PRACTICAL CONVERSION OF ZERO-POINT ENERGY

A Renewable Energy Plan 

There is many ways to create a "bright future" with renewable energy. There is no single answer for our future energy system. The future energy economy will consist of many renewable energy technologies used in combination -- wind, solar, geothermal and fuel cell energy. The technology to accomplish this is either available, or already being developed. Some of the tasks that we need to accomplish include:
  • Build an industry based upon alternative energy technologies 
  • Reduce energy costs 
  • Reduce climate change 
  • Increase energy security 
  • Help to create conditions for long-term prosperity 
In order to accomplish these tasks, we will have to:
  • Use a combination of wind power (both on and off-shore) 
  • Use both concentrating and standard PV power systems 
  • Use geothermal systems 
  • Use fuel cell systems that generate hydrogen using electrolysis 
  • Use biomass and municipal waste 
In order to successfully have a society based upon renewable energy, there has to be a way to store energy because renewable energy (solar and wind power) is intermittent. Solar and wind energy are both excellent methods of obtaining energy from natural resources, however, the levels of sunshine, and the intensity of wind varies. When these sources are not available - electricity cannot be generated. When a large amounts of energy is being produced, hydrogen can be created from water. The hydrogen can then be stored for later use.

As far as fuels are concerned, hydrogen is one of the most powerful fuels. Hydrogen is the most abundant element in the universe; however, it does not exist in its pure form on earth. Therefore, it has to be extracted from common fuel types or water. The process that is used most frequently for extracting hydrogen is the steam reforming of natural gas. It can also be extracted from coal, nuclear power, biofuels or even waste products. Hydrogen can also be produced using water through the process of electrolysis. Electrolysis splits water into hydrogen and oxygen using electricity. Renewable forms of energy such as photovoltaic cells, wind, hydro and geothermal are increasingly being used to produce electricity, and excess electricity can be used for the electrolysis process. The hydrogen can be used, or stored to generate electricity at a later time.

Electricity for Residential and Business Use


Electricity for residential and business use can be produced using a combination of wind, solar, and hydrogen fuel cells. There will also have to be intermediate solutions and cooperation between corporations, utility companies, and individuals in order to successfully transition to a renewable, hydrogen, and energy-efficient economy. Corporations will have to manufacture energy-efficient electronics and appliances, which minimize energy consumption, and automatically turn themselves off when not in use. Utilities and governments need to give incentives for people to use less energy, and individuals need to be more aware of the amount of energy that they are using. There is significant proof that the growth in the electricity demand can be decreased through the use of creating appliances and devices that are more energy-efficient, implementing building codes, financial incentives and helping individuals to voluntarily decrease energy use.

The U.S. Department of Energy recently conducted a study that investigated wind power, and found that implementing 600 GW by 2030 was feasible. If this actually occurred, this would be an estimated 50% of the United States predicted power use in 2030. One advantage of wind power is that it does not take a lot of space -- the towers can be placed on farmland, (and just about anywhere else), without really getting in the way.

Solar photovoltaics (PV) are a technology that can be used immediately, and sales have been growing very strongly during the last decade. However, it still has a small market share due to the high costs of the solar panels. Concentrating solar power may be accepted faster than conventional solar technology because the costs are beginning to be competitive with traditional energy technologies. Concentrating solar power systems allow power plants to produce electricity from the sun on a larger scale, which in turn allows consumers to take advantage of solar power without making the investment in personal solar technology systems. Geothermal energy can also provide a significant amount of energy if it can be proven within the next few years.

Fuel cells have already been used for decades for business and residential use. Stationary fuel cells can produce enough electricity and heat to power an entire house or business, which can result in significant savings - and they also can make enough power to sell some of it back to the grid. Fuel cells can also help provide electricity by working with large power plants to become more decentralized and increase efficiency. Most electricity produced by large fossil-fuel burning power plants are distributed through high voltage transmission wires over long distances. These power plants seem to be highly efficient because of their large size; however, a 7 to 8 percent electric energy loss in Europe, and a 10 percent energy loss in the United States occurs during long distance transmission. One of the main issues with these transmission lines is that they do not function properly all the time. It would be safer for the population if electricity generation did not occur in several large plants, but is generated where the energy is needed. Fuel cells can be used wherever energy is required without the use of large transmission lines.

Fuel cells can power residences and businesses where no electricity is available. Sometimes it can be extremely expensive for a house that is not on the grid to have the grid connected to it. Fuel cells are also more reliable than other commercial generators used to power houses and businesses. This can benefit many companies, given how much money they can lose if the power goes down for even a short time.

In the future energy economy, individual households will be able to produce their own energy. This will help to redistribute power from global oil companies and governments to the people. Individual households can share their energy with the grid to help distribute energy to areas that may have less due to weather conditions.

Portable Energy


Portable electronics such as laptops, cameras and cellular phones can last 10 - 20 times longer by using hydrogen. In coming years, portable devices-such as laptops, cell phones, video recorders, and others- will need greater amounts of power for longer periods of time. Fuel cells are very scalable and have easy recharging capabilities compared to batteries. Cell phone technology is advancing rapidly, but the limiting factor for the new technology is the power. More power is required to provide consumers with all of the functions in devices they require and want. The military also has a need for long-term portable power for new soldier's equipment. In addition, fuel cells operate silently, and have low heat signatures, which are clear advantages for the military.

The Creation of Jobs with the New Renewable Energy Industry


The building of the alternative energy industry would easily create millions jobs during the next 10 years. These jobs would include construction and operation of new power plants, manufacturing of renewable energy technology (such as solar and wind power), R&D for new renewable energy technologies, and jobs that are created due to the money spent on these technologies.

In order to transform our oil economy, we need to make an investment in changing it. We need to make sure that we are planning how to power our world during the next 20 years and beyond.

Zero Point Energy GeneratorOverunity Generator Blueprint

Practical Conversion of Zero-point Energy

PRACTICAL CONVERSION OF ZERO-POINT ENERGY
Zero-Point Energy Issues Zero-point energy (ZPE) is a universal natural phenomenon of great significance which has evolved from the historical development of ideas about the vacuum. In the 17th century, it was thought that a totally empty volume of space could be created by simply removing all gases

The principles for such energy generators come from a fringe area of physics known as "zero point". This was an area extensively studied by Albert Einstein and Nikola Tesla.

Why have we not been using this technology for many years if it has long been known about? Part of the reason is due to the complexities of developing this technology. Today, we know much more about it than we did 100 years ago.

The other reason is that many people suspect that this technology has been intentionally suppressed by some corporations and possibly even the government. This is because proliferation of these devices would wreck many vested interests. Nevertheless, commercial devices are around 4 or 5 years away at current estimates.



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