Water World: John Meunier awarded drinking water treatment for Nisga’a Village of Gitwinksihlkw, British Columbia, Canada.

John Meunier Inc./Veolia Water Solutions & Technologies Canada To Supply Drinking Water Treatment System To The Village Of Gitwinksihlkw

Drinking water treatment system from John Meunier to provide reliable drinking water supply for British Columbia villagers

MONTREAL, PQ, Canada, Oct. 5, 2011 — John Meunier Inc./Veolia Water Solutions & Technologies Canada has been awarded a contract to supply a drinking water treatment system to the Nisga’a Village of Gitwinksihlkw, British Columbia, Canada.

The package drinking water treatment plant will have a capacity of 500 m³/day and includes an ACTIFLO® high rate clarification system and Dusenflo® gravity filtration, plus all ancillary chemical dosing, instrumentation and control systems.

The ACTIFLO® process has been selected for its reliability, compactness and suitability for treating Nass River water, which contains very fine volcanic and glacial particles.

Gitwinksihlkw, with a population of 250, is located on the north bank of the Nass River, 100 km northwest of Terrace, BC, and 1400 km from Vancouver, BC. Over the past several years, the village, one of four Nisga’a communities, has experienced frequent water shortages, requiring water to be trucked in for domestic use.

The new treatment plant is designed to provide microbiologically- and chemically-safe and aesthetically pleasing drinking water for the village. The finished water quality will meet or exceed the Guidelines for Canadian Drinking Water Quality (May 2008), as well as the disinfection requirements outlined in the Protocol for Safe Drinking Water in First Nations Communities, INAC (2006). The plant start-up is planned for fall 2011.

EIU: Any old iron? A little-known chemical may provide a new way to clean water

IRON in water is normally regarded a pollutant. Luke Daly, the boss of Ferrate Treatment Technologies of Orlando, Florida, however, plans to turn that thought on its head. He intends to use a chemically unusual form of iron to clean water up, not make it dirty.

Iron is found in the part of the periodic table known as the transition metals. Like all metals, these react with other elements by giving up electrons to form positively charged ions. Transition metals, though, give up different numbers of electrons in different circumstances, and thus have ions of various charges. Usually, iron loses two or three electrons. But in ferrates, which are compounds of iron and oxygen with non-transition metals like sodium and calcium, it loses six. That makes ferrates extremely reactive, and it is this reactivity which Mr Daly hopes to exploit.

First, ferrates are strong oxidising agents. That means they destroy bacteria and viruses, and break up organic molecules with alacrity. Second, they are coagulants and flocculating agents. They attract other chemicals in the water, including dissolved metals, and precipitate them for easy removal. Moreover, once it has done its job, the iron in ferrates precipitates too, as iron oxide, leaving pure water behind.

The reason these wonder materials have not been used as water purifiers before is that their reactivity makes them unstable and thus difficult to store. Thomas Waite of the Florida Institute of Technology, an academic scientist on whose work the company has drawn, jokes that in the early days of his research he kept the whole world’s supply of ferrates in a cabinet in his laboratory.

Ferrate Treatment Technologies’ trick is to make ferrates on site, for instant use, rather than attempting to transport them to where they are needed. The firm’s “Ferrator” uses three cheap raw materials—bleach, ferric chloride and caustic soda—to produce sodium and calcium ferrate at a price competitive, in terms of oxidising power, with more familiar water-cleaners like chlorine and ozone.

A machine small enough to be carried around in a pickup truck, Mr Daly claims, could generate enough ferrates to purify 75m litres (20m American gallons) of water a day. The system is now being tested at two plants in Florida. If all goes well, the first commercial Ferrators will be up and running later this year.

from PRINT EDITION | Science and Technology

http://www.economist.com/node/17956927?story_id=17956927

 

Over 1/3 of wastewater treatment in India breaking environmental protection rules

Call for ‘urgent’ upgrade to India’s wastewater treatment

DELHI, India, Jan. 12, 2010 — Over a third of wastewater treatment facilities in India are breaking environmental protection rules, according to a government report released today. The nationwide survey was carried out by the Indian government’s Central Pollution Control Board (CPCB) and revealed, in detail, the extent of country’s sanitation problems. The report showed that, out of the 38,000 million litres per day (mld) of sewage generated, treatment capacity only exits for about 12,000 mld.

CPCB said there remains a “large gap between generation and treatment of wastewater in India” but also that operation and maintenance problems are impacting on the treatment capacity already installed. As much as 39% of plants are reported to be failing to meet general standards under environmental protection rules for discharge into streams.

Figures provided by the CPCB showed that Delhi generates 3800 mld of wastewater but only has the capacity to treat 2330 mld. The city of Kolkata was said to produce over 700 mld but only has installed capacity to treat 172 mld. Professor Gautam, chairman of the CPCB, said the gap between produced wastewater and treatment capacity needed “urgent attention of all concerned.”

