Thai king bhumibol King Thailand Substitute Energy

Thai king bhumibol The countrys demand for diesel and the continuous price increases has a great impact to the peoples way of life and the countrys economy. Because of His Majestys ingenuity he has recognized that the use of palm oil, a local raw material, can be used as substitute fuel. Even though fossil fuel may be depleted within a few decades Thailand possesses a fuel resource in which we can grow and produce our own fuel. His Majesty was most interested in experimenting with the extraction of palm oil in order to produce bio-diesel fuel which can be used in diesel engines and it is not harmful to the environment. Bio-diesel oil is another one of many Royal Support Projects with the objective of becoming self sufficient by means of combining traditional agriculture and modern technology, thus reducing dependence upon external fuel sources. Bio-diesel is a substitute energy source which demonstrates His Majesty the Kings ingenuity in giving the kingdom an alternative renewable source of sustainable energy for a better environment and a better future for everyone.

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BC Biomass Energy and Fuels

Biomass energy story by CBC’s The National aired July 14, 2008 about a startup company that will be producing bio-charcoal, bio-diesel, and syn-gas from organic material. As BC has a massive tree die-off the size of England, the first uses will be conversion of this enormous GHG source into usable carbon neutral fuels.

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Earth4Energy Review – Homemade Renewable Energy

Earth4Energy is a guide on how to build homemade power systems, including a DIY solar power system, a DIY wind power system, and making your own bio diesel. This in depth Earth4Energy Review takes you through the membership system showing you the products you get when you sign up. Also read a full review at www.renewable-energy-expert.com

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Jatropha grown at the Bio Energy Plantation in India

These are scenes from the Bio Energy plantation in India. For more information please contact me

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Alternative Energy – Biodiesel

Copyright (c) 2008 Mervyn Rees

Efforts to find affordable replacements to current vehicle fuel choices, biodiesel has quickly become one of the leading alternatives.

Biodiesel is considered a renewable eco-friendly resource derived from vegetable oil or animal fats. Once the vegetable oil or animal fat is processed, it becomes a combustible material, like the petroleum-based diesel currently used today in many vehicles. In fact, it is used daily around the world, and is already rapidly becoming the main stay of a lot of family budgets, with ever increasing popularity.

Biodiesel can and is being produced from rapeseed, soybeans, algae, palm oil, hemp, lard, mustard seed-in fact, any vegetable oil source, and yes, even waste vegetable oil, fish oil and animal fats. In fact, the August 2005 edition of National Geographic reported one biodiesel user who got his waste vegetable oil free from a local potato chip shop and spent eight dollars a month to turn it into biodiesel, which as we know is common practice now in many places.

Some of the advantages of biodiesel include:

* Biodiesel is an excellent way to use the vegetable oil and animal fats produced today, solving the hugely potential problem of waste products otherwise disposed of badly and the past problems that caused our environment.

* Biodiesel is biodegradable on land or in water, so naturally safer for all animal and plant life.

* Biodiesel is nontoxic.

* Biodiesel can be safer in accidents because it has a much higher flash point (300° Fahrenheit) than regular diesel or gasoline, and is considered a non-hazardous material.

* Biodiesel is a better solvent, so it cleans engines that have been dirtied and stained by long-term use of regular petroleum diesel.

* Biodiesel can be used right now, in any concentration with current petroleum diesel engines, making the transfer from one to the other very easy. However, older petroleum diesel engines may experience a higher degradation of seals and gaskets which can easily be changes for modern plastic alternatives used today.

* Biodiesel usage dramatically reduces carbon monoxide emissions and carbon dioxide emissions.

* Biodiesel reduces sulphur emissions by 100% (because it does not contain sulphur), which will help contribute to the Kyoto protocol mandate of reducing sulphur emissions.

Proponents say it may replace the fossil fuels used today to power vehicles. But it still has a ways to go:

* Biodiesel just like regular diesel tends to gel at temperatures that are very low, but this can also be rectified with additives.

