#1 Vertigro – Gas, Diesel, Biofuel production from algae

July 2, 2011 By

Grow mass amounts of algae and produce 20000+ gallons of bio-fuel on one acre. With the amount of farm space of 1/10 the size of New Mexico we could produce enough fuel to fill the United States’ need for oil.

Article by Sam Vaknin

Technologies that appear at first blush and in the lab to be both benign and efficacious often turn out, upon widespread implementation, to be counter-productive or even detrimental. We have yet to accurately capture and model the complexity of reality. Emergent phenomena, unintended consequences, unexpected and undesirable by-products, ungovernable economic and other processes all conspire to adversely affect the trajectories of even the most thoroughly studied inventions.

Biofuels are the poster children of such good intentions gone terribly awry. Rather than retard global warming, scientists (such as Holly Gibbs, a postdoctoral researcher at Stanford’s Woods Institute for the Environment, Matt Struebig from Queen Mary, University of London, and Emily Fitzherbert from the Zoological Society of London and University of East Anglia) are now warning that they may enhance and accelerate it by encouraging deforestation in the tropics. Indeed, the higher the prices fetched by biofuels, the more rainforests are being ferociously decimated in the quest for arable land.

Moreover, biofuels are energy-inefficient: their production consumes more energy than they yield in burning. The disastrous effect they have on food prices is amply documented. Another study demonstrates that their consumption releases more carbon dioxide into the atmosphere than the quantity of fossil fuels that they replace.

This “carbon debt” is especially true if we take into account the gases released by the incineration of trees mowed down to make place for the (often state subsidized) cultivation of biofuels. There is also a “biodiversity debt”: up to five-sixths of indigenous species are extinguished once a forest is cleared to make way for oil palm plantations, for instance.

Though much hyped, biofuels should not serve as part and parcel of the energy policy mix. Some wonks suggest that biofuels should be allowed to be grown only on marginal or degraded land. But, this would require enormous investments in fertilizers and other technologies intended to halt soil erosion and nutrient leeching. From the point of view of environmental accounting, such tracts better be re-forested. Forests recycle rainwater, act as carbon skins, prevent floods, and serve as habitats to species, some of them endangered.

About the Author

Sam Vaknin ( http://samvak.tripod.com ) is the author of Malignant Self Love – Narcissism Revisited and After the Rain – How the West Lost the East.

He served as a columnist for Central Europe Review, Global Politician, PopMatters, eBookWeb, and Bellaonline, and as a United Press International (UPI) Senior Business Correspondent. He was the editor of mental health and Central East Europe categories in The Open Directory and Suite101.

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Algae Biofuels with Stephen Mayfield UC San Diego

June 29, 2011 By

default Algae Biofuels with Stephen Mayfield UC San Diego

Series: On Beyond [Science] [Show ID: 18011]

Video Rating: 4 / 5

Question by Apophis Ascended: Is it possible to convert human body fat to a biofuel to power diesel vehicles?

If it is possible, we could kill two birds with one stone. We could get the federal government to subsidize liposuction, and then render the waste human fat into biodiesel. We could then assist in alleviating the nation’s obesity problem with subsidized liposuction, and/or pay contributors for their body fat. Would it/could it work?

Best answer:

Answer by la45309
Sounds like it would work to me. Good Luck.

Give your answer to this question below!

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Biofuels from Algae Project – Brunswick Community College Center for Aquaculture & Biotechnology

June 26, 2011 By

default Biofuels from Algae Project Brunswick Community College Center for Aquaculture & Biotechnology

ncbionetwork.org Brunswick Community College’s (BCC) Center for Aquaculture and Biotechnology (CAB) has implemented a Biofuels from Algae project as a joint effort between the departments of Aquaculture and Biotechnology. This included the design and construction of an 1800 gallon photobioreactor system during phase 1 of the project. Phase II focused on the downstream processing of oil extraction. BCC’s CAB has a patent pending status on this process, which is purely mechanical, easily scalable and relatively cheap to implement. The final phase of the project (pending funding) will optimize and refine the oil extraction process, which will give us the opportunity to file a full patent, license the patent to industry or develop a trade secret with an industry partner, which will quickly move the process to commercialization. If the final phase is funded we will also obtain data on the yield of oil production, yield to biodiesel conversion, chemical composition of the extracted oil and determine the best species for use in the process developed at BCC. For more information, go online to http or ncbionetwork.org.

