6/29/1999  Material Technologies Affiliate Announces Research Project With DCH Technology Inc. - DCH Technology/Business Wire

The joint project with DCH is dedicated to weld failures associated with corrosion; anticipated results could be used in the sBMS. The area of specific interest is associated with welded structural members where corrosion and/or degradation occurs as a function of dissimilar metal response. Alex Adelson, president, chief executive officer, and vice chairman of Antaeus commented, "We feel quite strongly that in assuming technical leadership in the `smart' bridge management field we must prepare to meet all the technical challenges of the future. DCH Technology, with its advanced light-driven hydrogen detection monitoring capabilities, fits our vision. We look forward to a successful relationship which will benefit both companies."

6/29/1999  Energy Research Corp., to Change Name to Fuel Cell Energy, Inc - ERC/Business Wire

"Historically, Energy Research Corporation has been a leader in the research and development of electrochemical technologies, fuel cells and batteries," Jerry D. Leitman, President and CEO said. "With the recent spin-off of our battery group, ERC is now totally dedicated to the commercialization of fuel cells. While research constantly continues at the company, there are no more technical hurdles to overcome, and our principal focus is now on the manufacture and marketing of fuel cell products for clean and efficient generation of energy, both electricity and heat. We believe the company name should more directly communicate the product we sell, rather than our ongoing research efforts."

6/28/1999  Fuel Cell Electrode to be Developed - Rhombic Corporation/Business Wire

Rhombic Corporation announces that the company has accepted a second proposal from the University of Missouri to participate in a joint research plan to develop doped diamond electrodes and undoped diamond film for the hydrogen fuel cell market. The doped diamond electrodes will be non-corrosive with the unique features of excellent thermal, chemical, and electrical conductive properties. Electrodes developed using boron doped diamond film will add efficiency to hydrogen fuel cells now being produced for automobiles, buses, and trucks.

6/28/1999  Willamette River Drinking Water Treatment Study Yields Dramatic Results With Patented Oxygenized Water Purification System - Everclear-Environmental/Business Wire

Because oxygen is a natural bactericide, the result is inexpensively-treated clean water that does not require the use of chemicals such as chlorine and its potentially cancer-causing byproduct--tri-halomethanes... Untreated water flows into contact with the proprietary electro-catalytic cell plates; electrical current to the plates alters oxygen molecules in the water, causing them to release hydrogen atoms. As hydrogen atoms are "gassed off" and released, the result is a higher concentration of oxygen molecules, which proves deadly to disease-causing bacteria. Tests have successfully increased oxygen content to the maximum amount water can carry, rising from about five parts per million to about 45 parts per million. Independent laboratory tests of oxygenized water have shown that the higher concentrations of oxygen kill pathogens such as salmonella, E.coli, staphylococcus, and listeria upon contact. The concentrated oxygen is stable, meaning treated water will remain bacteria-free for a long time.

6/28/1999  Methanex Corporation, Northwest Power Systems and Statoil - Co-Operation Agreement for Stationary Methanol Fuel Cell Demonstration Project - Methanex/PRNewswire

The companies have decided to co-operate on two pilot projects. The mainfocus of the agreement is to demonstrate the viability of methanol poweredfuel cell systems to safely deliver electricity and heat to homes. To thisend, several residences in Bend, Oregon will be disconnected from theelectricity grid during 1999 and these homes will be fitted with methanol fuelcell systems capable of supplying both electricity and heat to the homes. Thesecond project involves the use of Northwest Power Systems' methanol reformertechnology to supply pure hydrogen to a local metals fabricator in Albany,Oregon.

6/22/1999  Catalytica and McDermott Technology Expand Fuel Processor Development - Business Wire

Beginning last year, Catalytica Advanced Technologies and McDermott Technology have been collaborating on projects to develop and commercialize fuel processing technology for fuel cells, including the reforming of gasoline for transportation applications and natural gas for stationary power applications. In September 1998, the companies were awarded a contract by the California Energy Commission to develop a gasoline desulfurizer used to prepare gasoline for conversion to hydrogen for fuel cell-powered vehicles. Since then, the scope and structure of the collaboration have been broadened.