The report highlighted that the 908 cities across India are treating less than a third of their produced wastewater. “Existing treatment capacity is just 30% of present sewage generation,” it said. The report is the forth in a series from the Board that looked at the state of water supply and wastewater generation, collection, treatment and disposal.

Going forward, the CPCB recommended that there needs to be an “uninterrupted upgrading of capacity” to help combat the problems and said that to improve the water quality of rivers and lakes, there remains an “urgent need to increase sewage treatment capacity and its optimum utilization.”

Download the full report at: http://www.cpcb.nic.in/upload/NewItems/NewItem_153_Foreword.pdf

H2O Innovation Receives Coveted “Technology Green 15 Award” at the 2009 Deloitte Technology ‘Fast 50’ Awards

H2O Innovation Receives Coveted “Technology Green 15^TM Award” at the 2009 Deloitte Technology Fast 50^TM Awards

QUEBEC CITY, QUEBEC–(Marketwire – Oct. 1, 2009) –

H2O Innovation Inc.  (TSX-V:HEO)  is a winner of the prestigious Deloitte Technology Green 15^TM Award, an award created in 2007 to showcase 15 Canadian companies that are leading the way to create major breakthroughs in the field of green technology.  “The Deloitte Technology Green 15^TM Award recognizes those Canadian companies that offer solutions to global environmental challenges by creating intellectual property and technology that reduce society’s environmental impact,” said John Ruffolo, National Leader, Technology, Media & Telecommunications Industry Group, Deloitte. “Companies such as H2O Innovation are creating technology solutions that have a significant environmental impact and demonstrate a compelling return on investment, despite being in a recession. In doing so, they are helping position Canada as a global leader in the development of commercially-viable green technology.”

H2O Innovation designs, develops, produces, and integrates state-of-the-art custom-built water treatment systems for the production of drinking water, the reclamation of water, the treatment of wastewater and industrial process water for multiple markets. H2O Innovation has completed and successfully integrated 4 acquisitions in the last 20 months in Canada and the United States. The Company was ranked 20th largest global supplier of desalination systems and ranks 3rd in North America according to industry publication Water Desalination Report.

H2O Innovation disclosed its 2009 fiscal year results by press release on Monday September 28, 2009. For this fiscal year ended June 30, 2009, H2O Innovation registered record sales, solid growth in EBITDA and cash generated from operating activities while having significantly reduced its net loss by 98% to $65,148. During the fiscal year, the Company’s sales reached $31.2 M, a 189% increase compared to $10.8 M for the 2008 fiscal year. Gross margin was at 23.8% for the fiscal year 2009, slightly down from 24.8% for the same period in 2008. EBITDA (earnings before interest, taxes, depreciation and amortization) for fiscal 2009 was $1.1 M, compared to a ($3.0 M) loss before interest, taxes, depreciation and amortization in fiscal 2008. The Company recorded a net loss of ($65,148) ($0.001 per share) for the 2009 fiscal year, significantly lower than the net loss of ($3.6 M) ($0.100 per share) recorded in fiscal 2008.

To qualify for the Technology Green 15^TM Award, candidates must be headquartered in Canada and devote a significant portion of their operating revenues to creating proprietary technology or intellectual property.
About the Deloitte Technology Green 15^TM

The Technology Green 15^TM recognizes Canada’s leading GreenTech companies. GreenTech, the industry term for “green technologies”, is taking on greater importance in the world in general, and the world of business in particular. It includes any technology that promotes a more efficient use and re-use of the earth’s resources in industrial production and consumption. GreenTech products and services are designed to reduce or eliminate environmental impacts and improve operational performance, productivity, or efficiency while reducing costs, inputs, energy consumption, waste, or pollution. Although many companies within GreenTech industry sectors are very different, they share a common trait: all use new, innovative technology to create products and services that compete with existing products and services on price and performance while reducing impact on the environment.

About the Deloitte Technology Fast 50^TM

The Deloitte Technology Fast 50^TM program is Canada’s pre-eminent technology awards program. Celebrating business growth, innovation and entrepreneurship, the program features four distinct categories including the Technology Fast 50^TM Ranking, Companies-to-Watch Awards (early-stage Canadian tech companies in business less than five years, with the potential to be a future Deloitte Technology Fast 50^TM candidate,) Leadership Awards (companies that demonstrate technological leadership in four industry subcategories: hardware/semiconductor, software, telecommunications and emerging technologies) and the Deloitte Technology Green 15^TM Awards (Canada’s leading GreenTech companies that promote a more efficient use and re-use of the earth’s resources in industrial production and consumption.) Program sponsors include Deloitte, Gowlings, GrowthWorks, RBC, Wellington Financial, Stonewood Group, HKMB Hub, CATAAlliance, CleanTech Group, IGLOO, ITAC, MaRS and Microsoft. For further information, visit www.fast50.ca.

