The True Technology Wind Generation System LLC.
The Natural Power Wind Generation System

All matter contains energy; most of this energy is on the form of non useful for human consumption, but it is useful for the matter at hand. In more instances matter must change form, before energy is subtracted.

For the past several decades, power generation has been accomplished using the same type of technology developed over a hundred years ago. The process for generating this electrical power to supply the demand with this type of old technology is getting into the danger zone. The supply of fossil fuels is limited, and this supply is getting lower by the day. Also this process of harnessing energy has proven costly to our environment with the side effects that come along with producing and using this type of fuel.

In looking for a solution to this problem, one of the first things we must realize is that this world is performing under dynamic influences. It is possible to maintain a static system on a dynamic environment as long as such system is sustained by an external energy supply. Once this supply is exhausted the power generation will end, and all we will have left are the side effects that we have accumulated while using this method.

This is a complex problem and solutions are not easy to find. For years, people have been looking for alternative sources of energy such as geothermal, hydroelectric, solar cells, bio fuels etc. only to find that the production is not only harmful to the environment and/or human life but the supply is limited in both areas of time and magnitude. The common denominator that these “alternatives” have is that they have been using “old technology” in trying to find new solutions.

There are two ways of looking at it, static and dynamic environment. The static environment is established by an operational point. All the characteristics and parameters of the system are designed and maintained about and around the operational point. This O.P. must be maintained in order to have constant performance.

Since the world is performing under natural dynamic conditions, let’s take a look at a dynamic power generation system that can perform in a natural environment. The dynamic system is more complicated, because there is no constant energy flow, and the generation is a fluctuating function. It is a lot tougher to control, and the efficiency becomes unstable, because the energy flow is not stable.

This dynamic system has been developed by experiments, and the mathematical expressions, theories and parameters have been the result of conduction numerous experiments. It took 16 years to complete the research and development and the required experiments to find and understand the dynamic system behavior. Experiments have shown that the dynamic environment demands a dynamic system couple with its own manufacturing methods and process. System behavior has demanded its own method and process. This new technology is clean with no side effects. The life of the turbine is 10 years. Since the three main components cannot be separated from one another, then the life of the whole system must be 10 years.

Figure 3 represents the true behavior of the new technology. This behavior was found by applying the correct values of the proportionality constant and figuring out how and which parameters were affected. It clearly shows that the voltage is not affected by the proportionality constant. There are only two options which the proportionality constant can affect, those are voltage and/or current. This is one of the reasons of why this new technology works.

Figure 3. True system response with the correct C values as a function of wind velocity.

From the Voltage point of view, the system’s response is in a linear mode, without any interference such as electronic devices or other modifications. Figure 3 confirms all of the experimentations conducted over the past 16 years and validates the methods, processes, equations and perspectives along with the research and development that took place in defining this new technology.

The voltage response is a linear function, but the current response is a power function. The effective power is equal to the effective voltage multiplied by the effective current, and the result is a power function showing in Figure 5.


Figure 5. The effective Power response as a function of wind velocity.

Calculations have been made using wind velocity magnitudes up to 1000 mph. In theory, concrete results were not expected. Although such wind velocity is not achievable but only for testing purposes. Of course, those ridiculous results cannot be disclosed, but concrete response was obtained.

The generator is the center of the system and where the voltage generation takes place. The frequency is related to the wind velocity, and the processed voltage is the output of the system in D.C. The actual system does not produce resonance, harmonics and/or low effective power. It will start performing at very low wind velocities.

Now is a good time to remind the reader that this wind generation system has three independent lines of generation. This means that the results published above are per single line.  The total output of the system as whole is three times the amount stated above.

It has been established that the system is performing under dynamic mode because it does not contain a define efficiency, operational point, and limits of operation. All these characteristics are essential for the static system. In this case, the efficiency is in a variation mode which depends on the wind velocity magnitude. The system has a reference point where all the design criteria, and characteristics has been establish. The new equations can produce concrete evidence at attainable wind velocity magnitudes. From this establish reference point, experiments shows that the turbine and the generator are responding on a linear mode regardless of wind velocity magnitudes. The concern is focus on the electronics section, which at some wind velocity magnitude will become saturated and loosing the ability to process the power been generated. For the present purpose intended saturation stage have not been accomplish yet. Experiments show that it will take higher wind velocity magnitudes to accommodate such stage. At this point the electronics section must be change but not the system.

The dynamic characteristics are listed below:

                    A) Reference point is required.
                    B) Must have no Limits.
                    C) Responsive to a variable function.
                    D) Must operate in linear mode.
                    E) System evaluation is base on effective power.
                    F) It is operating under Transient response.

