Skin-one.com – Shop with Algae Products from Thalgo

The Online Shop skin-one.com has some products made out of algae from “Thalgo”

Something you should know about Thalgo:

Since 1968, Thalgo has dedicated itself to cosmetic research and formulations based on marine algae and has succeeded in creating some of the finest, award-winning skin care products available. Thalgo products are based on the concept of Thalassotherapy, that is using sea water and substances derived from the sea to heal the body. Thalgo – effective, safe treatment products with exceptional tolerance, exceptional results. Mastery of marine ingredients has placed Thalgo at the forefront of skin therapy.

 

Source: http://www.skin-one.com/thalgo.html

Farming Freshwater Algae on the High Seas

If you have been paying even the slightest attention to the algae industry, you probably have heard of companies like Solazyme or Synthetic Genomics, the big names that are making big public strides in the field. Algasol Renewables, on the other hand, is one name in the industry that you have probably never heard mentioned. However, Algasol looks to be on the brink of joining those big names as one of leaders in the algae industry with their photobioreactor system.

Photobioreactors (or PBR’s) come in many different shapes, sizes, and designs. Essentially, they consist of some clear material formed in a way that it can hold an algae-containing liquid. Typically, you will find them looking like long tubes, snaking back and forth, that allow sunlight to reach the algae-water concentration that is pumped through it. They work great for growing algae but have typically suffered from high initial and operating costs.

This is where Algasol comes into play. They have designed a photobioreactor system that can potentially cut costs by 90 percent. How have they done this? Well, their thinking has taken them outside the tube and placed them into a bag.

Basically, their system grows freshwater microalgae in large plastic bags that float on top of bodies of saltwater. There, as in any other bioreactor, nutrients and CO2 are pumped in to feed the algae.

This design led Frost & Sullivan to give Algasol their 2010 “Global Algae Biofuels Award.” According to them, “Algasol Renewables provides a critical and innovative method for micro algae biomass production. Its modular floating bag technology, a new variation of photobioreactors (PBRs), provides a low-cost design coupled with industrial scalability, optimal light exposure, high biomass concentration, low energy consumption, and efficient system control.”

The oceans of the world have a great potential to be the location for floating algae farms. First off, oceans cover around 70 percent of the world. With land (especially agricultural land) becoming a very precious commodity, moving production of fuel offshore is a major bonus.

Additionally, the ocean cuts out a lot of the energy costs associated with traditional PBR’s. For example, the water surrounding the bags acts as a temperature buffer, a process that would require spraying down the outsides of the photobioreactor in typical systems. Also, the wave action in the ocean helps to mix the algae in the bags, something that would otherwise take additional energy in land-based designs.

Now, some may be concerned about putting all this plastic into the ocean should a storm comes along or worried about what happens if these bags break. Luckily, engineers at Algasol have addressed both of these problems. If a storm comes along, the bags have been designed to be submerged beneath the water to levels up to 250 feet. There, they can wait out a tropical storm, hurricane, etc.

Researchers are also not too concerned if one of the bags breaks. Since the algae will be freshwater species, they will die when exposed to saltwater and there, researchers have concluded, they can become food for fish and other marine life.

Their system has proven very successful in testing conducted in conjunction with Arizona State University. Right now, after taking account for the costs, they estimate that a 250 hectares (or 418 acres) system can produce oil at $1.40/gallon before refining, or roughly $60 a barrel.

These costs are actually calculated from the lower end of production levels (35 grams of algae per square meter). Algasol has achieved significantly higher production levels and higher productivity would potentially lower the cost even more. However, reaching these production levels rely more on outside factors than on the system itself.

“At the end of the day, we are dealing with a live organism here,” Miguel Verhein, Executive Director of Algasol said. “If this organism is not taken care of under the right conditions, then we can have a variation in productivity that is irrelevant to the photobioreactor system.”

Overall, Algasol is solely a technology company that, according to Verhein, “just wanted to make the best PBR based on CAPEX/OPEX and scalability.” As such, their goal is to sell their patented product and method to companies rather than produce the algae themselves.

This goal is quickly becoming a reality, with several organizations, including one large oil company, looking to purchase their technology. As with algae industry as a whole, all that seems to be required for Algasol to make it big is a little more time.

Source: http://algaenews.com/?p=529

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

Microbial Culture Collection ( NIES )

Culture strains of cyanobacteria, eukaryotic microalgae, protozoa and endangered algae are maintained in the Microbial Culture Collection at the National Institute for Environmental Studies (NIES Collection).
These strains are available for educational, research and developmental purposes.

NIES Collection accepts the deposition of strains, which are important for environmental as well as basic and applied researches.

 

MICROBIAL CULTURE COLLECTION
National Institute for Environmental Studies
16-2 Onogawa, Tsukuba, Ibaraki 305-8506, JAPAN
Phone : +81-29-850-2556

Fax : +81-29-850-2587

Source: http://mcc.nies.go.jp/localeAction.do?lang=en