The Positives Associated With Biomass Power

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Biomass power (BP) is one of the oldest sources of green power available, but it is as useful today as it was in the past. In fact, as government regulations tighten and as people become more concerned with doing their part to save the environment, BPr may be more relevant now than at any time in its long history. You owe it to yourself, your business and the earth to learn about BP and what it can do for you.

Using Biomass Power

Biomass power turns organic waste materials into a source of renewable green energy. Some companies already produce enough organic waste materials all on their own to provide them with all the power they need. For instance, paper companies produce organic waste that can be harnessed and turned into BP. By taking this waste and turning it into energy, these companies keep it out of landfills and also enjoy maximum savings as what was once trash now frees them from expensive energy bills.

Other companies-those who already have a coal-fired power plant in place-have a lot of the technology needed to get started with BP and can simply convert their existing infrastructure to operate with biomass at a relatively low cost. These companies can begin reaping the benefits of BP quickly.

Even if you do not produce enough organic waste on your own, or don’t have a coal-fired power plant in place, BP may still work for you and may help you to save significant money over the long term. An expert in BP can help you understand what your different options are for installing a system to create alternative energy and break free from the dependence on foreign oil.

Benefits of Biomass Power

The benefits of BP are many, with those who already have their organic waste or coal-fired systems in place reaping the biggest benefits since their initial costs will be lower. Further, in some cases, those who produce their own waste or who generate enough biomass energy can actually sell that energy, providing yet another significant reason to take advantage of biomass.

Everyone who installs BP benefits from access to a significantly less expensive alternative source of energy.

Biomass power also has some benefits when compared to other forms of alternative energy. For instance, biomass is extremely reliable and does not depend on access to sun or wind. There will be no loss in efficiency as compared to other forms of power either-you’ll have the energy you need, when you need it, without any worry.

Using BP can also help you to be prepared for the future. When government regulations tighten more, or gas, electricity and fuel become more expensive, you won’t have to worry about making changes under the gun or about becoming cash-strapped as you struggle to pay for the costs of power or energy. Instead, you will be able to rest easy knowing you have a low-cost, green and energy-efficient way to power your plant or business.

Find more information about Biomass Energy and Biomass Power visit at: EvergreenEngineering.com.

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What Are the Biomass Advantages?

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The idea of going “green” is more than a hot trend. The fact is, the entire world is desperately searching for ways to make better use of the earth’s natural resources. And doing so means getting away from the use of fossil fuels. That said, biomass is one of the best ways to generate power in a cleaner manner. In fact, there are many biomass advantages. Here are just a few of them:

• Generating biomass electricity affects our environment in a positive manner-It’s a highly publicized fact that we’re on the verge of a complete crisis in regards to global warming. And one of the major causes of this crisis is all the carbon dioxide we’re releasing while burning fossil fuels. However, when you burn biomass fuels, you’re cutting down on noxious gas emissions. So if you choose to burn biomass, you’re doing something positive for the environment.

• Burning biomass can allow you to repurpose waste byproducts-If your industrial facilities generate reusable waste, you may capitalize on one of the largest biomass advantages. By installing the proper biomass system, you can burn your waste to create biomass electricity. In turn, you may be able to produce enough electricity to power all your facilities. Even better, you just might be able to sell some of that clean electricity back to the grid. Meanwhile, you’re keeping your waste by-products out of landfills. Everyone wins.

• You can meet changing energy regulations– Gone are the days when you could just burn fossil fuels with no repercussions. We have a real problem in our environment and the government is finally stepping in and laying down some rules. And the fact is, these rules are getting stricter. Companies that burn fossil fuels exclusively are going to find increased difficulty in meeting these changing energy regulations. However, switching to biomass energy can help you more easily meet those energy requirements.

• You can burn biomass without building new power plants-One of the greatest biomass advantages is that burning biomass fuels can occur simultaneously with burning fossil fuels in a process known as “co-firing.” With co-firing, you can cut your coal consumption dramatically. You’ll also still benefit from the other biomass advantages, such as recycling carbon dioxide. And at the same time, you’ll still be able to use the same facilities you have in the past, along with the same boiler.

If you think you might be able to capitalize on biomass advantages, then you need to find a reputable biomass energy company. They’ll be able to help you every step of the way. From analyzing your raw materials to planning your biomass technology to integrating your system, they’ll oversee all aspects of your project.

Just remember to look for a company with experience. And not just a few years-you need a company that has been involved with biomass energy creation for decades. When you find that company, give them a call and see how they can help you take advantage of biomass energy.