The following enforces the positive aspects of the fuel air supply:

                    1) It does not need further process.
                   2) Virtually endless fuel supply.
                   3) It does not damage the environment.
                   4) Manufacturing materials can be used to be 100% recyclable .
                   5) The system is very small in size (can be portable.)
                   6) Operates anywhere on Earth.
                   7) Independent of any attachments.
                   8) Clean sine wave generation.
                   9) Little or no maintenance.
                  10) Becomes fully operational at low wind velocities.

Figure 3 is the physical evidence of the system’s performance and behavior. It also links the system’s parameters in theory and in actual values. It validates the Dynamic System Characteristics which are listed above.

System behavior has been more challenging for the following reasons:

                     A) Own method and process.
                     B) Reference point.
                     C) System parameter design.
                     D) Some proportionality constant.
                     E) System behavior.

In the early stage of system development, it was believed that the manufacturing process was sufficient to explain and defined the system. It was an incorrect assumption.

Experiments deployed the option of establishing a reference point. It also provides the search for methods and theories of parameters definitions. All of the known theories for estimating system results were tried and no positive result was found. All the answers were at the extreme side too low or too high values.
It was necessary to go beyond the basic static perspective. Think under dynamic stage and forge new theories and perspectives. Even under most ridiculous process. New theories were found, new equations were able to come closer to the real system results, and can be restricted within the system parameters definition.

Most people will define this proportionality constant under Lab conditions using this approach. A particular known force is applied to the spring and the distance is measured. The proportionality constant is determined by the force applied divided by the distance the spring has traveled. This process is considered under static conditions. It has been established that the system is dynamic and it is under dynamic conditions. The benefit that this analysis gives is the possibility that something similar is happening between the voltage and current. That only appears under dynamic performance.
λ is the correlation (dimensionless) between the equation parameters and the voltage values.
β is the correlation (dimensionless) between the equation parameters and the current values. It is found that β is the only affected by the proportionality constant, and not the voltage. This constant is directly proportional to the parameter and the geometry of the device. The Turbine does not contain such effect.
It has been found that the proportionality constant only affects the current. Such constant is present on three different devices of the generation process, which are Cg, and the modification unit which contains two, C₁ at the input of the primary section, and C₂ at the secondary exit section.

Unlike the operational point, the reference point can be a variable stage. There is only one small detail, if the reference point is moved or adjusted, all of the subsequent parameters must be act accordantly. The new theories and equations do respond on a positive way to such action; though it must be pointed out that the efficiency evaluation is unpredictable and/or inconsistence.

This proportionality constant is geometry dependant of the devices and influence by the parameters, which in turn influence the current. This process is more complicated than the spring process, but the spring process will help understand the basic concept and influences.

Each section has its own parameters and equations, therefore each section must contain its own proportionality constant.  λ is directly proportional of β, and β is directly proportional of the impedance and the proportionality constant C. All of this must correlate with the equations, parameters, and the reference point.

System Behavior under Natural Conditions:
In so far, all these graphs have being produced with theories, experiments and the reference point. This is all new technology. It will be important to analyze the low wind velocity response.

Table I.   Raw Data Readings under natural conditions.

RUN                   3              1           7          2
ξᴾ (Volts) DC     25.2     36.8    43.9     56.3
Tᵐᴿ(msec)          98.441   73.156  61.495  50.383
The output of the electronics box is called the Processed Voltage (ξᴾ) this voltage is measured in D.C. or the common volt meter readings. It was discovered that ξᴾ is directly proportional to the ξ²ᴬᶜ or the output of the modification unit in A.C. mode. Of course it contains a proportionality constant which is Cᶢ the generation constant.  In equation form, this is:
ξᴾ = Cᶢ ξ²ᴬᶜ                                             (2)
          ξᴾ = Voltage reading in D.C.
         Cᶢ = Proportionality constant at generator dimensionless.
         ξ²ᴬᶜ = Output of the modification unit in A.C.

Since the voltage consumed by the diodes is constant, it is called ξᴰ and the magnitude is assumed to be 1.2 volts.

