le that no human will be on this earth at that time. It cannot be created nor destroyed. It can change forms such as Mechanical Energy can be transform into Electrical Energy. 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. Further process is required to become available for the purpose intended. It is imperative to identify matter that contains energy, and is not a requirement to adjust its current form. Never the less in some matter it is easier to subtract some energy at the time. Every extraction of energy must follow a method or process. After many years of research and development coupled with countless experiments, a method of subtracting energy from the air and converted to Mechanical energy has been found. The Mechanical energy then is converted into electrical energy by passing a copper wire through a rotational magnetic field. The electrical energy is processed with electronic devices to become useful for human consumption. The product is a system with the following components: Wind Turbine, Generator, and electronics. Wind Turbine:
It is a machine capable of converting Kinetic Energy into Mechanical Energy. It is able to operate at low or high wind velocities. A new technology coupled with experiments allows this machine to be highly effective. It took five years to develop. Generator:
This machine is able to convert Mechanical Energy into Electrical Energy. The new technology coupled with experiments permits the effective performance at low and high Mechanical Energy. Note:
Coupling the Turbine and the Generator is not as easy as joining them together. Experiments show that synchronization between them must exist in order to maintain the high effectiveness of each machine. Electronics:
It is a new process which converts non-useful energy generated into useful energy. It also controls the synchronization between the Turbine and the Generator. It has the ability to convert A. energy. There by charging 12 volt batteries and sustain loads. The size of the load depends on the wind velocity. It took six year to develop. Experiments show that the possible expected life of the product is 40-45 years, or longer. A maintenance check-up must be performed every 10-12 years frequency, shutdown of the system for a couple days is required. The weight of the system is only 30 lbm (pound mass,) in Kilograms 13.64. It is very safe to place on top of a house roof. A person will make more damage walking around the roof, than the system will. The stand has been designed to satisfy the Standard Building Code for the State of California. In fact, the stand weights more than the system. The stand needs to be a minimum height of 20 feet at the center of the structure. CONCEPT
For most common people, it is very hard to understand the bolts and nuts of power generation. For starters power consumption is not the same as power generation. Think of it this way: if a person wants to eat strawberries, it is possible for that person to go to a strawberry field and even pick the fruit themselves, where they can eat as many as they want, in part because this type of fruit is eatable without any further process. Now supposed that the same person wants to drink a cup of coffee, they can go to the field and pick – up coffee beans, but cannot consume a cup of coffee right there on the spot like the strawberries, because the coffee beans need further process, and the rules are different for processing the beans to consume the coffee. Most people looks at power generation as a strawberry field, when in fact is a coffee bean. What people truly understand is the fact that at certain wind velocity some power must be produced. There are two kinds of power A. (Alternated) and D. (Direct)
The easier to measure is A.C. power at the generator. This is equivalent to coffee beans out on the field. In order to be consumed further process is required. For the purpose of this system A. is converted into D. in order to be able to recharge the batteries. This process makes the D. power a little harder to measure. In part because the current only “shows up” when it is needed, and to make things even worse, the current flows in the amount required by the batteries and/or the load only. In order to know the D. power in a more accurate quantity, experiments are conducted by increasing the load. It is impossible to avoid batteries reaction; it only means that the power on the battery will drop. How much the battery will drop? It all depends on the quality of the battery. If the battery is made in China, expect big drops like 1.0 to 1.5 volts. If the battery is made in the U. S. A, the drop is 0.3 to 0.7 volts. The batteries are common R. V. deep cycle and acid-lead base. Other batteries were tested and found that some batteries drop very little, such as 0.05 to 0.07 volt. The price for this battery is in the thousands of dollars. The system uses six batteries, also the batteries will last longer and coupe better with the daily cycles. Since the batteries react differently under constant load, the criteria used to approximate the D.C. power needs to be predictable. The closest predictability is by increasing the load until the batteries no longer holds a constant value. If the system is providing the power, the batteries will drop, but it will hold a constant value. When the system is no longer capable of providing the power demand by the load, the batteries must supply the rest of the power to maintain the load. It is found that at 7.39 wind velocity, a safe power load of 165.00 volt-amp can be used per line and there are three lines, at different phase angles. One line can be used for light, radio, and T. caution should be taken on how long each device is used. Like the T. can be used for 2-3 hours at the time, perhaps twice a day, and allow the system to recharge the batteries. The lights and radio can be used a bit longer, since they required less power, and if the wind is blowing, the system is providing the power. Another line can be used for kitchen and gadgets devices. Again, time frame is of the essence. The washing machine can be attached to this line, since it is not used daily. The third line can be used for a small to medium size refrigerator. This device only works five to ten minutes at the time, and the frequency is about 3-4 times per hour. It also depends how cold the food is maintained. It is recommended to remain connected to the grid until the customer understands and feels comfortable with the performance of the system. At the end of the day it is the customer’s decision to cut off from the grid or not. The system is designed to perform in urban areas. It does not means that it cannot work on non-urban areas. It is totally to the contrary. Since the wind velocities are higher on non-urban areas, the system performance is much better, because higher power generation is expected.