The Advantages of Biodiesel

Looking closely at biodiesel, we find that its physical and chemical properties are very similar to petroleum based diesel fuel in terms of operation in compression ignition engines (diesel engines). Therefore, biodiesel can be used in diesel engines without expensive alterations to the engine or fuel system.

When it comes to listing the advantages of biodiesel, there are many and advocates say these include low emissions, better scent, and higher lubricity. According to a DOE report, biodiesel has a lower energy content than regular diesel, but performs as well as diesel when mixed with diesel in blends of up to 20 percent.

The possibility of bio-diesel has been around for a long while, but it is only now, as oil appears scarcer and less secure that people are starting to invest in the possibilities which exist for it as an automotive fuel.

As the transport sector is likely to be the fastest growing contributor to greenhouse gas emissions for most of this century, and diesel prices climbing steadily, that the advantages of biodiesel are being appreciated by governments around the world.

However, there is as yet no source of biodiesel that is cheap and plentiful enough to meet the potential demand.

The advantages of biodiesel are many; it is renewable, domestic, clean and can be based on a variety of vegetable feed stocks. Some early fleet reviews have also indicated long term maintenance reductions, but stay tuned for more on this. The advantages of biodiesel are; it is a renewable fuel, carbon dioxide neutral, low sulphur, non-toxic, biodegradable, produced locally in the UK, and when used it usually reduces emissions. Thus, overall biodiesel offers a range of environmental benefits unrivalled by any other alternative transport fuel.

Most research indicates that the gradual start of combustion which is a feature of biodiesel when used, also helps to decrease NOx emissions.

In quantities up to 5 percent, bioethanol fuel can be blended with conventional petroleum fuel without the need for any engine modification. Bioethanol is produced using familiar methods, such as fermentation, and it can be distributed using the same petrol forecourts and transportation systems as before. Since pure biodiesel leaves no deposits of its own, this results in increased engine life. It is estimated that a biodiesel blend of just 1% could increase fuel lubricity by as much as 65% (U.S. source).

If a vehicle uses traditional diesel, the vehicle emits black, stinky smoke. With biodiesel, the smoke becomes very clean indeed. A good example is the US government implemented rules that mandates the use of alternative fuels in federal vehicles. B20 was adopted for use in moat national parks. If biodiesel is used to fuel all transport vehicles, amazingly it has been claimed that smog will become a thing of the past.

You can also make biodiesel from tallow (animal fats), fish oil, seaweed and algae. In fact, it was recently reported that in an extraordinary show of dedication to the project, the skipper, Pete Bethune, underwent liposuction, and the fat (all 100ml) was used to make a small amount of Biodiesel for Earthrace!

Biodiesel can also be made from imported feedstocks, such as palm oil, from around the globe in an effort to further ensure lower cost supply. Overall, the more diversified feedstock source fuel will be more resilient to market swings in feedstock pricing and supply, that could render the standard biodiesel from bio cropping production model non-viable. While soybean oil has provided a good starting point for biodiesel in the United States, it has yield limitations that will hinder biodiesel growth in the future.

Recently a friend who knows that my enthusiasm is great for biodiesel asked me whether I was investing in it. This was the first time I had thought of investing in biodiesel stocks, and although just a short 18 months back I would have thought him pretty crazy. This time I said that he had a point, and since then I have been seriously considering making some investment into that market quite soon.

So, biodiesel is a good fossil fuel substitute as long as done sensibly up to the recommended percentages. By-products created during its manufacture will also provide a whole range of new materials that can easily replace very many not so friendly materials, and leaving coal as a commodity that could be used for other optional safe and useful manufacturing processes that do not pollute our atmosphere.

A real tangible and global win-win solution exists for biodiesel users currently. As far as “tax subsidies” go, developed countries such as European Union members impose heavy diesel taxes whereas biodiesel is generally tax-exempt. This form of subsidy has provided cost advantages to biodiesel suppliers. So, all in all, the picture looks rosy for biodiesel.

If you are considering biofuel manufacture, you will find some of our biogas projects of interest. Continue to the Anaerobic Digestion Systems web site and make use of our checklist.

Steve Symes feels that the environmental debate is too important to leave to the boffins. If you think so too then visit his Blog at Renewable Energy News

Biodiesel and Technology-Working Together For a Brighter Future

Biodiesel and Technology have for a long time seemed destined to avoid each other. Methods that have been in use for many years have prevailed whilst funding for newer technology has been slow in coming through. However recent events have led to a number of important breakthroughs which are having a positive effect on the manufacture of Biodiesel?

Until recently the only method of producing Biodiesel was by dissolving a catalyst in alcohol, a typical catalyst is sodium hydroxide and then mixing this with some type of vegetable oil such as rapeseed oil or waste vegetable oil from restaurants and factories. After being mixed for 2 hours the resulting liquid is allowed to stand for up to 24 hours.

