Posts Tagged ‘sources’
Gas Hydrate Alternative Energy
http://EZGasSavers.com
Posted in renewable energy sources | 
Tags: alternative, energy, gas, global, hydrate, renewable, Source, sources, warming | 
7 Comments »
How to produce Biodiesel from vegetable oilHow the Green Energy Movement Benefits America
Complete video at: http://fora.tv/2008/08/15/T_Boone_Pickens_-_The_Pickens_Plan
Billionaire investor, philanthropist and energy reform activst T. Boone Pickens discusses ways America could benefit from the current “green energy” movement, both economically and spiritually.
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T. Boone Pickens is currently the chairman and CEO of BP Capital, which operates energy focused commodity and equity funds. He is also the largest shareholder in clean energy, the largest provider of vehicular natural gas in North America with a broad customer base in the refuse, transit, shuttle, taxi, police, and interstate trucking, airport and municipal fleet markets – The Aspen Institute
Mr. Boone Pickens is the founder of BP Capital. Pickens is active in the management of both the BP Capital Equity Fund and the BP Capital Commodity Fund. Specifically, Pickens is principally responsible for the formulation of the energy futures investment strategy of the BP Capital Commodity Fund and the BP Capital Equity Fund. Pickens frequently utilizes his wealth of experience in the oil and gas industry in the evaluation of potential equity investments and energy sector themes. He also participates in the marketing of the BP Capital Equity Fund to certain groups of potential investors. Pickens was the founder of Mesa Petroleum in its various forms beginning in 1956. Pickens’ career at Mesa spanned four decades. Under his leadership, Mesa grew to become one of the largest and most well-known independent exploration and production companies in the U.S.
Duration : 0:5:19
Posted in green energy |
Tags: activism, alternative, america, business, cars, clean, Congress, economics, energy, Environmental, Fuel, gas, government, Green, Hydrogen, independent, investing, natural, oil, Power, solar, sources, States, TED, turner, United, wind |
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Keppe Motor – Part 3/3
Keppe Motor utilizes the discovery of the principal of the capturing of scalar energy as shown in the book The new physics of dis-inverted metaphysics by Norberto Keppe It utilizes the bi-directional, resonant energy which forms the universe.
The technology in todays motors uses electrical energy, which is only uni-directional, and as such is the cause of the loss of resistance in wires, as one observes in the heating of motors and much energy is needed to cause their movement. In the Keppe Motor the movement is mainly caused by the secondary component of electrical energy, which comes directly from the energetic scalar field of space, being that the electrical energy used is only to give a start to the process of capturing this energy. And as a consequence, because we have little consumption of electrical energy, the motor does not heat and because the energy it uses is in accordance with nature, it can benefit it.
Through the results obtained in experiments, we can prove that if it is perfected by engineering specialists, it is possible for the motor to generate more energy than it consumes, capable of feeding itself and becoming another means of obtaining energy other than hydroelectric, eolic (wind), coal, gasoline, water etc. Keppe Motor utilizes the discovery of the principal of the capturing of scalar energy as shown in the book The new physics of dis-inverted metaphysics by Norberto Keppe It utilizes the bi-directional, resonant energy which forms the universe.
THE KEPPE MOTOR CLUB – JOIN THE DISCUSSION
If you have questions, ideas to toss into the discussion, new suggestions for developing this innovative technology, this is the place to do it.
www.keppemotor.com
www.stop.org.br
Duration : 0:9:12
Plant Fueled: Grassroots Biofuel in Pittsburgh (2008) Video
Plant Fueled: Grassroots Biofuel in Pittsburgh (2008). Short Documentary about Biofuels in Pittsburgh. Biofuel (if cultivated, then also called agrofuel or agrifuel) can be broadly defined as solid, liquid, or gas fuel consisting of, or derived from recently dead biological material, most commonly plants. This distinguishes it from fossil fuel, which is derived from long dead biological material. Biofuel can be theoretically produced from any (biological) carbon source. The most common by far is photosynthetic plants that capture solar energy. Many different plants and plant-derived materials are used for biofuel manufacture. Biofuels are used globally and biofuel industries are expanding in Europe, Asia and the Americas. The most common use for biofuels is as liquid fuels for automotive transport. The use of renewable biofuels provides increased independence from petroleum and enhances energy security. There are various current issues with biofuel production and use, which are presently being discussed in the popular media and scientific journals. These include: the effect of moderating oil prices, the “food vs fuel” debate, carbon emissions levels, sustainable biofuel production, deforestation and soil erosion, impact on water resources, human rights issues, poverty reduction potential, biofuel prices, energy balance and efficiency, and centralised versus decentralised production models. One of the greatest technical challenges is to develop ways to convert biomass energy specifically to liquid fuels for transportation. To achieve this, the two most common strategies are: 1. To grow sugar crops (sugar cane, and sugar beet), or starch (corn/maize), and then use yeast fermentation to produce ethanol (ethyl alcohol). 2. To grow plants that (naturally) produce oils, such as oil palm, soybean, algae, or jatropha. When these oils are heated, their viscosity is reduced, and they can be burned directly in a diesel engine, or the oils can be chemically processed to produce fuels such as biodiesel. Wood and its byproducts can be converted into biofuels such as woodgas, methanol or ethanol fuel. Some researchers are working to improve these processes. Biomass is material derived from recently living organisms. This includes plants, animals and their by-products. For example, manure, garden waste and crop residues are all sources of biomass. It is a renewable energy source based on the carbon cycle, unlike other natural resources such as petroleum, coal, and nuclear fuels. Animal waste is a persistent and unavoidable pollutant produced primarily by the animals housed in industrial sized farms. Researchers from Washington University have figured out a way to turn manure into magic. In April 2008 with the help of imaging technology they noticed that vigorous mixing helps microorganisms turn farm waste into alternative energy. Providing farmers with a simple way to treat their waste and convert it into energy. There are also agricultural products specifically grown for biofuel production include corn, switchgrass, and soybeans, primarily in the United States; rapeseed, wheat and sugar beet primarily in Europe; sugar cane in Brazil; palm oil and miscanthus in South-East Asia; sorghum and cassava in China; and jatropha in India. Hemp has also been proven to work as a biofuel. Biodegradable outputs from industry, agriculture, forestry and households can be used for biofuel production, either using anaerobic digestion to produce biogas, or using second generation biofuels; examples include straw, timber, manure, rice husks, sewage, and food waste. The use of biomass fuels can therefore contribute to waste management as well as fuel security and help to prevent climate change, though alone they are not a comprehensive solution to these problems.
Producer: Rob Cullen and John Landis
Creative Commons license: Attribution 3.0 United States
Duration : 0:28:31