* Biodiesel is more expensive to produce by the Gas Companies right now than other fuels currently in use (although rising costs in fossil fuel production could outstrip this problem shortly).

* Biodiesel will need a lot of vegetable oil and animal fat to meet the demand, and critics suggest that land use dedicated to filling the need will be astronomical, and largely an inefficient use of land in supporting the demand.

* The EPA reports that American restaurants produce 300,000,000 gallons of waste cooking oil every year, and although biodiesel can be produced from it, in the past it went to producing soaps, etc, but the cost of collecting it has caused Biodieselers to celebrate because a lot of them are happy to collect it for free.

There is a lot of support in the potential of biodiesel eventually helping to replace fossil fuels. In order to generate an accurate calculation on whether it’s a viable alternative or not, there are a lot of things that need to be taken into consideration. Check out my new book ‘The Secrets of Biodiesel’ and really get a handle on this.

Biodiesel commercially, is not cost effective today because it is not produced in such a large-scale. If it were manufactured on a larger scale, it may have a greater effect on price. To use a different example, it costs more-per-car to produce only one or two cars than it costs to produce 10 cars, or a hundred cars, or thousand cars. (This is why Henry Ford is hailed as a genius of the production industry, because he reduced car prices by creating an assembly line). So once the scale of biodiesel is ramped up, the cost will be more effective.

The cost of biodiesel has become very affordable as a way to fuel cars and heat homes of our individual Biodieselers, however, replacing the current processing plants that take oil and turn it into fuel may be so high that it is prohibitive, and asking drivers to switch vehicles or swap engines may not be an alternative for everyone. So clearly, there will need to be a “phasing in” effect in order to increase biodiesel or other bio-fuels, thereby greatly reducing the stranglehold of petroleum-based fuels.

Another factor to consider is the social cost. While many people do have the best intentions in mind to reduce emissions and waste and improve on their use of fossil fuels, people still make decisions based on their own personal impact; how much money and time will they save? There may be lots of people that are concerned about ecology, but there are so many more people concerned about whether they can afford to make the transition. Until biodiesel becomes the cheaper choice, the general public will not make the transition.

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Bio Diesel Fuel – An Energy Source Now and for the Future

Bio Diesel fuel is a diesel equivalent, processed fuel derived from biological sources, such as vegetable oils, which can be used in unmodified diesel engine vehicles. It can also be used as a heating fuel in domestic and commercial boilers. There are a number of naturally occurring and renewable resources it can be refined from including algae, vegetable oils, animal fats or recycled restaurant greases. It can also be processed where ever the raw materials to make it exist.

Bio diesel fuel is nearly completely free of sulfur and aromatics and is a naturally oxygenated fuel because it is composed of almost 10 percent oxygen. Because of this biodiesel provides a significant reduction in particulate and carbon monoxide emissions then petroleum based diesel fuel.

It is also safe to handle and transport because it is has the biodegradability of table sugar, is 10 tens less toxic then plain salt, and has a high flashpoint, the temperature at which it catches fire, of 300 degrees Fahrenheit as compared to regular diesel fuel which flashes ate 125 degrees Fahrenheit. Bio diesel can also be blended with petroleum diesel to create a biodiesel blend as well as its ability to be used in almost any diesel engine without any modifications.

Many gas stations are beginning to make biodiesel available to consumers and a growing number of transport fleets are using it as an additive to their fuel. It is important that fuel grade bio diesel be refined to tight industry specifications in order to ensure proper performance. One of the benefits of this fuel is it lower engine wear. In fact some vehicle manufacturers are beginning to make engines specifically for bio diesel for this reason.

Because it is a better solvent then regular diesel it tends to clean the engine when first used and removes deposits from the fuel lines which can clog fuel injectors. After switching to biodiesel most car manufacturers recommend changing the fuel filter to help prevent this. Use of this fuel leads to lower engine emissions while improving engine lubrication. Many government fleets on the federal and state level as well as utility fleets are now required to purchase 75 to 90 percent alternative fuel vehicles these days. Since biodiesel is the lowest cost alternative fuel option many of these fleets are converting to its use.

