N.S.W in the forefront for algae fuel

May 28, 2012

Renewable Energy technologies nearly always focus on new ways to develop electrical power. If you stop and think about it, wind, solar, wave, tidal, hydro and so on all produce electricity, and although of extreme relevance and importance to mitigate the effects of global warming and reduce greenhouse gases very little is being done to reduce emissions from the transport sector.

The only alternatives are electric transport (still utilizing electricity which is being produced from fossil fuels), hydrogen (not yet a viable and safe alternative) and ethanol fuel, which in some parts of the world has proven to be successful, however, it would mean a major change in engines and it would bring disadvantages to the sugar industry.

Fossil fuels are still therefore, a major part of our lives when it comes to transport; be it cars, buses, boats, planes or scooters and the Greenhouse Gas Emissions (GHG) that go with it are staggeringly high. In the US for example of all the GHG emitted in 2006, 29 percent was from the transport sector.

So a substitute for transport fuel remains to this day one of the biggest challenges.

Fuel produced from micro-algae could be the worthwhile substitute. The versatility of micro-algae strains makes it ideal to produce oil suitable for all kinds of fuels from diesels to kerosene. Depending on the strain used we can run cars, scooters, boats and even airplanes. Using algae fuels would also make the transport industry carbon neutral.

Algae.Tec (www.algaetec.com.au) located on the south coast of NSW, Australia is piloting a project that sees micro-algae being grown in large quantities in shipping containers to be turned into fuel for the transport sector. The nearby Shoalhaven Marine & Freshwater Centre – University of Wollongong with the help of Dr. Pia Winberg, Director of the Centre and her team are assisting Algae.Tec in identifying the right strain for the production of a biocrude.

Some micro-algae strains like Botryococcus braunii can contain up to 50 to 60 percent lipids and oils, and although this particular strain may be slow in re-production compared to other strains, it means that upto a maximum of 60 percent of the cell can be converted into a biocrude.

Through a process of photosynthesis the cells grow, reproduce (very quickly if the right conditions are in place) and can be harvested, and squeezed in a process I have described very similar to squeezing oil from olives or wine from grapes. In a controlled environment algae can reproduce many time each day.

The Algae.Tec process uses very large shipping containers (12 metre) to grow the algae in a controlled environment with artificial lighting, water, waste CO2 feeds from local industry, and nutrients. This results in an algae made up of oil, sugar and protein biomass, which is separated into oil and biomass. It is then refined to produce biodiesel, jet fuel and ethanol and can be produced at half the price of current oil prices.

The shipping containers act as photo bio-reactors (PBR), where the algae can absorb all the ingredients and turn them into useful oils and biomass. They are also fully scalable and modular to allow for growth and increase in production. With this technology Algae.Tec has made algae one of the world’s most valuable and sustainable feedstocks for fuel products in a large up-scaled industrial system.

Algae.Tec technology is world recognized and their main algae Development and Manufacturing Centre is in Georgia, Atlanta – USA. Algaetc also have a project in Holcim – Sri Lanka, using 250 shipping container modules, which will produce 31 million litres of oil for biodiesel production and 31000 tonnes of biomass per year, whilst capturing 125,000 tonnes of CO2. A pilot facility is currently being built in Shoalhaven, NSW – Australia this plant will utilize nearby ethanol fermenters for its source of CO2.

Tony Piccolo – Aquatic Biofuels Specialist, Sydney – Australia

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Posted by Tony Piccolo - Aquatic Biofuel Specialist

Football, Fuel or FOOD?

June 3, 2011

It is a fact that one hectare of land is equivalent to about the size of two full size football fields roughly 10,000m2 or 0.01km2. What does that have to do with Energy you may ask?

The UK is using over 1.6 million hectares of land in Sub-Saharan Africa (Mali, Guinea, Senegal and Tanzania) to produce biofuel; that is the size of 3.2 million football fields or 16,000km2 (the size of Swaziland). If we then consider how much African land is being used by the EU to produce biofuels from agricultural products in Africa the number doubles to 3.2 million acres, or over ¾ the size of The Netherlands. This is due to the fact that the EU has to adhere to a target to produce 10 percent of transport energy from biofuels by 2020.

