Biomass Fuels – Future Renewable Energy Source

There is a Biofuel making plant in Arizona that uses algae as its source for production. The plant is set up in a greenhouse like casing, allowing the sun to penetrate. The sunlight helps the algae grow. Long, clear, plastic bags flow down from the ceiling with flowing water. The algae grow inside of the plastic bags. The process is called vertebrae. The creator of the facility states, he could produce 30,000 gallons a year. If we took a tenth of New Mexico and filled it with algae growing facilities, they could produce enough these fuels for the entire country.

There are many controversies about creating the biomass. The different types of Biofuels that could be produced or are already in use, and resources that could be produced are listed:

Fossil fuels

Bio-diesel fuel from algae

Turning sunlight into liquid fuels

Using waste cooking oil to create fuels

Hydrogen fuel

Bio-based butanol

Biomass power

Thermo-chemical pathway

Cyanobacteria

Studies of Bio-fuels are currently in progress all across America. Our focus for studying is to develop a “green” product that is safer for the environment and to establish a new source of energy for powering transportation vehicles. We are trying to become independent on our own energy resource to resign from depending on foreign country oil production. Depending on other countries for energy resources is putting America at danger of limitations and lack of power. Scientifically establishing our own resources puts America back on track for sustainable life.

The world wants to know how using biofuels will benefit them as a society. Researchers are heavily exploring all their alternatives, and trying to get patents for legal purposes. What if we became a completely biomass dependent country? What are the negative results of using these fuels? How can we propel and move forward with the new energy products? Will we be able to use them in future products? These are questions that might be asked as we dive into details of using and creating its. Only time will tell if these Alternative Energy will be safe and reliable for our country’s use.

Thanate Tan is a Blogaholic and also like to help our Earth with going green campaign.

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A Practical Way To Power Your Home With Biofuel

 

Many people have been lead to believe that using biofuel and other forms of alternative energy is impractical and not economical. For most, it’s just an idea that will hopefully be available in the future. But many people are already using a form of biofuel in their homes that is not talked about much.

For thousands of years this fuel has been used. It is very abundant in some places and in a lot of cases over abundant. what I am talking about is wood. Wood sometimes has a bad reputation because to many the idea of burning wood sounds like it would be bad for the environment.

When many people, who are concerned about the environment, think of burning wood, the first things they think about is smoke and clearing forests to get the wood. Smoke from wood stoves and fireplaces can be a problem, especially in urban areas and areas with poor air circulation like valleys.

Modern wood stoves have come a long way in helping the air pollution problem.

Many of them now can burn with very little if any visible smoke. And a more practical way for most people to use wood as fuel is to burn wood pellets. Pellets burn clean and are almost as convenient to use and install as a gas or electric furnace.

As far as destroying forests to burn for energy, it really isn’t happening in the modern industrialized world. There is plenty of waste wood from the wood products industry and forest enhancement projects that is not being utilized. The forest products industry knows that most larger trees are too valuable for other products to be cutting them down to make firewood or wood pellets.

Most of our forests have way too many trees to begin with.

From past mismanagement and other factors, our forests have become severely overcrowded. Trees have to compete with each other which slows their growth and makes them more vulnerable to fire and disease. In thinning operations, foresters will leave the bigger healthy trees and remove the competing smaller and slower growing trees. Many of these are too small or not the right quality for making lumber and other products.

This small low grade material can be ideal for making firewood or pellets. Unfortunately the demand is not great enough to utilize all this material. Most of it ends up being burned on site or left to rot. If more people would start heating their homes with pellets, this material could be used instead of going to waste. Whether it is burned in your home, in the forest or left to rot, either way the CO2 is released into the atmosphere. So we might as well be extracting the energy from it instead of burning non renewable fossil fuels.

Burning wood may not be for everyone, but burning wood pellets may be feasible for most. If you are interested in using alternative energy, do some research into wood pellets or a wood stove.

Learn more about firewood including how to measure a cord of wood.

Learn the differences between using firewood logs and wood pellets. Discover the process of making wood pellets.

Power Your Home With Biofuel

What is Cellulosic Biofuel?

Lately researchers are looking for every possible alternative energy source, this due largely to the world’s energy crisis and the condition of the environment. The top of the list is replacing traditional fossil fuels with alternative and renewable energy.

The main contenders for fuel substitutes are biomass fuels. Biomass fuels are derived from organic plant matter. Ethanol-based bio fuels are extracted from corn. Biodiesel is made up primarily of used vegetable oil and grease. Jatropha oil, which comes from seeds from the Jatropha plant, is also being used to make biofuels. Now added to the list is cellulosic biofuel.

Cellulosic biofuel is very revolutionary in biofuels; this is because it is not plant specific as with Jatropha and and can be generated from both living and dead organic plant matter rather than requiring crops to be grown specifically for the purpose of cellulosic biofuel production, such as ethanol needs corn.

The carbon content in cellulose is what makes it such a good candidate in the quest for biofuel. Cellulose is the most abundant carbon form present in biomass and accounts for around 50% of its weight. Cellulose can be found in most plant matter without the need for land space or water for irrigation giving cellulose biofuel its appeal.

Cellulose is a polysaccharide comprised of a six sugar carbon polymer. Because of its composition and its abundance, cellulosic biofuel is an attractive possibility for mass biofuel production.

The researchers at NASA are further exploring cellulosic biofuel as a viable fuel source. They are researching more efficient processes to convert cellulose to sugar. Once cellulose is converted to its sugar-based form it can be used for other purposes such as chemical agents, food and cellulosic biofuel.