Diesel forms nearly 40% of the energy consumed in the form of hydrocarbon fuels, and its demand is estimated at 40 million tons per year. In the coming years as concerns about rising fuel prices and the lack of renewable energy sources rises the value of bio diesel fuel as a cheap renewable energy source will continue to rise.

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4 Reliable Suppliers Of Alternative Energy

1. Amelot Holdings is a US based company specializing in development of ethanol and biodiesel plants. It establishes relationships between the researchers and suppliers of alternative energy. The company facilitates joint ventures and mergers between the research facilities and the manufacturers of alternative energy. Thus, there is exchange of information and technology which helps to promote the growth of the alternative energy industry.

2. Environmental Power is another alternative energy supplier. It has two subsidiaries namely Microgy and Buzzard Power. Microgy undertakes research and development in the field of alternative energy. It has developed a cost-effective biogas facility by making use of agricultural and plant waste. It focuses on eco-friendly production of renewable energy like biogas to compare with the standards of natural gas. The biogas is used in combustion engines, and for heating homes and offices. Buzzard Power has an 83MW power facility to generate ‘green’ energy from coal waste.
Environmental Power has been in existence from the year 1982 and has a long history of development in the field of clean energy. The company has developed and operated municipal waste projects and hydroelectric plants and assisted in clean gas generation and energy recovery. It has a team of experts from the agriculture and finance sectors to manage the business and help its growth and expansion.

3. Intrepid Technology and Resources Incorporated (ITR) processes animal waste into natural gas as an alternative energy resource. America’s supply of natural gas is depleting. ITR believes that the two billion ton animal waste produced every year can be used to generate natural gas to tide over the deficit. Their ‘organic waste digesters’ built close to the sites of the organic waste, produce clean methane gas which is a viable option to natural gas. The company is based in Idaho but plans to expand its operations to the whole country.

4. Nathaniel Energy generates energy from waste matter. The company has devised s system known as Total Value Preservation System (TVPS) which sees the potential of waste materials to generate energy. Industrial waste matter which would have otherwise been discarded or destroyed is being put to optimum use to recover the trapped energy. The production costs towards generation of alternative energy are equivalent to the costs incurred by a company to install pollution control systems and preventions. TVPS is an innovative technology which recovers valuable resources that other processes fail to do.

There are many companies such as those listed above, which use innovative technology to augment our diminishing supply of natural resources by adopting environmentally safe methods to generate alternative energy or renewable energy. There is a need to invest in research towards finding alternative sources of energy as a replacement to fossil fuels. The future of the world depends on industries which can help to achieve this goal. The governments of the various countries need to co-operate in terms of exchange of ideas and information to solve the problems of global warming and environmental pollution. Alternative energy suppliers like the above mentioned companies can play a major role in this process and the government can promote these companies by providing them subsidies.

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Critical Factors for Achieving Commercial Breakeven in Renewable Energy

Critical Factors for Achieving Commercial Breakeven in Renewable Energy
(Abhishek Uppal)
There are a number of key sensitivities that affect the point at which renewable technologies hit the commercial breakeven points. In their research, analysts have pointed out how four sensitivities are particularly important:

The regulatory framework
Regulation is important for low carbon technologies. These technologies can be expensive and costs need to be brought down the learning curve. There are a variety of policy levers that can be employed to do this – with the rate of learning tied to how effective policy is in encouraging the development and deployment of the technology.

Local electricity price
There is significant geographic variation in electricity price due to differences in fuel prices and in conventional power production methods. There are also variations between peak power and off-peak power prices, which is important to consider when evaluating the competitiveness of renewable technologies.

