Tuesday 20 December 2016

Wednesday 14 December 2016

Industry Giant Chicago Bridge & Iron to Support Implementation of BioLargo’s Clean Water and Air Technologies


* 2020 update: Enforcement of Ballast Water Discharge Regulations Delayed to 2030 Link Here for More Information 

*2017 Update- BioLargo forms BioLargo Engineering, Sciences and Technologies (BLEST) Link Here


BioLargo, Inc. (OTC: BLGO), owner and developer of the breakthrough AOS (Advanced Oxidation System), a low-energy high-efficiency clean water technology, announced the start of a relationship with Chicago Bridge & Iron, NV (NYSE:CBI). According to the press release and a number of recent interviews with BioLargo’s President & CEO, Dennis P. Calvert, the new relationship was formed to support the commercialization of BioLargo’s proprietary technology and to provide independent performance verification. BioLargo also reports the AOS has been proven to disinfect and decontaminate water better, faster and at a lower cost than any other competing technology.


Based on the breadth and significance of the technical performance claims for its AOS, BioLargo has a broad range of commercial opportunities for large industrial applications that must contend with water such as: maritime ballast water management systems, wastewater treatment, environmental remediation, food safety, oil & gas, mining, and agriculture. Its future uses also promise to impact the drinking water industry, including municipal, home use, and emerging nations. The company is also busy commercializing its new “CupriDyne Clean” an industrial odor control product launched last May. The company reports that the product is so effective and low-cost it is gaining rapid traction through trials with leaders within the waste handling industry and that it has had some early sales. Management believes sales will continue to climb, as they finalize supplier agreements with large multi-location customer accounts. CupriDyne Clean may also have an important role to play in industries that contend with volatile organic compounds like hydrogen sulfide (H2S) that impact air quality and safety.

Dennis P. Calvert, President & CEO of BioLargo commented, “All of our technologies at BioLargo can serve a wide array of industrial customers that want clean water and clean air. Our mission to ‘Make Life Better’ includes helping industry tackle operational challenges cost effectively. That intersection of service is likely where our new relationship with CB&I will shine the brightest and we look forward to working with the exceptional team at CB&I to serve industry.” 


With more than 40,000 employees, $13 billion in annual revenue and over $20 billion in future contracts, CB&I is a world-leading engineering, procurement, fabrication, and construction company, and a provider of environmental and infrastructure services. CB&I builds oil refineries, liquefied natural gas terminals, wastewater treatment plants, offshore platforms, and power plants. CB&I is also the world’s largest tank construction company and builds tanks for the oil & gas, mining, water, and wastewater industries. The company also remediates hazardous waste problems. 

Clean water and clean air are at the heart of many of industries served by CB&I and BioLargo’s technologies. Details in the first announcement were slim. This news sends notice to the investment world and to industry that Biolargo’s technologies can have an important role to play in helping solve air and water contamination problems in a safe, effective and affordable way. Calvert has been quick to point out that the current version of the AOS has been engineered to serve entry-level clients and that important scale-up work is required to serve very large-scale industrial clients.  

BioLargo Water’s research team recently showcased the first pre-commercial prototype of its AOS water treatment system, billed as the lowest cost and highest impact, scalable clean water technology in the world. By combining a cutting-edge carbon matrix, advanced iodine chemistry, and electrolysis, this technology rapidly and inexpensively eliminates bacteria and chemical contaminants in water without leaving residual toxins. 

University of Alberta researchers, in collaboration with BioLargo Water Scientists, have confirmed test results that validate the AOS achieves unprecedented rates of disinfection, eliminating infectious biological pathogens such as Salmonella, Listeria and E. coli. The AOS has also been proven effective in oxidizing and removing hard-to-manage soluble organics acids, aromatic compounds, and solvents faster than existing technologies and with very little input energy. Proven test results validate its important role for extremely high oxidation potential to tackle a long “watch list” of contaminants identified by the EPA. The company reports that future generations of the AOS will include the extraction and harvesting of important contaminants like sulfur, nitrates, phosphorus, and even heavy metals. 

