Algae as a viable food, feed and energy option

Algae is not a high priority on energy R&D agendas now, but it is rapidly gaining traction.

At a time when most conventional fuels cast ever longer shadows of unintended consequences, algae ­that lowly pond scum — offers a pleasant surprise: a near-term, low-tech alternative with apparently few of the hidden costs of more elaborate, expensive and exploitive energy sources.

The first, simplest, and fastest-growing life form, algae holds unheralded promise to become a pivotal resource for the planet’s future as the basis for a high quality biodiesel that doesn’t (like corn) siphon food from humans. And it’s not just a fuel. It’s animal feed, human food and the building block for a wide range of biodegradable bio-plastics to replace petroleum-based plastics. And algae does all this as it grows by absorbing enormous amounts of CO2, the very greenhouse gas we most urgently need to reduce.

At the moment algae is not a high priority on most national or major corporate energy R&D agendas, but it is rapidly gaining traction in the private sector and academia as its potential becomes clear. In some cases it is being researched by giant energy conglomerates as a byproduct of the development of so-called ‘clean coal,’ since it effectively absorbs the CO2 generated by the burning of carbon. But coal is nothing but 500 million-year-old algae. So, ask some algae advocates, why not just stop strip-mining and mountaintop removal, leave the coal in the ground and instead farm fast-growing, CO2-absorbing algae?

Technical obstacles

This is not a distant dream. One fact that sets algae apart from just about every other energy option, conventional or alternative, is its simplicity, ubiquity, and near-term availability. Algae researchers say that while technical obstacles remain to be resolved before they can achieve cost-effective large-scale production for its many uses, none appear to be insurmountable. With its prodigious growth habit, algae under cultivation does need to be carefully controlled. Algal blooms occur naturally, but they are also triggered by chemical and agricultural pollution. It’s a serious problem and must be considered when designing algae farms in the open rather than in the controlled environments of bio-digesters, as most biodiesel is currently produced. But unlike a nuclear chain reaction, even if allowed to bloom excessively, algae will inflict consequences nowhere near those of a nuclear meltdown.

On a recent visit to ENN, a fast-growing Chinese energy company based an hour from Beijing, this correspondent was given a tour of a laboratory where a team of scientists is developing micro-algae for a variety of uses. It’s part of a joint venture between ENN and Duke Energy, the largest US public utility. Standing in a sunlit greenhouse filled with walls of clear glass tubing through which green sludge circulates, Liu Minsung, the young, energetic director of ENN’s algae team, gestured to a row of transparent vials of varying colour and consistency.

In 2012, the US Navy will launch what it calls a Green Strike Group, a flotilla of ships powered by a 50 per cent algae-based and 50 per cent  NATO F-76 fuel, forming a 50/50 blend of hydro-processed renewable diesel. By 2016, the Navy plans to launch a Great Green Fleet, a carrier strike group composed of hybrid electric ships and aircraft propelled by biofuels including algae, and ­maybe not so green- nuclear-powered vessels.

Algae is a full circle innovation because it serves many uses at once. In its elegant synthesis of stacked functions, algae as fuel, food, feed and plastic follows bio-logic rather than techno-logic. It demonstrates the virtues of elemental simplicity in an era of hype technology. Technological solutions have grown so complicated and costly that, as with not-so-smart phones, a surfeit of inessential features ends up defeating their core capabilities. Algae is ancient but it is far from primitive. In fact, it has had about five billion years to evolve into a lean green growing being.

Like every other ‘solution’ that’s ever been devised, algae undoubtedly has shadow sides that have yet to be discovered. But the greatest danger it poses is that, like the electric car, it won’t developed. But one great virtue of algae is that you can grow your own. Life on earth began with algae, and if life is found on distant orbs it will likely be algae we find there first. Will this simplest, wisest life form help rescue us from our energy dilemma?

Source: http://www.deccanherald.com/content/159264/algae-viable-food-feed-energy.html

AlgaeLink

AlgaeLink started in 2007 with a prime objective of offering a robust, highly effective photobioreactor for the cultivation of algae. Extensive research over a number of years has proven that algae is a high-value commodity and extremely beneficial for use in a large number of markets, including the Food (e.g. nutraceuticals, food additives), Feed (e.g. aquaculture feed) and Fuel industry. Algae farms offer great solutions for CO2 and Waste Water emission problems too.

AlgaeLink NV is a Dutch Company that designs and manufactures algae growing equipment and cultivates algae for various global markets. AlgaeLink is building a world-wide supply chain and partner network that is sustainable and delivers value to our global customers. Our operations cover algae production, equipment, consultancy, installation support and training.

Our key focus areas are:

Food Food 

Covers nutraceutical and pharmaceutical products for human consumption, proteins, omega oils, food supplements, cosmetics, etc.

Feed Feed 

Aquaculture and animal feed, which is not limited to fish farming, but also general livestock and even domestic animals.

Fuel Fuel 

Green energy, biodiesel, bio-ethanol, bio-gas, bio-oil, and jet fuel.

CO2 CO2 

Ability to sequester CO2 and implement as profit making plant, rather than cost effects of sequestering.

WasteWater Waste water management 

The ability of implementing the photobioreactor into existing waste water plants for water purification through nutritient absorption.

 

AlgaeLink manufactures the best products available on the bio energy market today and sells them at attractive prices. We invite you to visit our plant in The Netherlands and evaluate our products.

Source: http://www.algaelink.com/joomla/index.php?option=com_content&view=article&id=2&Itemid=2

Algae Competition

Objectives: Create an open source collaboratory that expands and shares a vision for algae in our future with design ideas for algae production landscapes, sustainable algae production systems for food, medicines, feed, energy, nutrients, water remediation, carbon capture, and superb new algae foods.

The Algae Competition is open to everyone, anywhere in the world: algae enthusiasts, architects, builders, designers, scientists, entrepreneurs, growers, food developers, cooks, students and teams.

Registration opens January 11, closes September 11, 2011. All contestants must register. Submission opens February 11, closes October 11, 2011. Entries will be judged by distinguished panels of international jurors. Finalists will be announced February 12, 2012.

As an open source competition, entries will be showcased online. Over $10,000 in cash prizes will be awarded to winners. Finalists will receive international media recognition and will be included in books, publications and exhibitions to be held around the world in 2012.

Source: http://www.algaecompetition.com/