Solar:
If capital costs of solar PV could be lowered to the region of $2,500/KW and natural gas stays above the $8/MMBtu mark, solar PV could be competitive with traditional peak power. The US has variable electricity prices that will result in different regions exhibiting different electric grid parity bands as peak retail rates in some regions have already gone above $150/MWh. Citigroup notes that, as a whole, rising electricity prices in the US are likely to drive demand for solar PV installations. High electricity prices in markets such as Spain and Italy in Europe have supported growth in solar in these countries.

Wind:
At current gas prices, wind is cost competitive with conventional gas in regions such as the UK and California. Despite supply chain issues, which we discuss below, onshore wind is an established form of power generation that can respond profitably, and is ready to be scaled up within favourably high gas price economies.

Natural resources
The theoretical resources available for the exploitation of solar PV power and wind power are far larger than any practical means for development. Nevertheless some regions exhibit particularly favourable conditions, which help to explain why geographic growth pockets have emerged.

Solar:
Electric grid parity without carbon pricing or subsidies is dependent on location as a result of variation in insulation (solar intensity). Areas such as Southern Europe and California benefit from above average hours of sunlight and some island economies such as Hawaii have already achieved electric grid parity without carbon pricing or subsidies for solar PV, in part because of high sun resources and in part due to high fossil fuel costs. The potential for developing countries, such as India, to utilize the natural resource of the sun is high, but barriers of connectivity to electric power grids will need to be overcome.

Wind:
Wind power is driven by the nature of the resource. A doubling of wind speed means about an eight-fold gain in electricity production. The UK is the best region in Europe for wind power owing to high wind speeds. Similarly, the Midwest US is rich in wind energy resources. Research and development in technology may enable wind power at higher elevations, offering more wind extraction.

Supply chain bottlenecks
Material supply chain bottlenecks may potentially delay the competitiveness of both solar and wind.

Solar:
Severe shortages of silicon have plagued the solar PV market for the past two years and thus, the cost of supplying the modules required for solar PV has remained high. The market is currently in tight supply, a state that is expected to ease up in 2009/2010. When the silicon bottleneck does eventually clear, costs will decline as a result and the overall cost of solar PV is likely to come down the curve, moving the technology closer to commercial breakeven without carbon pricing or incentives. Goldman Sachs notes that going forward there will be cheaper silicon prices due to significant production capacity coming online, which will move solar PV towards electric grid parity without carbon pricing or subsidies. Lehman believes that the availability of polysilicon will remain a bottleneck until 2010 as a result of greater capacity expansion plans from cell manufacturers than poly suppliers.

Wind:
Strong regulatory incentives, pockets of high wind resources, the push from high conventional fossil fuel prices and continued improvements in wind technology and performance have enabled wind to reach electric grid parity without carbon pricing or subsidies in some geographies. However, there are a few potential bumps in the market that could delay broad electric grid parity without carbon pricing or subsidies. The turbine market is currently in tight supply, and steel prices that are integral to turbine manufacture have increased significantly. Major capacity investments in manufacturing are needed to ease this lag in supply. In addition there are challenges of skills shortages in the sector. Both drawbacks are inherently the result of strong demand in the sector and consequently, as long as they can be overcome, the wind industry should be positioned to grow rapidly.

Beyond breakeven: The special case of biofuels: A renewable that is actually reducing the costs of conventional energy
While biofuels have suffered a lot of criticism for being unsustainable, causing deforestation, harming indigenous people and being net carbon emitters, we believe that there are good biofuels out there. We consider 2nd and 3rd generation biofuels, along with a limited number of 1st generation biofuels (sugarcane ethanol and jatropha-based biodiesel) to be worthy parts of the climate change investment universe.

Biofuels compete in the road transport fuel market rather than the electric power market. However, their special story deserves attention as a sign of what may be coming down the road.