The company’s first “Alpha” AOS was constructed in collaboration with the Northern Alberta Institute of Technology (NAIT)'s Center for Sensors and Systems Integration and with NAIT's Applied Bio/Nanotechnology Industrial Research Chair. Its “Beta” unit is expected to be ready for commercial trials in 2017. 


"Alpha" AOS- BioLargo’s AOS Water Treatment
Solution Showcased August 2016 at BioLargo
Water’s 2nd Annual Technical Symposium 
What places the AOS above competing technologies is its exceptionally high rate of disinfection (100x more effective than the competition, as verified in poultry production applications) and remarkably low capital and operational costs, made possible by its extremely low amount of electrical energy required to power the oxidation process.Studies have shown the AOS to achieve remarkable rates of disinfection at less than 1/20th the electrical energy input of competing technologies.

The AOS is scalable and modular in design to meet a wide variety of needs in the marketplace. BioLargo is already working on what it calls the “Gen 2 AOS” for ultra-high flow rates. Because the markets for the AOS are very large and the needs so great, management reports that they believe it is only a matter of time before industry adopts this new breakthrough low cost technology. 

Industries and Companies to Benefit
Oil and gas companies such as Exxon Mobil Corporation (NYSE: XOM), Halliburton Company (NYSE: HAL), Schlumberger Limited (NYSE: SLB), Chevron Corporation (NYSE: CVX) and Royal Dutch Shell plc (NYSE: RDS-A) could dramatically reduce water transportation, sourcing and disposal costs by adopting the AOS. The AOS has been shown to be cost effective at removing problematic contaminants from oil & gas “produced water”, and any technology such as the AOS that could cost-effectively enable water recycling on-site could slash costs and greatly improve the bottom line for many producers that are now suffering big losses due to persistently low oil prices. It could also alleviate the costly problem of injecting produced water deep into injection wells, and simultaneously reduce pollution. 

The maritime industry has increasing regulatory pressure to eliminate the detrimental transfer and release of invasive marine species through the discharge of ballast water. This issue prompted the International Maritime Organization to impose regulations for the treatment and discharge of ballast water, and these new rules are scheduled to come into force beginning September of 2017. An estimated 65,000 ships must adopt ballast water treatment systems type approved under the International Convention for the Control and Management of Ships' Ballast Water and Sediments, 2004 (BWMC). Approved systems must disinfect seawater to specified standards without adding any toxic elements to the discharged water. 

Global Water Intelligence estimates that the average cost for each ballast water management system will be more than $750,000 and the total cost to outfit every vessel will be about $46.5 billion. Because it is the highest impact, lowest cost, lowest energy technology known that can solve this problem, the AOS is could be the most practical solution to maritime operators such as DryShips, Inc. (NASDAQ: DRYS), Navios Maritime Holdings, Inc. (NASDAQ: NM), Diana Shipping, Inc. (NYSE: DSX), Sino-Global Shipping America, Ltd. (NASDAQ: SINO), Diana Containerships Inc. (DCIX) and several others. 

In an effort to reduce the incidence of foodborne illness in the poultry industry, the U.S. Department of Agriculture's Food Safety and Inspection Service, FSIS, announced new, stricter federal standards to reduce Salmonella and Campylobacter in ground chicken and turkey products, as well as in raw chicken breasts, legs, and wings. The new regulations took effect July 1, 2016 and have the potential to impact sales of poultry processing operations of Tyson Foods, Inc. (NYSE: TSN), Pilgrims Pride Corporation, (NASDAQ: PPC), Sanderson Farms, Inc., (NASDAQ: SAFM), Hormel Foods Corporation, (NYSE: HRL), Perdue, Cargill, Smithfield Food, Inc., Conagra Foods, Inc., and every other poultry processor. Researchers at the University of Alberta confirmed that the AOS could be highly effective in reducing cross-contamination of pathogens when poultry is washed in chill tanks. 

Water quality of municipal water systems is also a growing concern and a few large water treatment companies that provide water services to millions of U.S. residents are American Water Works Company, Inc., (NYSE: AWK), American States Water Company (NYSE: AWR), Aqua America, Inc. (NYSE: WTR) and Veolia Environment S.A. (OTC: VEOEY). 