Video Rating: 5 / 5

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3rd Generation Biofuel Algae

June 24, 2011 By

As known as Oilgae as well, is being considered to be the third generation biofuel. Its production is low cost and high yield, almost 30 times more energy production per acre as compared to the land required by other conventional feedstock to produce biofuels. At present researches are being conducted by Alga culture (farming Algae) to produce different fuels to harvest for making vegetable oil, biodiesel, bioethanol, biomethanol, biobutanol and other biofuels and it seems if the methodology is sustainable than other available biofuels then using algae to produce bio diesel would be the only viable method to replace the need of gasoline used for automotive today.

Biofuels are considered to be the best way to reduce green house gas emissions and alternate to the pollutant fossil fuels. But recently, according to Nobel Laureate Paul Cortzen findings, some of the most commonly used biofuels Bioethanol from corn and bio diesel from rapeseed releases Nitrous Oxide (N2O) is contributing much more to the global warming than the fossil fuels are contributing right now. Processing of biofuel form algae has been tested that it captures large amounts of CO2 and N2O available in the atmosphere( 40% in a course of full day and 80% in sunny days) and an acre of algae can produce enough oil to make 5,000 gallons of biodiesel in a year.

According to my point of view biodiesel and bio ethanol from rapeseed and corn is not only adding to global warming but economically it cannot be sustainable because its one of the main sources of edible oil. Ethanol demand can threaten the food prices. A recent study conducted by Center for Agricultural and Rural Development at Iowa State University reveled that considering the high-price crude oil scenario, U.S. ethanol production could reach 30 billion gallons by 2016, consuming more than half of U.S. corn, wheat and other coarse grain production and triggering higher meat prices for consumers, reduced production across-the-board for all segments of the meat sector, and even greater reductions in grain and meat exports. Taking in review the sustainability and economic factor biofuel from Alga culture seems to be most promising fuel for future.

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ALGAE BIOFUEL Panel Reproduction Reactor Solar Polycarbonate Algea

June 11, 2011 By

This is a UV resistant Hurricane Polycarbonate Window Shield panel that holds 80 pounds of liquid easily. By pumping water in with a small 7 watt water pump, a vacuum is created preventing the entire water mass from rushing out the bottom.

Video Rating: 4 / 5

Article by Russ Harding

The name biofuel refers to fuel made from decomposing matter. Most biofuels are made from plants. They can be in liquid, solid or gas form. How are biofuels different from fossil fuels? It has taken MILLIONS of years for coal, oil and natural gas to form.

Once the crops are harvested, biofuels can be produced in just a few short days. Fossil fuels emit large amounts of greenhouse gasses, whereas biofuels emit much less. But the biggest difference is that fossil fuels are non-renewable, whereas biofuels can be made relatively easily from renewable crops.

Let’s look at the various types of biofuels. There are 4 classifications, or generations. The first generation fuels are produced from food crops such as sugar and other starches, and from both animal and vegetable oils. Some examples of these are biodiesel and biogas.

Second generation biofuels are derived from biomass waste and wood chips. These become various alcohol-based fuels, such as ethanol.

Algae biofuel is the third generation. This is a great renewable energy type because it is readily decomposed into the soil. The forth generation biofuel is produced from micro-organisms working with carbon dioxide.

Here’s a list of biofuel advantages:Environmentally friendly. They release much less carbon dioxide into the atmosphere.They provide an alternative to standard non-renewable fossil fuels, thus lessening our dependence on them.They are cost-effective. Biofuel energy is much less expensive to produce compared to mining and extracting fossil fuels. Who doesn’t want to save money with less expensive fuel?

Now let’s look at biofuel disadvantages.