During this time a chemical reaction takes place which creates Biodiesel and glycerin. The glycerin can be reprocessed or used for other products. All this is now starting to change. With new sources of oil and new processes being developed

The main thrust of technological innovation has been towards finding better and cheaper feedstuffs from which to manufacture high grade Biodiesel. Traditionally higher grade Biodiesel has relied on soybean oil and canola but due to their relative rarity production costs have been high and development has been held back.

Another area of attention has been the use of caustic chemicals in the manufacture of Biodiesel. Recent breakthroughs have resulted in companies producing systems where there are no caustic chemicals in use and as a result no toxic waste water is produced. In addition to helping the environment this can significantly reduce production costs.

In the coming years the popularity of Biodiesel will increase significantly. This in turn will lead to cheaper manufacturing kits and much cheaper production costs. One sector where Biodiesel and technology is being taken very seriously is by the car manufacturers. They are well aware that Biodiesel is far kinder to engines than petrol and people who have changed from petrol to Biodiesel very rarely notice and adverse effects. Although it is necessary to frequently change your fuel filter until the Biodiesel has thoroughly cleaned the engine.

Biodiesel Is fast becoming one of the fuels of the future and with more research it will undoubtedly become more readily available and cheaper. At long last it seems that Biodiesel and technology are finally working together.

Allison Thompson is a full time writer and researcher. She runs Article and Content Solutions who supply original and PLR Articles. If you would like to purchase articles like this one please go to http://www.articleandcontentsolutions.com/

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Algae Biofuel – A Promising Biofuel For The Future

Algae biofuel is currently emerging as one of the potentially promising biofuels in recent stages of development.

Petroleum is believed to have developed from kerogen, which is simply converted to an oily substance under the influences of temperature and pressure. Kerogen is formed from biodegradable compounds, bacteria, plankton, and plant material through chemical and biochemical reactions: algae. Because of this, it is widely believed that algae can be converted to a petroleum-like substance. This would be a developed algae biofuel.

The advantages of an algae biofuel should be evident to almost everyone. Biofuels that can replace fossil fuels could end our dependency on the depletion of our planet’s natural resources and significantly reduce our carbon footprint on the planet. With the development of alternatives like algae biofuel, air pollution resultant from burning fossil fuels and energy crises resultant from the exhaustion of natural resources would no longer present such an imminent theat to our people and the world we live in.

Harvesting algae to manufacture algae biofuel can be fairly intricate. Gathering algae involves the process of separating it from its growing medium. The algae must then be dried and processed into the desired product. Since there are different kinds of algae, strains particular to developing algae biofuel must be designated and developed for harvesting. The drying of algae is centrally important to the harvesting process, as it retains high water content. Some processes currently under use for harvesting algae are centrifugation, flocculation, froth floatation, and micro screening.

Oil extraction from algae is a debated concept because it is currently quite costly. While in theory it is all quite simple – harvest the algae and remove the oil from it – the reality is that the processes are expensive. The two basic methods of extracting oil for algae biofuel are the mechanical method and the chemical method.

The environmental effects of extracting oil from algae are, themselves, a topic of hot debate since many see them as not being eco-friendly. The concerns with mechanical extraction are that the drying process is extremely energy intensive and supercritical extraction depends on high-pressure mechanics that are also energy intensive. The chemical process involves solvents that present health and environmental risk factors. Other methods are being developed to reduce the environmental concerns, but so far they are so costly as to make mass production almost impractical.

So, while algae biofuel is one of the most potentially promising of the biofuel alternatives currently being researched, it is far from reaching a stage where its process and progress is anywhere near on the horizon. At this point in time there are many issues to be straightened out, from environmental effects to cost challenges.

However, far from leaving us disappointed, this situation only underscores the vital need to devote our resources and expertise to the challenges of developing biofuels and other alternatives to our current fossil fuel dependency. While the advance in creating biofuels may now be riddled with challenge, we must turn our attention and resources to overcoming these challenges and creating biofuel alternatives for future generations. Setbacks only mean that we must work that much harder in order to make green energy sources like algae biofuel a reality in our lifetime.

Martin Aranovitch is an online publisher with a strong interest in green living. To learn more about ways to go green, save money and help the planet, go here: Green Living Tips.

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All About Biomass

Where renewable energy sources are concerned, biomass is the newest member of the family. Nevertheless, it is gaining ground as a viable source of energy production in a world trying to rid itself of dependence on fossil fuels. For all intents and purposes, biomass uses the biological material from living organisms to produce energy. These materials are normally incinerated for the purposes of producing electricity or heat. Examples of such biological material include:

• waste wood• grain alcohol• yard clippings• hydrogen gas• certain components of normal, everyday garbage

Dedicated Biomass Production

Though biomass as a renewable energy source still largely depends on the incineration of “excess material” such as dead trees and yard clippings, materials for industrial use are being grown specifically for biomass purposes. Various plants such as switch grass, hemp, and corn are being grown on farms dedicated to supplying material for industrial biomass applications.

