FuelCellsWorks

IdaTech plc (AIM IDA.L), a global leader in the development and manufacture of clean and reliable extended run backup power fuel cell products for telecommunication applications today announces an update on the status of the supply agreement between IdaTech, ACME Group (”ACME”) and Ballard Power Systems Inc. (”Ballard“) signed in October 2008 (”Supply Agreement”).

On 23 September 2009, the Company announced that a milestone in the product acceptance process, due in October 2009, was likely to be missed. The Supply Agreement allowed an extension of the product acceptance process of up to 6 months if IdaTech elected to submit an acceptable remediation plan by 15 November 2009. IdaTech did not submit such a plan and today announces that the Supply Agreement between IdaTech, ACME and Ballard terminated effective on 15 November 2009.

In place of the Supply Agreement, IdaTech and ACME have entered into a Distribution Agreement (”Distribution Agreement”) for ElectraGen™ backup power products. Under the terms of this agreement, ACME and IdaTech will work together to develop the Indian telecom market for back up fuel cell systems and in particular for the large scale deployment of the natural gas fuel cell system, which was the focus of the original Supply Agreement. The natural gas fuel cell system will incorporate the Ballard liquid cooled FCgenTM 1300 stack

IdaTech’s ElectraGen™ products can be powered by hydrogen gas or by its proprietary fuel reformer system which converts liquid fuel into high-purity hydrogen onsite as needed, or in the case of the natural gas product, uses that fuel to produce and supply hydrogen on demand. The ability of IdaTech to be able to provide multi-fueling options was key in ACME’s decision to partner with IdaTech.

Commenting on the update, Hal Koyama, CEO said:

“IdaTech is making very good progress with the development of the natural gas fuel cell product and is delighted to continue working with ACME. The Distribution Agreement gives both IdaTech and ACME greater flexibility and allows the companies to continue to collaborate on a number of projects. Our new agreement is a sign of the strong interest in the large scale market for fuel cell products in India and the collaboration with ACME. Working together, we plan continue to develop and grow the market.

As previously announced, in the development of the natural gas product, IdaTech has broken through a significant number of the cost barriers and added significant new technology to the Company’s portfolio. Much of this new capability will also be leveraged in IdaTech’s next generation methanol/water fueled systems, due for launch in late 2010.“

Atul Sabharwal, Chief Operating Officer of ACME commented:

“ACME sees a great interest in IdaTech’s fuel cell systems for its key markets in the near future. The replacement of the Supply Agreement with the Distribution Agreement allows both ACME and IdaTech greater flexibility in working together and ensures ACME will be able to supply its customers with the fuel cell products they need.”

Commenting on the update, John Sheridan, Ballard CEO said:

“We are encouraged by the prospects for IdaTech’s ElectraGenTM family of products in the Indian market and beyond. We look forward to our continued collaboration in developing leading edge products and to supply IdaTech with our FCgenTM-1300 fuel cell for its natural gas based system.“

VANCOUVER–Ballard Power Systems (TSX: BLD; NASDAQ: BLDP) today announced that its partners IdaTech, LLC (”IdaTech”) and ACME Group (”ACME”) have terminated the existing supply agreement between the three parties and replaced it with a new, more flexible distribution agreement between IdaTech and ACME for fuel cell solutions for wireless telecom backup power in India. Under the terms of this new agreement, Acme can distribute a range of IdaTech fuel cell products, focused on the natural gas system currently under development at IdaTech. The IdaTech natural gas fuel cell product development, incorporating Ballard’s FCgen(TM) 1300 stack, continues with good progress, as reported by IdaTech today. Pricing and volume in the agreement are flexible and based on local market conditions. Shipment of the ElectraGen(TM) hydrogen systems, incorporating Ballard’s FCgen(TM) 1020 fuel cell stacks, under the original Supply Agreement is unaffected by this change.

Atul Sabharwal, Chief Operating Officer, ACME Group said, “ACME is pleased to have a new distribution agreement with IdaTech that will enable the deployment of fuel cell solutions in wireless telecom backup power in India. We feel as strongly as ever that a substantial market opportunity exists for fuel cells in India.”

Hal Koyama, IdaTech’s Chief Executive Officer said, “We are looking forward to supplying ACME with our ElectraGen(TM) natural gas and hydrogen systems, both of which incorporate Ballard’s fuel cell stacks. There are tremendous opportunities for both of these products in telecommunications backup power in India and beyond.”

John Sheridan, Ballard’s President and Chief Executive Officer said, “We continue to see clear evidence of the large market opportunity in India and are pleased to be moving forward with this ACME-IdaTech-Ballard partnership.”

As previously disclosed, the original agreement was subject to meeting product acceptance testing (PAT) timelines. On July 2, 2009, Ballard announced that, together with its partner IdaTech, it had passed a PAT milestone and confirmed the order of 310 ElectraGen(TM) H2 hydrogen-based systems, incorporating 620 Ballard FCgen(TM)-1020 ACS fuel cell stacks, for ACME customers in the Indian market. These direct hydrogen units are not impacted by the new distribution agreement for natural gas systems. On September 23, 2009, IdaTech announced it would likely miss the PAT for the natural gas system, scheduled for October 16, 2009.

