Another Design Key Example: Two Heat Cycles are Combined . . . .
So why does the engine function more efficiently using two heat cycles?
The FE combines BOTH the Rankine heat cycle (steam), and the Brayton heat cycle (reaction turbine). This combination of heat cycles provides the means for the engine to maintain a constant RPM, even when using a waste heat source.
This point alone has been a major reason for the many failed attempts to use waste heat as a primary heat source. In other instances, high-speed turbine engine failure means costly down-time.
(Note: certain key design elements are not being disclosed regarding this critical point.)
A constant RPM is required for effectively and efficiently running an electrical generator, so there are not wide fluctuations in the electric cycle. The design of the FE-4 (not shown) is able to instantly compensate for rapid changes in load-demand, as well as sudden variations in BTU (heat) output, even when using waste heat, as its primary heat source.
Therefore, the FE is ideally suited to run an electrical generator, using a combination of waste heat, and even solar heat.
As stated, the key component of the Fibonacci Energy System is its uniquely designed external combustion Fibonacci Rotary Expander Engine (referenced to as the FE). Its unique, patent-pending components are combined in a manner which results in a very highly energy-efficient power system.
The Rotary Power System can be configured as either an “open-loop” system, or “closed-loop” system. When configured as an “open-loop” system, it is ideally suited to run as a rotary steam engine.
This means as an “open-loop” system, that the working fluid is water. When the water is heated, and turns to steam, there is
of course, some loss of water. But some of the spent water can still be re-captured, re-condensed, and re-circulated.
When the Rotary Power System is configured as a “closed- loop” system, a specialized working fluid is used as the primary working fluid. It goes to vapor-phase at about 90F. It is commonly known as “Organic Rankine Cycle” fluid, or ORC.
An external combustion Burner provides the ability to utilize many types of fuel, with either an open-loop system or closed-loop system.
Examples of fuels which can be used inside the external combustion Burner, include waste crankcase oil, waste transmission
fluid, natural gas, propane gas, and even liquefied powdered coal.
Because the FE is a heat engine, the heat source can also be waste heat from just about any source. This ranges from geo-thermal heat, to the waste heat generated at a dry cleaning plant. It also includes the waste heat generated from photo-voltaic cell banks.
The Engine can even run on compressed, outside air, and the air is ice-cold as it comes out of the 'exhaust port'. The exhausting air is cold because the engine extracts the heat energy from the air, and converts the heat into rotary shaft power. (Note the low exhaust Temperatures in the videos.)
A hybrid, combination of heat sources, can also include Solar Heat, thereby further increasing the over-all energy efficiencies of the Fibonacci Energy System.
This briefly highlights some of the reasons The FE is the Ultimate Prime Mover Engine, and why it is has also been called the “Game Changer Engine” of the 21st Century.
So why does the engine function more efficiently using two heat cycles?
The FE combines BOTH the Rankine heat cycle (steam), and the Brayton heat cycle (reaction turbine). This combination of heat cycles provides the means for the engine to maintain a constant RPM, even when using a waste heat source.
This point alone has been a major reason for the many failed attempts to use waste heat as a primary heat source. In other instances, high-speed turbine engine failure means costly down-time.
(Note: certain key design elements are not being disclosed regarding this critical point.)
A constant RPM is required for effectively and efficiently running an electrical generator, so there are not wide fluctuations in the electric cycle. The design of the FE-4 (not shown) is able to instantly compensate for rapid changes in load-demand, as well as sudden variations in BTU (heat) output, even when using waste heat, as its primary heat source.
Therefore, the FE is ideally suited to run an electrical generator, using a combination of waste heat, and even solar heat.
As stated, the key component of the Fibonacci Energy System is its uniquely designed external combustion Fibonacci Rotary Expander Engine (referenced to as the FE). Its unique, patent-pending components are combined in a manner which results in a very highly energy-efficient power system.
The Rotary Power System can be configured as either an “open-loop” system, or “closed-loop” system. When configured as an “open-loop” system, it is ideally suited to run as a rotary steam engine.
This means as an “open-loop” system, that the working fluid is water. When the water is heated, and turns to steam, there is
of course, some loss of water. But some of the spent water can still be re-captured, re-condensed, and re-circulated.
When the Rotary Power System is configured as a “closed- loop” system, a specialized working fluid is used as the primary working fluid. It goes to vapor-phase at about 90F. It is commonly known as “Organic Rankine Cycle” fluid, or ORC.
An external combustion Burner provides the ability to utilize many types of fuel, with either an open-loop system or closed-loop system.
Examples of fuels which can be used inside the external combustion Burner, include waste crankcase oil, waste transmission
fluid, natural gas, propane gas, and even liquefied powdered coal.
Because the FE is a heat engine, the heat source can also be waste heat from just about any source. This ranges from geo-thermal heat, to the waste heat generated at a dry cleaning plant. It also includes the waste heat generated from photo-voltaic cell banks.
The Engine can even run on compressed, outside air, and the air is ice-cold as it comes out of the 'exhaust port'. The exhausting air is cold because the engine extracts the heat energy from the air, and converts the heat into rotary shaft power. (Note the low exhaust Temperatures in the videos.)
A hybrid, combination of heat sources, can also include Solar Heat, thereby further increasing the over-all energy efficiencies of the Fibonacci Energy System.
This briefly highlights some of the reasons The FE is the Ultimate Prime Mover Engine, and why it is has also been called the “Game Changer Engine” of the 21st Century.