Using arable land to grow crops to be used in the production of first generation biofuels reduces the quality of the food crop, rendering it unsuitable for human consumption. Thus, there is less land available to grow quality food crops. In recent years, there have been fierce arguments over this issue. The price of edible crops, especially corn, has gone up, causing protests. Many maintain that crops should be grown for food, not fuel.

Another issue with growing crops for biofuels is that you need an enormous amount of material. If land is set aside for fuel crops, it reduces the amount of farming land, and therefore of wilderness which provides habitat for plants and animals.

Lastly, unless one has access to a reliable source, biofuels can be difficult to obtain on a regular basis. Small-scale local use can be beneficial in developing countries. In India, for example, the state of Bihar is using human waste to generate electricity. But other than ethanol, bringing large-scale production to market is slow in coming.

While biofuels definitely have their advantages, the disadvantages at this time tell us there are some serious issues to consider. If you’re looking for green energy sources for your own home, you would probably be better off looking at solar and wind power solutions. There are no controversies involved with these renewable energy types.

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Algae Biofuels

June 9, 2011 By

As America looks for new alternative fuel sources, biodiesel from algae offers a new and innovative solution.

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Key Challenges to Widespread algae based biofuels commercialization

June 9, 2011 By

Algae-Based Biofuels

Demand Drivers, Policy Issues, Emerging Technologies, Key Industry Players, and Global Market Forecasts

In the face of petroleum scarcity, increasing oil prices, market volatility, and climate change, a number of national governments are enacting strong mandates to develop domestic biofuels markets. Meanwhile, as concerns over the sustainability of first generation biofuels intensify, innovative startup companies, strategic partnerships led by large multinationals, and university-led research consortiums are spearheading efforts to develop low-cost and replicable production pathways for advanced biofuels derived from renewable biomass like algae. With no alternative to liquid fuel, the commercial aviation sector and U.S. military are looking to renewable fuel sources such as algae-based biofuels to reduce expenses and mitigate their acute vulnerability to petroleum supply chains. ( http://www.bharatbook.com/detail.asp?id=156722&rt=Algae-Based-Biofuels.html )

Yielding 2 to 20 times more oil per acre than leading oilseed crops, algae’s productivity and scalability are its greatest advantages. On paper, algae could displace worldwide petroleum use altogether, however, the industry has yet to produce a drop of oil for commercial production. Although the algae-based biofuels market will grow rapidly once key cost hurdles are overcome, widespread scale-up will be hampered by a number of difficult challenges, including access to nutrients, water, and private capital. With the cost of production still a key obstacle to widespread production, many companies are refocusing production efforts on low-volume, high-value co-products to develop revenue streams over the next decade.

This report examines the key growth drivers behind the algae-based biofuels market and outlines unresolved supply challenges. It compares advantages and disadvantages of algae production pathways, leading cultivation techniques, and end-market opportunities. The report includes detailed 10-year market forecasts, segmented by world region, along with analysis of market conditions in key countries and profiles of key industry players that are shaping the emerging algae biofuels business.

Key questions addressed:

* What are the key drivers shaping demand for algae-based biofuels?
* Where will the highest algae-based biofuels production growth occur around the world?
* What are the different cultivation options for algae producers?
* What investment trends and strategic partnerships are driving growth?
* What are the key regulatory and policy issues facing the industry?
* What are the key challenges to widespread algae-based biofuels commercialization?
* What are the key technology trends emerging in the algae-based biofuels market?
* What role will biotechnology play in improving algae yields and what are the potential challenges to widespread GMO-based algae?
* Who are some of the players involved and what are their strategies?
* What are government emission regulations for locomotives and how will they impact the market?
* How large will the market for hybrid and genset locomotives be globally?
* Who are the key industry players in the hybrid locomotive market?