About H2O Innovation

Exclusively dedicated to water treatment, H2O Innovation is establishing itself as a key player in sustainable development and the field of clean technologies. H2O Innovation designs, develops, produces, and integrates state-of-the-art custom-built water treatment systems for the production of drinking water, the reclamation of water, the treatment of wastewater and industrial process water in the municipal, commercial, industrial, mining, and energy markets. Additionally, the Company offers complete operating and maintenance solutions for membrane filtration and reverse osmosis systems. H2O Innovation has approximately 100 employees and eight offices including three manufacturing and assembly plants in Canada and the United States. Shares of H2O Innovation are listed on the TSX Venture Exchange (HEO) as well as on the NYSE Euronext Alternext Exchange (MNEMO: ALHEO).

GE sees tide coming in for water business

Reuters, 11 August 2009 – General Electric Co predicts that water purification could grow from a drop in the corporate bucket to a major growth driver within years, just as its wind unit did.

The largest U.S. conglomerate has taken about a decade to build its water unit, which focuses on large-scale treatment and purification for municipal and industrial water users, through five takeovers costing about $4 billion.

With an estimated $2.5 billion in revenue, the water business remains a sliver of the $156 billion in sales the world’s largest maker of jet engines and electricity-producing turbines is expected to generate this year.

The unit’s small size has lead some investors to wonder if GE might prefer to sell it to focus on businesses where it can better enjoy the benefits of scale.

But executives with Fairfield, Connecticut-based GE said water has the potential to become a major profit contributor.

“What GE tries to do is to align the company with some of the mega-trends, the mega-challenges of the world. Energy is one, healthcare is the other, and the third one is water,” said Heiner Markhoff, president and chief executive of GE Water & Process Technologies.

While arid areas of the world, from the Middle East to the southwestern United States, have long coped with water shortages, rapid population growth and rising environmental regulations are making water scarcity and purification a more prominent issue in temperate, wetter areas.

GE does not disclose the profits or revenue of its water business, but the unit has been hit by the global recession.

In a conference call discussing the company’s 36 percent second-quarter profit decline, GE executives noted that service revenue related to the water business, which does not include equipment sales, fell 18 percent in the quarter.

While some of GE’s businesses, like lighting and appliances, have developed over a century, others take off more quickly.

Take wind turbines. When GE officials first pitched Chief Executive Jeff Immelt on the idea of getting into the business in 2001, he dismissed the technology as a “hula hoop.” Immelt later changed his mind when Enron’s bankruptcy provided a cheaper way into the business, and wind turbines last year generated about $6.5 billion in revenue.

“I hesitate to compare ourselves to (wind), but the space, clearly is similar,” Markhoff said.

GE is not the only major multinational to see potential in water. Its rivals include German conglomerate Siemens AG and No. 2 U.S. chemical company Dow Chemical Co, as well as smaller companies including Danaher Corp and Nalco Holding Co.

LARGE SCALE FOCUS

GE and its rivals are focusing on scarcity, and the growing competition for water among residential and commercial users.

An example of GE’s technology at work can be found in Loudon Water in Virginia, which serves 175,000 people. Located along the Potomac River in a commuter suburb of Washington, D.C., Loudon faces some of the state’s strictest wastewater quality standards.

Last year, Loudon’s Broad Run Water Reclamation Facility started treating wastewater with a GE system incorporating biological agents that clean the water of impurities and a membrane system that prevents them from escaping the plant.

That allows it to process higher volumes of water at lower cost than older, chemical-based options, said Tom Broderick, program manager for the facility.

The treated water is clean enough for the utility to offer it for industrial use, he said.

“More and more wastewater utilities are looking to water reuse, just from a sustainability standpoint,” Broderick said.

“We have signed up our first customer approximately two miles (3.2 km) to the north of us. It’s a data center that will be using it for cooling water.”

IN FOR THE LONG HAUL?

As it focuses on large-scale purification, GE has pulled back from residential water treatment. Last year it moved its residential business into a joint venture with U.S. industrial Pentair Inc, which owns 80 percent of the enterprise and handles sales and distribution.

Some analysts think GE may soon exit the water business.

“We think it is increasingly likely that GE may seek to divest its $2.5 billion water and process technologies platform over the next one to two years,” said Bank of America/Merrill Lynch analyst John Inch. In a June note to clients he noted that the water business has lagged GE’s typical profit margin and growth targets.

Markhoff, who would not confirm or deny Inch’s estimate of GE Water’s size, said the company remains committed to water.

“We have a lot of support throughout the energy infrastructure business, up to the chairman of the company,” Markhoff said. “We see clearly the medium- and long-term potential of this business, and it is very well aligned with the major trends.” (Editing by Alan Elsner and Mary Milliken)

Sourced from the Thomson Reuters Carbon Markets Community – a free, gated online network for carbon market and climate policy professionals.