6/22/1999  PTC ... Merger Effective ... Ocean Power Launches - Ocean Power/PRNewswire

Ocean Power plans to focus its primary efforts on penetrating the enormous, worldwide market for potable water and reliable power...  Although the goal is to become the largest manufacturer and user of hydrogen fuel cell systems, the Company will enter the market using conventional power sources.

6/21/1999 Toups Technology Introduces New Emission-Free 'Waste To Energy' Process - Toups/PRNewswire

The non-burning system transforms about 40% of the waste intocarbon black, which can be used for a variety of purposes. The rest becomes a clean-burning gas that contains mostly hydrogen and methane. The gas, given the lab name Phoenix 777, demonstrates exhaust and combustion properties superior to natural gas. Phoenix 777 combustion emits less than half of the carbon dioxide emissions of natural gas and virtually no carbon monoxide or hydrocarbons.

6/21/1999  BPA Constructs House of the Future - Bonneville Power Administration/PRNewswire

As a bonus visitors to the home show will see a proton exchange membrane (PEM) fuel cell system in action. BPA will take this opportunity to demonstrate this new technology that converts hydrogen-rich fuels like natural gas, methane and propane into electricity, heat and water.

6/19/2000  ´Fuel Cell Innovation Park´ Now Operating at the Treptow Heating Station - Bewag (Germany)

This recently opened Berlin fuel cell project is a stationary system equipped with a proton-conducting membrane, the so-called PEM technology that generates electricity and heat at the same time. With the capability to produce 250 kilowatt of electric power and 230 kilowatt of usable heat, this plant is the first of its kind in Europe. ...The plant is the result of a project Bewag initiated in 1998 jointly with the Hamburg utility Hamburgische Electricitäts-Werke AG, the French electric utility Electricité de France, and German utility companies PreussenElektra Aktiengesellschaft and VEAG Vereinigte Energiewerke Aktiengesellschaft. ...The system has been developed by the Canadian company Ballard, a worldwide leader in this field. In Europe, the technology is produced and marketed by ALSTOM Energietechnik GmbH with whom Bewag signed a contract for construction and delivery of the fuel cell in July 1998. The energy the plant uses to produce the required hydrogen is natural gas.   map

6/16/1999  Fuel Cell Agreement Reached Between ECO And H Power - H Power/IWire

The agreement allows Energy Co-Opportunity's electric cooperative members the right to acquire exclusive territories in which to sell, distribute, lease, finance and service H Power stationary fuel cells.

6/15/1999  Pratt & Whitney Begins Development of A New Upper-Stage Rocket Engine - P&W/PRNewswire

Pratt & Whitney (P&W) announced today the development of a new advanced high-performance liquid- hydrogen-fueled rocket engine. Designated the RL50, the engine is being developed as an upper-stage power plant for both domestic and international launch vehicles. ...P&W's RL50 engine, the first new liquid upper-stage engine development effort conducted in the United States since the early 1960's and the first major rocket engine development fully funded by a private engine company, is expected to be available in 2003.

6/12/1999  Chicago Develops Commercial Hydrogen Bus Fleet by Venki Raman - Oil & Gas Journal