For more information kindly visit : http://www.bharatbook.com/detail.asp?id=156722&rt=Algae-Based-Biofuels.html

Related Reports

Algae Biofuels Production Technologies Worldwide
http://www.bharatbook.com/detail.asp?id=145740&rt=Algae-Biofuels-Production-Technologies-Worldwide.html

Biofuels Market in China
http://www.bharatbook.com/detail.asp?id=104163&rt=Biofuels-Market-in-China.html

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Question by Roseate Spoonbill: How do I get Algae for Biofuel?

I have heard of algae as a very promising source of biofuel. I am doing a project on it. Can anyone tell me if there is a specific kind I would need, and how to grow it?

Best answer:

Answer by fun_science_project_ideas
Right now, it would be very hard to grow algae and use it to fuel your car. No one is selling it yet, and there are a number of companies involved in R&D right now.

That said, you would need to grow species rich in oil, many species of diatom contain large amounts of oil. The link will point you to a page you can use to download a short book about algae.

What do you think? Answer below!

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Biofuels scandal + food prices. Biofuel crisis, biofuel oil, biofuel production, cars, algae, systems and basics introduction to facts about biofuels. Conference keynote speaker Patrick Dixon

October 14, 2010 By

www.globalchange.com Why biofuel industry is dead — biofuel by converting food into oil is stupid and immoral. Biodiesel, biomass, biowaste and sugar to fuel conversion into biofuels. Foor price rises. World bank report on biofuels and food prices. Ethanol and gasoline or petrol mix, European Union EU policy changes on biofuel. Biofuels policy reversal. Anti-biofuel campaigns. Biofuel blamed for food riots, hunger, food shortages, rising food prices, wheat prices, food hoarding and stockpiles. Biofuel production speculation in food futures. Biofuel links oil price to food price. Do biofuel quotas cause starvation, Africa Asia, India, China? Competition from biofuel manufafturers for food — poor people cannot eat, food prices rise, biofuel means burning wheat in car engines, driving vehicles on biofuel, adding ethanol to petrol / gasoline. Biodiesel, soybean price rises, rice price rises, food riots, biofuel destruction of forests for agriculture. Non biofuel reasons for rising food prices: drought, crop failure, hoarding, ban on food exports, stockpiling of food, speculation on food commodities markets. Ethics of biomass fuel generation and increased use of fertilisers. Net carbon footprint of biofuel production. Net biofuel consumption or saving of CO2 / energy. Global trade in biofuels, food, oil and energy. Ethical crisis in biofuels industry. Federal government policy on biofuels and national energy policy. EU fuel regulations for ethanol, biodiesel and biomass fuel

Video Rating: 4 / 5

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The Biology and Business of Biofuels: Algae as Biofuel

September 20, 2010 By

Leading experts explore the need, challenges, opportunities and impacts of creating biofuels for a sustainable future Series: “Frontiers of Knowledge” [4/2008] [Science] [Show ID: 14378]

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Alternative Energy – Biofuel from Algae

September 17, 2010 By

default Alternative Energy Biofuel from Algae

Algae is the fastest growing plant life, and as an organism it converts sunlight into oil, scientists theorize that Algal biofuel can produce a whopping 30 times more energy per acre than any other biofuel option. The US Department of Energy has estimated that if Algal Biofuel replaced all conventional fuel in the country, it would require 15000 square miles of land to harvest the algae… which is roughly one seventh of the area that is used to harvest corn in the US every year. And a diverse group of byproducts, such as neutraceuticals and feedstocks for producing plastics, can be created in algal biofuel operations, making the production more cost effective. But before we start celebrating the great biofuel solution we’ve been looking for, there are a few problems… the biomass for producing a significant amount of algal biofuel just doesn’t exist yet. The algae has to be grown from scratch and harvesting it is very expensive at this point in time. The potential of Algal Biofuel is staggering… but the problem is that, as of now, it’s all just potential. It might be years before the technology catches up to make producing algal biofuel on a large scale possible… but when that time comes, we might be able to finally celebrate a more efficient, renewable, and environmentally friendly energy source. For more information on this exciting and developing technology, check out AlgalBioMass.Org. I’m Elizabeth Chambers. Check back here for more eco friendly news and tips

Video Rating: 4 / 5

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