary fuel, yet with low pollution
13) Can function as a hybrid system: can combine solar heat with an external burner
14) Able to benefit from use of Multiple Heat Cycles: either in combination or separately
15) Can operate as a Hybrid Heat Engine: Engine easily transformed using interchangeable parts
16) Low co-efficient of friction
17) Low co-efficient of expansion
18) Simple to manufacture, simple machining processes
19) Low-cost manufacturing change-over: minimal new tools for manufacturing required
20) Scalability: the size and complexity of such an engine must be able to satisfy a wide range
of power out-put needs
21) Gyroscopically balanced (Twin-Rotor Unit)
22) Excellent Vapor Flow Characteristics
23) Multiplicity of applications: easily adapt the power output to best match
the needs of the application
24) Renewable Energy Compatible, including functioning as a
solar-powered hybrid engine, capable of running an electrical generator 24/7
25) May be retrofitted into existing power generation systems,
replacing obsolete prime mover engines
Let's Further Examine One Key Design Criteria:
Low pollution & excellent fuel economy due to External Combustion (EC).
An External Combustion engine system results in a more complete combustion,
and thus, lowered emissions, better economy.