About Ballard Power Systems

Ballard Power Systems (TSX: BLD; NASDAQ: BLDP) is recognized as a world leader in the design, development, manufacture and sale of clean energy fuel cell products. Ballard’s mission is to accelerate fuel cell product adoption. To learn more about what Ballard is doing with Power to Change the World(R), visit www.ballard.com.

BOTHELL, Wash. — Neah Power Systems, Inc. (’Neah’) (OTCBB:NPWZ) , the Company developing fuel cell-based renewable energy solutions, described Neah’s unique ability to utilize multiple fuel solutions to power its patented methanol-powered fuel cells. Neah Power’s porous silicon design allows for the use of a variety of oxidants and fuels, including oxygen, hydrogen peroxide, and nitric acid, while the anode loop has been run with several concentrations of methanol and formic acid for its fuel.

Danny Wilks, Research Scientist, Neah Power Systems, explained that Neah’s architecture allows the use of different catalyst surfaces. “All electrochemical cells have two fundamental parts: an anode and a cathode,” Wilks said. “These electrodes act in much the same way as terminals in a battery. The anode catalyzes a fuel source such as methanol to harvest electrons that are then ‘donated’ to the reaction. The electrons are then transferred to the cathode where an oxidant is catalyzed to accept the donated electrons. The flow of electrons in this reaction is how electricity is generated in an electrochemical cell. On the anode loop, methanol is one of the most energy dense fuels on the market today. Newer and greener methanol manufacturing methods are being developed that help to make methanol one of the more environmentally friendly fuels.”

Chris D’Couto, Neah CEO and President, pointed out, “The power needs of tomorrow call for adaptable and dynamic power solutions that can be tailored to customer needs. Neah continues to research the next generation of fuels and oxidants that will be used to place our patented porous silicon fuel cell technology for these growing markets.”

About Neah Power

Neah Power Systems, Inc. (NPWZ) is developing long-lasting, efficient and safe power solutions for the military and for portable electronic devices. Neah uses a unique, patented, silicon-based design for its micro fuel cells that enable higher power densities, lower cost and compact form-factors. The company’s micro fuel cell system can run in aerobic and anaerobic modes, and is developing energy storage solutions based on its proprietary porous silicon technology. Further company information can be found at www.neahpower.com.

Sierra Nevada Brewing Co. founder Ken Grossman is the recipient of the 2009 Fuel Cell Pathfinder Award, the US Fuel Cell Council (USFCC) announced today. Grossman will receive the award Tuesday (November 17, 2009) at the Fuel Cell Seminar and Exposition in Palm Springs, California. The Pathfinder Award recognizes those outside the fuel cell industry who have made a significant contribution to fuel cell development and commercialization.

USFCC President Mike Hicks called Grossman “an exceptional customer, an exceptional businessman and an exceptional person. He is a pioneer not just in fuel cells, but in enlightened business management. He embodies the leadership that our nation and world need to overcome the challenges of the 21st century while at the same time continuing to improve the human condition.”

“As we enter a New Electrochemical Age, when we phase out combustion in favor of more civilized energy options, the USFCC is privileged to recognize one of the leaders of this transition, Ken Grossman,” Hicks said.

Sierra Nevada Brewing Co.’s commitment to increasing energy efficiency provides a model for other business leaders to follow. Their creative thinking has benefited the environment and their financial outlook.

The brewery collects organic waste from the brewing process and utilizes it in an anaerobic digester to create a source of renewable fuel. The fuel is then used by the fuel cell, exclusively or in combination with natural gas, to provide heat and power to the facility. The captured heat is recycled back into the plant to produce steam for boiling the beer and other heating needs. The overall energy efficiency of this combined heat and power system is double that of grid-supplied power.

The fuel cell allows the brewery to save money on its utility bills–approximately $400,000 a year–and provides a reliable source of power generated on-site that helps avoid costly power outages.

About the US Fuel Cell Council: The USFCC is an industry association dedicated to fostering the commercialization of fuel cells in the United States. Our members include the world’s leading fuel cell developers, manufacturers, suppliers and customers.

The conductivity of the membrane material is a critical factor for the efficiency of the fuel cell. Therefore, the measurement of the proton conductivity provides highly valuable information for the further development of this technology.

With the “TrueXessory-PCM Proton Conductivity Measurement“ market launch FuelCon provides a testing system for the development of more efficient fuel cell membranes. The new product allows highly reproducible in-plane measurements of the proton conductivity of PEM and DMFC membranes under defined humidification and temperatures up to 200°C. Designed as a tabletop system, complex hardware like a complete test station including gas supply is not required.

Besides the determination of the high frequency resistance (HFR) the TrueXessory-PCM allows the performance of complete impedance spectra. The innovative in-plane sample holder consists of a 4-electrode measuring head designed for membranes with a typical geometry of 1.5 cm x 4.0 cm.

For the accurately adjustment of the humidification, the PCM is equipped with an integrated water reservoir and heating cartridges, which are controlled by a coupled heat controller. Operated by FuelCon’s software FuelWork, unattended and fully automated test runs with extensive data acquisition can be performed