Learn more about biomass advantages and biomass energy at EvergreenEngineering.Com.

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Richard Branson announces biofuel breakthrough

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We are announcing a world-first, low-carbon aviation fuel with half the carbon footprint of the standard, fossil-fuel alternative. The partnership represents a breakthrough in aviation fuel technology that will see waste gases from industrial steel production being captured, fermented and chemically converted for use as a jet fuel. The revolutionary fuel production process recycles waste gases that would otherwise be flared off into the atmosphere as carbon dioxide — so is the next step forward from our previous biofuels work. We anticipate that within two to three years, Virgin Atlantic will use the new fuel on its routes from Shanghai and Delhi to London Heathrow, as LanzaTech develop facilities in China and India. We also hope that the technology will be retrofitted to UK facilities, as well as other facilities worldwide, enabling us to uplift a significant proportion of low-carbon fuel across the world.
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Coal Gasification and the Gasification of Biomass

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Coal gasification has the potential to answer most of the problems of coal power stations and to see us through until improved renewable energy technologies can be developed to replace the use of coal as a main base-load power generation fuel in many of the world’s nations.

It offers the most versatile and cleanest way to convert coal into electricity, hydrogen, and other energy forms. Furthermore, the first coal gasification electric power plants are now operating commercially in the United States and in other countries.

New gasification power stations are, for example, planned for the United Kingdom and many experts predict that coal gasification will be the core technology of the future generations of clean coal technology plants for several decades to come.

US experts have recently confirmed that far from the idea of carbon capture and storage being unproven, there are many examples in nature of carbon storage, and that carbon from the atmosphere is already effectively stored in huge quantities underground across the globe, completely naturally.

Carbon capture and storage (known as CSS) will therefore work for man as it already has done in nature, and the gasification process is the one to use when power stations also need to capture carbon. The reason for this assertion is it lends itself to the reactions needed to remove the carbon dioxide from the combustion gases before they are emitted via the chimney or flue.

Now lets take a step back to consider how gasification has been used in the past. Coal based “gas works” in huge numbers around the world produced manufactured âtownâ gas from the early nineteenth century through the mid-twentieth century. In fact it preceded the natural gas which has since the 1960s replaced town gas in our gas grid distribution systems. Coal gasification was used in the 1700’s in England, France and Germany for street lanterns. During World War I small gasifiers were even developed to operate vehicles, boats, trains and electric generators.

So, the commercial utilization of manufactured coal gas pre-dated that of natural gas due to the comparative ease of producing coal gas.

Coal gasification still has economic potential with high oil prices in mind, however, there are some drawbacks. There are a number of technical challenges to the power engineers in making the process work reliably, and in particular slagging must be dealt with to prevent the bed of coal from fusing.

These problems are now being overcome the US and international conglomerate GE has been saying for some years that it has the technology tamed, and in Europe the public funding of some flagship IGCC plants has enabled the technology to advance to maturity. The result is that most believe that coal will most likely be the principal source of syngas in the short-term future.

However, before, you say, what about the possible polluting and greenhouse gas producing effects of this? Let me stress that the sulfur, metals and other impurities in coal which have been causing pollution, and the solid residues from the gasification process which were often toxic, are now removed from the gases before they are discharged. Former gasworks sites are often contaminated with hazardous wastes, but this will certainly not be the case for the new plants.

Coal gasification involves the combustion of some of the carbon in the coal to produce the heat that makes the process work. By-products of this carbon combustion which will now be collected greenly are carbon dioxide, ash, and sulfur, all of which in their uncontaminated modern forms will have a market value and may be separated for sale. Meanwhile the provision of CSS (which I would rather not call âcarbon sequestration” although many call it that) will avoid these coal burning systems contributing to global warming.

Once the technology of gasification becomes mature it will then be possible to take the whole thing one stage further to use gasification to produce energy from renewable carbon fuels which are continuously regrown, known a biomass

Biomass gasification extends the idea very well demonstrated in gasifying wood stoves. Indeed, there are a number of products now on the market using a huge range of available fuels, not just wood. In its current state the use of biomass, is open-source and grassroots, but it is fat becoming a mainstream power generating source.

Look out for biomass energy plants over the next few years. These are the renewable energy future for society, rather than coal which will eventually be used up in any event, even if there were no problems of climate change.

Steve has built a great web site where there is a lot more information about gasification. This is a hot subject indeed for this technology which has become an essential read for all those in alternative energy and interested in taking action to reduce the impact of climate change.

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