Despite the apparent success of dedicated biomass farming, there is some argument as to whether the energy benefit from such practices is greater than the energy output required to grow the material. There are also questions about the ethical justification of using agricultural land that could produce food for the world’s hungry for biomass production instead.

Biomass in the Fuel Industry

Over the last several years biomass energy has made great inroads into the automotive industry as a fuel source. Engines that can operate on both fossil fuels and biomass fuels are being produced and brought to market. Ethyl alcohol, made from common corn, is an alternative fuel that has been slowly making its way to both urban and suburban gas stations across the country. While the efficiency of biomass fuel tends to be somewhat less, the cheaper cost of the fuel itself still makes it an attractive option to green-minded drivers.

This past summer however, corn prices increased around the world as product was being diverted from the food industry into the biomass fuel industry. Governments in Europe and North America were heavily criticized for reducing the public availability of a food source in favor of fuel. Regardless of whether or not the criticisms were legitimate, the push for biomass fuel in the auto industry continues.

Biochemical Conversion

There is no perfect energy source which is both 100% efficient and 100% friendly to the environment. Where biomass is concerned, one of the biggest contradictions science is trying to overcome lies in the incineration process. Incineration releases CO2 into the atmosphere regardless of the material being burned. Biomass material doesn’t produce any less CO2 than fossil fuels, and in fact, in some cases it produces even more. A 2009 study of Asia’s frequently occurring “giant brown haze” revealed that the haze was caused more by biomass emissions than that of fossil fuels. This is but one example.

To combat the problem, scientists are developing biochemical conversion processes that can turn biomass material into energy without incineration. Biochemical conversion uses bacteria, enzymes, and other micro-organisms to convert biomass into energy. Other biochemical conversion methods are also being studied and developed in labs around the world. If science can overcome the CO2 issue, biomass looks to be a promising technology for the future of energy.

You can keep abreast of all the latest developments in biomass energy by visiting the Clean Green Energy Zone web site. For additional information about renewable and green energy in general, be sure to check out their Green Energy Center.

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Biodiesel – Environmentally Friendly Diesel

By now, I think we all realize that the burning of fossil fuels has increased our greenhouse gas emissions significantly. Greenhouse gas emissions have led to global warming which threatens our planet. Greenhouse gases have caused the Earth’s temperature to continue to rise. This has resulted in glaciers melting which has caused our oceans and sea levels to rise considerably.

These climate changes have adversely affected people, plants, and animals. Greenhouse gases are emitted as a result of the energy we use by driving and using electricity. To preserve our planet we must reduce our greenhouse gas emissions. One way we can reduce our greenhouse gas emissions is by using biodiesel.

Biodiesel fuel is a clean burning alternative fuel that comes from domestic, renewable resources. It is locally grown, processed, and distributed. Biodiesel is a natural and renewable domestic fuel alternative that is designed for use in diesel engines.

Biodiesel is made from vegetable oils, mostly soy and corn. It contains no petroleum, is safe, and biodegradable.

Currently fossil fuels such as coal, oil, and natural gas provide most of our energy supply. Fossil fuels are not renewable and once they are gone they are gone forever. That’s why it is so important for us to start relying on alternative fuel sources that are renewable.

Biodiesel is widely thought to be the fuel of the future. Biodiesel does not contain oil, but petroleum can be mixed to generate a biodiesel blend. The most common blend is B20 (20 percent biodiesel and 80 percent diesel) that can be used in various vehicles. Pure biodiesel (B100) fuel though, can just be used in diesel engines.

Biodiesel can be used in its unaltered form in diesel engines which makes biodiesel one of the easiest alternative fuels to use.

Biodiesel burns clean which lessens its environmental impact. It significantly reduces greenhouse gas emissions and toxic air pollutants. Biodiesel is carbon neutral and does not contribute to climate change. It is the only alternative fuel that has been approved by the Environmental Protection Agency (EPA).

Biodiesel is better for the environment because it is made from renewable resources and has lower emissions compared to petroleum diesel. It is less toxic and biodegrades very quickly. Since it is made in the USA from renewable resources such as soybeans, its use decreases our dependence on foreign oil and contributes to our own economy.

One of the best and most effective ways we can help the environment is to stop using fossil fuels. Renewable and alternative energy technologies offer many options to do just that. We can do this even on a personal basis. There are many options for individual home owners to replace conventional grid power with greener technology, biodiesel fuel and save money while doing it. As a matter of fact they can even make you money. For more information,please have a look at our new book “Renewable Energy Explained.” You can find the link in the resources section below. Thanks for reading today.

Keep Going Green!

Author: Lynne Mueller
Our Green Life Biz – http://www.ourgreenlifebiz.com Renewable Energy Explained – http://www.renewableenergyexplained.com