The need for a better and lower cost clean water technology is urgent and CB&I may just be the perfect company to support implementation of breakthrough low-cost water and air treatment technologies developed by BioLargo, Inc. that can help solve problems across such a broad spectrum of industries.

** Update to Article: In late 2017 BioLargo formed BioLargo Engineering Science & Technologies, Inc. with a team of innovators formerly employed by CB&I. 

Thursday 1 December 2016

Biolargo Engages CB&I (Chicago Bridge & Iron) to Support Advanced Technology

* 2020 update: Enforcement of Ballast Water Discharge Regulations Delayed to 2030 Link Here for More Information 

*2017 Update- BioLargo forms BioLargo Engineering, Sciences and Technologies (BLEST) Link Here

BioLargo Press Release-

Biolargo Engages CB&I (Chicago Bridge & Iron) to Support Advanced Technology


WESTMINSTER, CA— (December 1, 2016) - BioLargo, Inc. (OTCQB: BLGO) announced that its subsidiary BioLargo Maritime Solutions, Inc. has developed and created Advanced Oxidation System technology (AOS), a low energy, low cost and high performance clean-water treatment solution.
BioLargo has engaged CB&I to support implementation of proprietary technology and provide independent performance verification.

Dennis P. Calvert, BioLargo President & CEO, commented, “Our AOS, ‘Advanced Oxidation System’ is the low energy, low cost and high performance clean-water treatment solution. It has been shown to achieve unprecedented levels of disinfection and efficient soluble organic contaminant removal. It has an important contribution to make to a number of industries, including the maritime industry. The AOS and all of our technical solutions deserve the attention of world-class leaders like CB&I. As opportunities materialize into formal work orders, we look forward to sharing additional details about the working relationship.”  

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About CB&I 
CB&I (NYSE:CBI) is a leading provider of technology and infrastructure for the energy industry. With over 125 years of experience and the expertise of more than 40,000 employees, CB&I provides reliable solutions to our customers around the world while maintaining a relentless focus on safety and an uncompromising standard of quality. For more information, visit www.CBI.com



Wednesday 30 November 2016

BioLargo subsidiary Odor-No-More Pledges $60,000 to Support EREF’s Scholarship Program








Raleigh, NC (November 29, 2016) – BioLargo, Inc. subsidiary Odor-No-More, Inc., through its leadership team, has pledged $60,000 to the Environmental Research andEducation Foundation (EREF) to fund scholarships for graduate students conducting research into solid waste management. EREF scholarships recognize graduate students pursuing excellence in solid waste management research and education. Recipients are chosen based on credentials and potential contributions to the solid waste industry and its scientific community.

“Odor-No-More, Inc. maintains a strong commitment to the creation of best in class, environmentally-friendly products and the continued pursuit of sustainability and innovation,” said Odor-No-More’s president Joe Provenzano. “EREF’s mission to fund research into sustainable waste management practices aligns with this commitment and we are proud to provide support for students looking to advance innovation in the waste industry.”

Students must meet the following criteria to receive an EREF scholarship:

  • ·      Will be this year or are now a full-time master’s or doctoral student, and
  • ·      Have a clearly demonstrated interest in solid waste management research.


Applications for 2017 EREF scholarships are due May 3, 2017. 

For more information on the EREF scholarship program, please visit www.erefdn.org.

About the Environmental Research and Education Foundation
EREF is a 501(c)3 class charity that funds and directs scientific research and educational initiatives for waste management practices to benefit industry participants and the communities they serve. For more complete information on EREF funded research, its scholarship program and how to donate to this great cause, visit www.erefdn.org.

About BioLargo, Inc. and Odor-No-More, Inc.
BioLargo, Inc. (OTCQB: BLGO) makes life better by delivering sustainable technology-based products that help solve some of the most widespread problems threatening the world's supply of water, food, agriculture, healthcare and energy. More information can be found about the company and its subsidiaries at www.BioLargo.com. Its subsidiary Odor-No-More Inc. (www.OdorNoMore.com) features award-winning sustainable technology based products, including its industrial odor eliminator CupriDyne® Clean (www.CupriDyne.com).