The CTA's demonstration fleet of three PEM fuel-cell buses operate on hydrogen gas stored at 3,600 psi in roof-mounted lightweight composite tanks. The station has facilities for receiving, storing, processing, and transferring hydrogen. The fuel transfer to the bus is via a fully automated dispenser. The fueling is performed by CTA personnel, with training in the safe handling of hydrogen. The station can fuel three buses within a 2-hr period. This requires a maximum delivery capacity of 80,000 standard cu ft/hr (scfh) to achieve a settled storage pressure of 3,600 psi at ambient conditions ranging from 0 to 100[degrees] F. Each bus consumes about 15,000-20,000 scfd of hydrogen. For this location, it proved to be most economical to deliver liquid hydrogen, and to use cryogenic liquid pumps to achieve the high storage pressure needed. Liquid hydrogen is transported to Chicago in cryogenic 15,000-gal liquid tanker trailers from a plant located about 300 miles away. The hydrogen is stored on site in a double walled vacuum insulated tank with a liquid capacity of 9,000 gal. The cryogenic pump moves liquid hydrogen from the storage tank pressure of about 150 psi through a vaporizer to refuel the buses with gaseous hydrogen at 3,600 psi. This pump requires less energy than needed to compress gaseous hydrogen to the same pressure. With high pressure gas-buffer storage, it is possible to initiate bus fueling immediately while the cryogenic compressor is still cooling down, preparing to pump hydrogen to the bus. ...Safety was given the highest priority in both the design and operation of the fuel station. The three primary hazards which were addressed in the design were fire, over pressurization of the storage tanks on the bus, and movement of the bus while refueling.

6/11/1999  Petro-Canada, Ballard and Methanex Announce New Association - Ballard

Flanked by Federal Natural Resources Minister Ralph Goodale and British Columbia Environment, Lands, and Parks Minister Cathy McGregor, Petro-Canada CEO Jim Stanford, Ballard Chairman and CEO Firoz Rasul and Methanex CEO Pierre Choquette announced the signing of a Memorandum of Understanding under which the three companies would work together to prepare for the establishment of a commercially viable fuel distribution network to meet the expected market demand for fuel cell vehicles. Petro-Canada, Ballard and Methanex will collaborate in laying the groundwork for a pilot project involving the supply and distribution of appropriate fuel, starting with methanol to facilitate the introduction of fuel cell vehicles.

6/10/1999  NECAR 4 Honored as the Best Future-Oriented Vehicle Concept - DaimlerChrysler/PRNewswire

DaimlerChrysler's latest test automobile to be powered by the fuel cell, NECAR 4 (New Electric Car), was chosen today in Hamburg by the "1999 International Engine of the Year Awards" as the best engine concept for the future. "By selecting NECAR 4 as the best engine concept by a convincing margin over its competitors, the jury has demonstrated considerable trust in the fuel cell activities of DaimlerChrysler," declared Graham Johnson, the editor ofthe specialist journal "Engine Technology International", which organizes the awards. "This result shows that fuel cell technology will be the automotive propulsion system of the future."

6/8/1999  Construction Begins on Plug Power's New Home - Capitol District Business Review (Albany, New York)

Plug Power LLC of Latham, a developer of fuel cells, broke ground for a new 50,000- square-foot facility on Albany-Shaker Road.

6/6/1999  Ford Debuts Fuel Cell-Powered P2000 Sedan - Ford

The newest member of Ford Motor Company's ultra energy-efficient P2000 family is a true zero-emission vehicle, powered by advanced hydrogen fuel cells. "A direct hydrogen fuel cell offers real promise as a zero-emission vehicle with competitive performance and driving range," said Bill Powers, vice president - Research. "Fuel cells have several advantages over batteries, which currently have range and durability limits. Hydrogen, on the other hand, is a renewable resource. " The fuel cell P2000 is designed to achieve the performance of today's Ford Taurus, which goes from 0 to 60 mph in 12 seconds. The fuel cell stack and electric drivetrain are targeted to achieve the equivalent of 90 horsepower. Ford is researching the vehicle's fuel cells in partnership with Ballard Power Systems of Canada, the fuel cell industry's technology leader, and DaimlerChrysler AG. Researchers determined that the safety risks of hydrogen as a vehicle fuel compare favorably with other vehicle fuels such as gasoline, propane and natural gas. Studies also show that hydrogen can be cost-competitive with gasoline on a cost-per-mile-driven basis if generated by small, factory-built steam reformer or electrolyzer appliances capable of supporting up to 100 vehicles. These small appliances would avoid a large-scale capital investment in the short run and offer flexibility in the size and location of refueling stations.