The next step is to correlate the frequency with wind velocity. Frequency is depending on the time required to form the sine wave peak to peak, and is measured in seconds;  who is related to the angular velocity and the angular velocity is directly proportional to the wind speed.
Frequency is equal to the time peak to peak that it takes to travel one completed cycle; this process is for a sine wave. In equation form is:
ƒᵐᴿ = 1/Tᵐᴿ                                  (6)

Experiments have shown that this frequency is affected by the proportionality constant of the generator (Cᶢ) in a direct form. The equation is:
ƒᵐ = Cᶢƒᵐᴿ                                      (7)
             ƒᵐ = Voltage generation.
             Cᶢ = proportionality constant of the generator dimensionless.
            ƒᵐᴿ = Frequency from peak to peak.

The combination of equation 5 with equation 7 will yield the instant voltage generation under natural conditions because this voltage is directly proportional to the reading we obtain from the oscilloscope.  It is unlikely to have two voltage generation values one from theory and a different one from the oscilloscope reading, especially when experiments and actual components have been used to predict such result. Consequently, the link between the theory and the actual performance has been found.  Another side effect of this link is the fact that the percentage difference between the frequencies must be zero or very close to it and the local wind velocity magnitude is known without taking an actual reading.

The following enforces the positive aspects of the fuel air supply:
                        1) It does not need farther process.
                        2) Virtually endless fuel supply.
                        3) It does not damage the environment.
                        4) Manufacturing materials can be used to be 100% recyclable.
                        5) The system is very small in size (can be portable.)
                        6) Operates anywhere on Earth.
                        7) Independent of any attachments.
                        8) Clean sine wave generation.
                        9) Little or no maintains.
                        10) Become fully operational at low wind velocities.
  The drag backs are:
                        1) Cannot produce large power magnitudes.
                        2) Depending on wind velocities time frame.
                        3) Batteries and inverters quality.
                        4) Wind flow interference (naturally or manmade.)
                        5) Manufacturing process time frame.

The list of positive results is very much on stable conditions. There is nothing that can be done to make things better or worse. In the other hand there are some things on the negative list that can be move to the positive list, such as batteries and inverters, wind flow interference, and the manufacturing process. For depending on wind velocity time frame there is nothing anyone can do about it, such stage it always is in existence. However it may be possible to improve on the power generation magnitude. Keep in mind that this is a new technology and there is plenty of room for improvement.

Evaluations System Alternative:

Most people have the notion to evaluate a system under the efficiency (ɳ,) because this is a new technology that does not possess such criteria. In sated this process outline an alternative method of evaluation and demonstrated that the actual system efficiency is very difficult if not impassable to obtain.

It has been mention above that there are two theories, the manufacturing and system theories. It has been establish that the system theory yields no specific results on the efficiency (ɳˢ.) This procedure must be taken as a reference point to evaluate the actual system performance.

A shaft is used to connect the Turbine and the Generator. There are only two ways that the interaction can take place between the Turbine and the Generator, which are in series or parallel.

In the manufacturing theory each of the two machines contains efficiency independent of each other, and influence by the wind velocity. Figure 6 shows the response efficiency of each machine as a function of wind velocity. Figure 6 is on home page.

Usually sales means to convince people to do something they do not want to do. Besides I have been told time and time again that I’m not a sales person, and they are right I am a scientist. There is nothing wrong in being a sales person though.
Merely presenting the facts. At this point some people will be asking, are you trying to sell me something?, or what is your purpose in tell me all of this? Am I supposed to care about that? about the discovery and breakthroughs of a new power generation technology, where and how we are, and where we are going. If you believe this convence yourself, and want to use this new technology great. If not, that is entirely up to you.
We are not in the business to convence anyone to do something they do not want to do. Also we are not in the business of making so much profit, and/or sell certain amount of systems because we are not constrained or restrained by anyone demanding more profits or against any market. This is a unique product that will stand on its own.
Our purpose is to leave this Earth better than what it is right now for our children and future generations. Although there is a saying “you can take the hoarse to the water, it is all up to the hoarse to drink it.”
If you need more information, please contact us by phone or e-mail. If there is no answer, please leave a massage. The e-mail will be responded within 24 hours.
The price of the system is $ 15,000.00 dollars. This price has been adjusted to take into account the recycling issue. We think this is a fair market value. If you live in the U. S. A. the federal government will give you a 30% tax credit which is $4,500.00 dollars. Out of packet price is $ 10,500.00 dollars. The life of the system is 10 years, so the monthly payment is $ 87.50 dollars/month. There is no better deal than that.
The batteries and inverters are not included, because they depend on the power demand or purpose of the system. We can help you select the correct batteries and inverters to satisfy your particular application.

So any questions, concerns, messages of encuragement, etc. send us a message or give us a call. Note: The entire document is 40 pages.

Best wishes,
The True Technology Wind Generation System LLC.