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Media Contact:
Catherine Ardoin, Communications Coordinator
919.861.6876 ext. 109

Link Here

Monday 17 October 2016

Ballast Water Regulatory Enforcement Delayed ... Again! - Update to Article: Why BioLargo’s “Lowest Energy Highest Impact” Water Treatment System Will “Clean Up” In $50 Billion Ballast Water Treatment Race

Sometimes the wisest decision is to do nothing! 

“The fool strikes. The wise man smiles, and watches, and learns. Then strikes.”

― Joe Abercrombie, Half a King


The Ballast Water Treatment initiative is rich in lessons for any company looking to find a market that depends on a regulatory action to create demand!  

BioLargo wisely tested these waters and elected to stand on the sidelines as fortunes were lost by companies that jumped too soon. The delays continue 5 years later as enforcement has been pushed another decade to 2030!  That's right- 2030.  





October 2019 Update to Original Article

California delays [again] ballast water treatment standard


2020 was meant to be the start date for the California Marine Invasive Species Act (MISA), which would have required a stricter standard of ballast water treatment than that sought by IMO or the USCG. Implementation of the Act has now been delayed until 2030


The California Marine Invasive Species Act (MISA) is to be implemented in two parts: an interim standard and a final performance standard. The final performance standard calls for zero detectable living organisms. This is a standard higher than that of IMO and beyond that required by the USCG.
The California State Lands Commission, the enforcer of the regulation in California, has recognised that the standards are unachievable with the currently available technology. It was for this reason that in October 2015, California delayed implementing its interim ballast water discharge standards by four years, from 1 January 2016 to 1 January 2020, because of the lack of available treatment technologies.
To the surprise of no one in the ballast water treatment technology industry, the implementation of MISA has been delayed again. In early October California’s governor, Gavin Newsom, signed a bill to delay MISA. The bill, Assembly Bill (AB) 91, delays implementation of the California interim and final ballast water discharge performance standards until 1 January 2030, and 1 January 2040, respectively. The bill itself states that no ballast water treatment technologies were available to meet the standards. The bill incorporates that an assessment of the technology must be made 18 months before the new implementation dates.
Instead, the bill mandates that from 1 January 2020 California is to adopt regulations that require owners and operators of vessels arriving at California ports to comply with the USCG ballast water discharge performance standards.
One concession in the bill was to decrease the distance that vessels must put out to sea to facilitate ballast water exchange. The bill changes the definition of the Pacific Coast of North America to: “east of 154º W longitude and north of 20º N latitude, inclusive of the Gulf of California.”
The bill also allows sampling of ballast water and biofouling for research purposes, as well as compliance purposes.

**********
2017 Article Describes the Industry Turmoil


Link to Article Here

IMO's hesitance in ballast water takes toll on suppliers

A few weeks from now the IMO will decide when carriers must install ballast water management systems. Ahead of the key MEPC meeting, uncertainty among suppliers has only grown, and Norway's Optimarin has already had to lower its full-year guidance.


Photo: IMO

Nervousness about how the market for ballast water management systems will develop is increasing ahead of a decisive IMO meeting to be held in early July.

At the meeting of the IMO's Marine Environment Protection Committee (MEPC), the plan is to determine when shipowners must install ballast water management systems. And while there was a degree of uncertainty among suppliers earlier this year, this uncertainty has since then grown considerably, as there is now much to indicate that the implementation schedule could be pushed back two years. And this has made carriers hesitant to invest in the systems.


CEO Tore Andersen expected earlier this year that Optimarin could more than double its revenue from last year of NOK 100 million (USD 11.8 million). These expectations have now been changed - due to factors such as the proposed schedule change to be discussed at the IMO.

"We will not experience the success we were hoping for this year. We've received many inquiries, but more and more carriers are postponing installation of the systems. But we'll survive and will most likely make money, though much less than we'd hoped for. It's not looking bad, but things are moving too slowly," says Andersen, adding that Optimarin has received around 30 orders in 2017.

Hoping and praying

The company feels fairly well-equipped for the future, as it is one of only four companies globally to have its ballast water management system approved by the US Coast Guard. 