More so than any other renewable, the economic influence of ethanol has been felt in the conventional energy markets. Research from Iowa State University indicates that blending ethanol with gasoline has kept fuel prices $0.29-$0.40 lower than they otherwise would have been in the US; McKinsey analysis indicates additional upside for blending up to E10, with the potential to decrease retail gasoline prices by $0.43-$0.65. Biofuels in the US are now “beyond breakeven.” We recognise that the sustainability of much of the ethanol for sale in the US is debatable. This is problematic, and will need to be addressed. However, economically, US ethanol has reached the final goal of renewables – becoming lower-cost alternatives to fossil fuels, unlocking cheaper energy costs and a wave of low-carbon prosperity.

The reason that ethanol is having this material impact on the price of retail gasoline in the US is that blending permits the replacement of expensive gasoline imports with a lower-cost substitute.

Biofuels have demonstrated their potential to reduce the cost of energy – and we see a promising future for them, as long as they are produced with respect to the highest standards of sustainability. This may mean that tariff regimes need to be eased to allow increased imports from tropical climates that are naturally disposed to produce biofuels, such as Africa and Brazil.

In any case, the story of ethanol’s impact on US gasoline prices may become more familiar in other energy markets going forward – ethanol may be the very first of a number of renewable technologies that unlock a low-carbon revolution, where consumers pay less to consume clean, renewable fuels.

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Some Suppliers of Alternative Energy

Some Suppliers of Alternative Energy

Amelot Holdings is a company which presently specializes in the development of biodiesel and ethanol plants throughout the US. Amelot’s objective is to establish relationships between various suppliers of alternative energy who are biodiesel and ethanol researchers or producers to further their ends with long-term profitability and growth in mind. Amelot furthers the cause of these alternative energy suppliers through the formulation of joint ventures, mergers, and construction contracts.

Environmental Power is an alternative energy supplier that has two subsidiary companies. One of these is Microgy, which is Environmental Power’s research and development arm. Microgy is a developer of biogas facilities for the cost-effective and environmentally clean production of renewable energy derived from food and agricultural waste products. These biogas fuels can be used in a number of different applications. They can be used in combustion chamber engines, used directly to make fossil fuel reliance less of a need, or cleaned up to meet natural gas standards and then piped to offices or homes for heating.

Environmental Power’s other subsidiary is Buzzard Power. Buzzard has an 83 megawatt power facility which generates green energy from mined coal waste. Environmental Power says of itself, we have a long and successful history of developing clean energy facilities. Since 1982 we have developed, owned and operated hydroelectric plants, municipal waste projects, coal-fired generating facilities and clean gas generation and energy recovery facilities. We are proud to have a management team and board of directors comprised of leaders from both the public and private sectors, including the energy, agriculture and finance industries.

Intrepid Technology and Resources, Inc, is a company that processes waste into natural gas as an alternative source of energy. The company’s vision centers on the fact that the US produces two billion tons of animal waste every year, while at once the US’ supply of natural gas is dwindling. ITR builds “organic waste digesters” local to sites of organic waste. These facilities produce, clean, and distribute the methane gas from the organic waste; methane gas is a viable alternative to natural gas. ITR is presently operating in Idaho with plans for national expansion.

Nathaniel Energy is a company with the objective of protecting the environment and minimizing total cost of business ownership. The Nathaniel Energy Total Value Preservation System (TVPS) gives companies unique benefits through Nathaniel’s recognition of the alternative energy potential of materials that are  usually seen as nothing more than waste or pollutants. Nathaniel Energy’s technology allows it to extract and  transform into alternative energy virtually all of the potential energy locked in waste materials.

All of this is produced at almost no additional cost beyond what a company would have had to spend in order to install pollution control and prevention systems. Nathaniel Energy’s innovative TVPS recovers valuable resources which other processes fail to. Throughout the entire process, the maximum amount of valuable material is recovered for reuse, which results in lowered costs and environmental protection.

Usual pollution cleanup and control processes treat these materials as mere contaminants that are either destroyed or discarded. The TVPS therefore decreases the total cost of business ownership through the provision of an additional stream of income.

To Discover how You Can Power Your Home With Alternative Energy Click Here

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how to make biodiesel

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