All this land which could be used to grow agricultural products is being used to grow feedstock for biofuels in countries where the main concern is to bring food to the table of hungry children this does not seem sensible, and is contributing the rise of food prices.  Furthermore, the production process can emit from 3 to 6 times more greenhouse gases.

These enterprises are marginally helping development in these countries and are producing little employment for the local communities.  The feed stock is grown, harvested, fuel produced and shipped out.  It is not sustainable!

Recently Kenya changed its mind on the full implementation of a 50,000 hectare jathropha project near Malindi. The Kenyan franchise of the Italian company “Nuove Iniziative Industriali”  has had to turn its full scale jatropha project into a small scale pilot after the Kenyan government  considerably reduced the 50,000 hectare site as a consequence of protests by the Kenyan environmental groups.

Growing micro-algae for food does not interfere with land use or the production of food. Whether micro-algae is produced in photo bio-reactors, ponds or basins it will not decrease food production, It could in actual fact contribute to increasing food production if the left over biomass (after oil extraction) can be utilised as fertilizer or animal feed.

Tony Piccolo – Aquatic Biofuels Specialist,  Kisumu-Kenya

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Posted by Tony Piccolo - Aquatic Biofuel Specialist

Ethanol from duckweed

July 11, 2010

Aquatic Biofuels is the extraction of any form of renewable energy that can be extracted from aquatic resources.

So far these have comprised
• Fish waste to produce bio-diesel
• Micro-algae to produce crude oil for diesel production
• Micro-algae to produce bio gas
• Micro-algae to produce ethanol
• & to a smaller extent the use of macro-algae to produce all of the above energy sources.

There has been lots of talk recently on the potential of duckweed or as it is botanically called “Lemnaceae” as a feedstock for ethanol production.

Duckweed is a small plant that lives in water and is very similar to micro-algae in that it can feed off wastewater and it can suck up CO2, similar to some strains of algae duckweed contain large amounts of starch that can be processed to create ethanol. This would not only lessen the burden on current corn to ethanol production and the debates on fuel vs food, but it would also lower CO2 emissions and hence contribute to mitigating climate change.

The total starch content of duckweed can vary from 3-75% of the dry weight depending on trains and species. Other factors like nutrients and concentration play a large role in the accumulation of starch in duckweed. Some species like Spirodela polyrrhiza combined with swine wastewater and grown anaerobically can contain a starch content of almost 46%.

Duckweed biomass can produce appreciable quantity of starch that can be readily fermented into ethanol. Duckweed has a great potential for the development of an environmentally friendly, economically viable ethanol production.

The First plant, Louisiana Bio Fuels, will be built on a 380 acre site, The site is close to an existing Rice Mill, The rice mill will provide Rice chaff to be used as a feed filler to Dilute the high protein Distillers by product to produce a complete pellet cattle feed to be sold to local markets.

For further information contact Freddie Herbert CEO of Louisiana Bio Fuels fhebert8@bellsouth.net
or visit the website www.louisianabiofuels.com

Tony Piccolo – Aquatic Biofuels Specialist,  Rome-Italy

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Posted by Tony Piccolo - Aquatic Biofuel Specialist

Red algae as a feedstock for ethanol

September 18, 2009

Dr. Gyungsoo Kim, CEO of Biolsystems Co Ltd (Seoul)  signed a memorandum of understanding (MoU) with the Governor of Bohol (Philippines) Erico Aumentado regarding a bioethanol project.

Accoding to the the MoU, the province of Bohol would give Biolsystems Co Ltd:

  • 3 ha of land for aquaculture testing
  • 500 ha to seedling plantations and at least
  • 25,000-100,000 ha to aquaculture property.

Biolsystems Co Ltd would be given this over a 50 year period which may then extend for a further 25 years.

The aquaculture plantation will be more of a community than an aquaculture farm and 60 ha of the total land will be made available for housing, the farm will also provide over 300 jobs for ethanol extraction with a total investment of US $100 million. Training will also be provided to locals to increase awareness and to teach the techniques of farming and drying of algae.

Tony Piccolo – Aquatic Biofuels Specialist, Rome-Italy

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Posted by Tony Piccolo - Aquatic Biofuel Specialist

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