Original 2016 Article Below: 

In order to halt the worldwide spread of invasive harmful marine species, the International Maritime Organization (IMO) has officially mandated more than 65,000 ships (over 400 gross tons) to install approved ballast water treatment systems. The American Bureau of Shipping (ABS) reports that the IMO Marine Environment Protection Committee will meet in October to finalize the new law.

Frost & Sullivan's Frederick Royan, Environment & Water Vice President, discussing the vast growth opportunities and key challenges that will result from the milestone Convention says, "the next few years will witness about $50 billion in cumulative spending of ballast water treatment systems."

After years of the IMO pushing for the new requirements, ship operators and owners will now have until September 8, 2017, to comply with the new regulations. The new regulations will be enforced by blocking non-compliant ships from unloading cargo, levying fines and even the threat of criminal prosecution for non-compliance. The heat is on and the industry is scrambling to find practical and affordable answer.

Current 'Best in Class' Technologies for Ballast Water Treatment Systems
With over 65 competitors listed by the IMO, competition is fierce, and UV and electro-chlorination systems are leading the way as the currently preferred technologies. As the deadline nears, these technologies are being carefully re-evaluated and official requests for extensions to achieve compliance are piling up.

Can Challenges of UV and Electro-chlorination Be Overcome?
UV and electro-chlorination are older technologies that inherently have major hurdles to clear: high capital costs, high operating energy requirements, and large size requirements.

The looming question is, "Can operators afford to achieve compliance with these existing technologies?"

Timing is Terrible
The new requirement for approved Ballast Water Treatment Systems comes at a time when the maritime industry is experiencing severe financial strain from a global slowdown, and banks may be reluctant to pony up the $50 billion needed for their customer to achieve compliance. Clearly, the economics will be challenging.

High Energy Requirements Are Big Problems
Ultraviolet and electro-chlorination systems require large amounts of energy to operate and may require more energy than what ships can currently supply. Power requirements must be considered, as existing vessels were designed with generators matched to the electrical load of the original ship, with only a small reserve. Existing electrical generators may be insufficient to support the power plants of UV and electro-chlorination systems, and additional power supplies such as diesel generators could be required, incurring significant costs.

A further complication is that IMO standards mandate that newly installed diesel generators must be "Tier III" certified, meaning they are equipped with special emission control technologies such as selective catalytic reduction (SCR) or exhaust gas recirculation (EGR). Simply put, this means that the added power generators will be very expensive and they are exceedingly large. Since these new power supplies would need to be housed in the tight space available, this exacerbates an already complex issue that could keep engineers busy for years. Arguable the most important factor to consider is that the added water treatment systems and power supplies will diminish the payload capacity (mass) for the ship, meaning it would need to reduce its payload and therefore its revenue for each trip going forward.

Let's see if this adds up? Add costly capital equipment to meet the water discharge specification, add the required power supply, fit it all into the ship, increase the operating costs and lower the payload. This combination should send a shiver up the spine of any ship owner.

BioLargo's Newly Unveiled Advanced Oxidation System (AOS) is the "Low Energy, High Impact" Solution for the Maritime Industry
After millions of dollars in R&D, many government grants, and several years of hard work, BioLargo, Inc. (OTC: BLGO) recently showcased the first pre-commercial prototype of its AOS water treatment system, billed as the lowest cost and highest impact, scalable clean water technology in the world. By combining a cutting-edge carbon matrix, advanced iodine chemistry, and electrolysis, the technology rapidly and inexpensively eliminates bacteria and chemical contaminants in water. What places the AOS above competing technologies is its low cost of input electrical energy: studies done by BioLargo researchers in conjunction with the University of Alberta have shown the AOS to achieve dramatically higher rates of disinfection with approximately 1/20th the electrical energy input of competing technologies such as UV disinfection or electro-chlorination. It is this aspect of the AOS that places it above the competition for the race to solve the ballast water treatment problem, and is the key value proposition of the AOS in this highly competitive and super-charged market.