However, the conversion to sugar is requires around 50 hours for the process to take place. You take labor costs and the energy to covert it, and you can see how costly it can become. With time also comes higher production costs. If it would be pssible to cut this process down to 5 hours it would see cellulosic biofuel become cost effective enough to be competitive in a global market.

What scientists hope to accomplish is to refine the process for easier extraction of the complex sugars from cellulose. Because the plant cell walls were designed in nature to be robust and to stand up to the elements, it makes it difficult to break down and extract. Researchers hope to make extraction easier by engineering plant cell walls.

Another hurdle in the production of cellulosic biofuel involves the improvement in enzyme efficiency. They plan to mimic enzyme behavior from animals that are the most efficient at breaking down cell walls such as herbivores like cows and sheep which they believe is the key to cost effective cellulosic biofuel production.

Some of the things we can do to help protect ourselves from increasing oil prices is to conserve what we have now, to use less, and to alter our energy consuming patterns. We need to look into alternative energy sources when they become available to us. If we do these things, cellulosic biofuel could be on the market in as little as 5 years.

Want to get more information on biofuels and renewable energies?
http://www.renewable-energyadvantages.com

Paul Hundrieser
http://www.paulhundrieser.com

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Biomass – A Vital Part of Alternative Energy

Biomass is an interesting concept and a vital part of our alternative energy possibilities.

Biomass: Plant material, vegetation, or agricultural waste used as a fuel or energy source. American Heritage Dictionary 2006

Generally, the term biomass refers to biological material which is living or recently dead. When you put sticks together and build a fire that you use to cook meals, that is a use of biomass. It would be accurate to say that biomass has been central to the advancement of human civilization.

In fact, biomass served as the primary source of energy though the ancient world, at least until “modern” societies engaged in widespread deforestation.

Often, when you find the term “biomass” used, it is referring to plant material which is grown specifically for use as a biofuel. It can also include plant or animal matter grown especially for use in the production of fibers, chemicals, or heat. You could also use biodegradable waste products that are burnt as fuel. That would be biomass.

One would think of fossil fuel as a biomass, since it was once, eons ago, biological material, but it is not considered as such. Even though the material was originally biomass, it has been out of the cycle long enough to be considered a geological material. A more proper definition of biomass would consider fossil fuels as not being biomass because they contain carbon that has been “out” of the carbon cycle for a very long time. So now their combustion would disturb the carbon dioxide content in the atmosphere.

Any written work on agriculture would let you know that energy crops are chosen very specifically, and are chosen for the purpose of energy production. The different agricultural species are selected to minimize labor, for energy requirements, as well as their environmental impact.

You will find that energy crops will provide numerous benefits over food crops, but especially this; energy crops provide four to five times more energy than is required to produce them. Put more simply, you could say that relatively little energy is required to generate a substantial energy output. While food crops require a more intensified energy and resources to convert a seed into a usable (eatable) product.

The environmental benefits are just as irresistible. Since many of the energy crops are planted and replanted infrequently, you will find less soil erosion and environmental damage. You would find food crops (corn or wheat) are not only replanted and harvested each year, also they require substantially more chemical fertilizer, labor and energy inputs.

This means that food crops will consistently deplete the soil of valuable nutritients. Energy crops, on the other hand, have deeper roots (such as grasses) and build up humus while adding nutritients, including nitrogen, to the soil.

As an added bonus, when well managed, these energy crops provide a habitat for wildlife because energy crops usually have greater plant diversity.

For the American society, biomass provides another important benefit. We all expect that fuel cells will provide a likely replacement for the internal combustion engine. In the meantime, biomass may provide a vital link in this transition. Going from fossil fuels to a hydrogen economy will mean a significant amount of economic dislocation. Ethanol is liquid oil. It is produced from biomass and is a valuable additive in petroleum based gasoline.

Today we find that the ethanol is produced most often from corn kernels. This is a carbohydrate-based product and has a relatively simple chemical structure. While it seems to be a relatively efficient additive, it has proven to be a disaster in the world food market.

Many environmentalists do not support the corn based ethanol. While many of the energy crops are relatively benign, corn based is not as it requires large inputs of energy, labor, and chemicals and, most of all, water.

Many other ethanol production methods promise better results. For example, converting bagasse (a byproduct of sugar production), rice straw, and tree cuttings into ethanol has been promising. If these efforts are successful, then ethanol could at last become an important and cost-effective method of reducing gasoline consumption.

“Scientists around the world are progressively developing new methods for producing ethanol using cellulose-based resources with the hope of discovering more cost efficient and environmentally benign options.” (Powering our Future, Alternative Energy Institute Kimberely K Smith 2005)

Cellulase is an enzyme which is extracted from bacteria to break down cellulose which can be fermented to form ethanol. Professor Kathleen Danna at the University of Colorado, Boulder, has been working on processes to genetically extract bacteria more inexpensively, transplanting them into plants. If successful, this could by itself reduce petroleum imports by offsetting them with domestically produced, price-competitive ethanol, produced from cellulose-based products. We are talking world-wide here.

The dramatically important possibilities on this are subdued by the controversy brewing. This controversy is about the soundness and safety of using the developing genetically modified organism.

Have you considered the possibilities of how you can be a part of the dramatic changeover from fossil fuel alternative energies? Can you afford not to be at least interested in the methods?

Jimmy Cosmos Write me at jimmycosmos@yahoo.com
Interested in the energy of today and tomorrow.
Are you willing to step up to the future? This gives you some idea of what the future holds. Go here for some ideas of what you can do to impact your own future.
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