Figure 1: The Alpha AOS - Sensor drive and computer controlled

Ocean-going vessels already have power plants built to move ballast water, so whichever water treatment system can achieve competitive or even superior disinfection results with nominal power requirements could be adapted to current ships without major power plant upgrades. This is what separates BioLargo's AOS from all other options as the system of choice. If the AOS can manage a ship's ballast water treatment requirements without requiring installation of a Tier III IMO-certified power generator, it could be the default choice for many ship owners simply because such a power generator could be prohibitively expensive, space-intensive, and heavy.

The outstanding energy efficiency of the BioLargo AOS has another implication for ships requiring a ballast treatment system. Since a ship's ballast treatment system runs off power supplied by either the main diesel engine or an auxiliary diesel generator, a treatment system with lower power requirements consumes less fuel and therefore generates less greenhouse gas emissions. This point is critical, since new European Union and IMO rules mandate that ships' emissions be tightly regulated to meet strict standards, and in the case of the IMO measures, these standards become stricter every 5 years. With its unrivaled energy efficiency, the BioLargo AOS can make it easier for ships to comply with these regulations and reduce their carbon footprint.

In addition to the unrivaled performance and power efficiency of the BioLargo AOS, the technology has other attributes that make it valuable to the maritime industry. Namely, the AOS is perfectly capable of treating water with high turbidity or total dissolved solutes, which cannot be said of UV disinfection systems in particular. The AOS is also billed as a flexible, modular system that can accommodate space limitations and interact well with physical filtration systems, easing integration into existing infrastructure. Additionally, its capital cost is expected to be lower than UV and electro-chlorination in this context because its materials are simply, ubiquitous, and are readily available at a low cost. Importantly, the AOS also uses safe and eco-friendly materials and chemicals, elevating it for ship owners concerned with safety and environmental considerations.

The AOS will very soon be deployed in the livestock production industry, where its first pilot projects are slated. With additional scale-up engineering and partnership with manufacturing operators, the AOS can next be deployed in the maritime ballast water treatment market, where it could dominate the market with its low energy cost vs value proposition.

Dennis P. Calvert, President & CEO of BioLargo commented, "In order to successfully compete in this highly competitive and fast moving market, our company will need to pick our strategic partners carefully, focus on the engineering scale-up, and refine its business modeling to maximize value and cost savings for customers."



With the new regulations approaching rapidly, shipping companies such as Navios Maritime Holdings (NYSE: NM), DryShips, Inc. (NASDAQ: DRYS), Ship Finance International Limited (NYSE: SFL), Nordic American Tankers Limited (NAT), Frontline Ltd. (NYSE: FRO), Scorpio Tankers, Inc. (NYSE: STNG), Seaspan Corporation (NYSE: SSW), and Teekay Corporation (NYSE: TK) are watching closely and focused on finding the best solutions.

Luxury cruise operators such as Carnival Corporation (NYSE: CCL), Disney Cruise Line owned by The Walt Disney Company (NYSE: DIS), Norwegian Cruise Line Holdings, Inc. (NASDAQ: NCLH), and Royal Caribbean Cruises, Ltd. (NYSE: RCL) will also have to meet the same ballast water treatment requirements.

About BioLargo, Inc.
BioLargo is a science and technology company developing multiple advanced technologies that are now entering early stages of commercialization to treat water and air for broad use in large industries.

Dennis P. Calvert, President and CEO of BioLargo, comments, "We are thankful for the support by our shareholders and investors as we advance our technology and commercial efforts. Our AOS continues to garner attention from an expanding audience of industry, public funding sources, and potential strategic partners. Since our technical symposium approximately one month ago, we are experiencing a swell of attention and interest in anticipation of our first commercial pilots planned in early 2017. We are also busy advancing the automation and optimization of the system as it moves from alpha to beta in preparation of its first commercial pilots, as well as developing more operations oriented staff. Sales from our Odor-No-More subsidiary continues to improve as we build out infrastructure to support an increased focus on sales, marketing and manufacturing. We are also working closely with new distributors and agents to expand sales of our CupriDyne Clean (www.cupridyne.com) industrial odor control product. At this time, our advanced wound care products in development remain on target for 510(k) application with the FDA in early 2017. This is a great time at BioLargo and our future is bright!"