6/6/1999  Ford Advances Its P2000 Research Program with Hybrid, Fuel Cell and SUV Advances - Ford

The fuel cell P2000 car is designed to achieve the performance of today's Ford Taurus, which goes from 0 to 60 mph in 12 seconds. The fuel cell stack, powered by Proton Exchange Membrane (PEM) fuel cells made by Ballard Power Systems, and electric drivetrain are targeted to achieve the equivalent of 90 horsepower.

6/8/1999  GenCorp Aerojet Reusable Rocket Engine Preburners Excel in Tests - Aerojet

GenCorp Aerojet last week successfully tested fuel- and oxidizer-rich preburners as the first step in the development of a highly reusable rocket engine for future U.S. Air Force applications. The key feature of Aerojet's preburners is that they generate both fuel-rich (gaseous hydrogen) and oxidizer-rich (gaseous oxygen) turbine drive fluids to power the engine's turbopumps. Dividing the work between two turbines significantly reduces the turbine inlet temperature. And using the entire propellant flow as the turbine drive fluid provides cooler drive gases that substantially reduce wear and tear on the turbines, which is vital for reusable engines.

6/7/1999  Government of Canada Invests in Stuart Energy System's Personal Fuel Cell Appliance Program

Toronto, Canada -- Stuart Energy announces an investment of $2.5 million by Technology Earlt Action Measures/Climate Change Action Fund (TEAM/CCAF) and Natural Resources Canada in its Personal Fuel Appliance Program. ...Current research and development commitments for the Personal Fuel Appliance project total $4 million.  "We appreciate the investment by the Climate Change Action Fund and Natural Resources Canada in this exciting project," said Andrew Stuart, President and acting CEO of Stuart Energy Systems Inc.  "The Phase One Project will both further the development of the Personal Fuel Appliance and allow the major automotive companies to evaluate the Stuart products...."

5/27/1999  BPA to Install High-Tech Fuel Cell Generators in Northwest Homes - PRNewswire

The Bonneville Power Administration today announced it has signed a contract to purchase 110 fuel cells from Northwest Power Systems (NPS) of   Bend. If testing of the new technology is successful, the region will lead a high-tech revolution in the electric power industry. ...The power units are 85-percent efficient when waste heat is recovered for space and water heating. Conventional generators are less than 35 percent efficient in the use of fuel. The cost of producing the beta units is about $30,000 each, but Guggenheim expects that the price will drop to under $10,000 per unit when they become commercially available in the year 2002.

5/26/1999  Nova BUS Displays Two High-Tech Vehicles at UITP Congress - Business Wire

Nova BUS is proud to exhibit two high technology buses during the International Union of Public Transport's (UITP) 53rd Congress which is held in Toronto from May 23rd to the 28th, 1999. The two vehicles will be on display outside the Metro Toronto Convention Center. These high-tech buses are an experimental electric fuel cell bus, using liquid methanol to generate electricity, and a Nova LNG bus, powered by liquid natural gas. ...In conceiving this first commercially viable, liquid-fuelled, fuel cell powered bus, Nova BUS and its partners, Georgetown University, Lockheed Martin Control Systems, Booz Allen & Hamilton and International Fuel Cells, were looking to develop a vehicle powered exclusively by electricity. This 40-foot electric bus, mounted on a Nova BUS RTS wide front door model, uses a 100 kW phosphoric acid fuel cell as the primary energy source, traction batteries provide surge power and a means to recover braking energy by regeneration. ...The bus is very quiet and has a range in excess of 560 km between refuelling. ...Lockheed Martin Control Systems developed the electric drive train while International Fuel Cells supplies the phosphoric acid fuel cells. Booz Allen & Hamilton is the system integrator and developer of the vehicle system controller.

5/18/1999  H Power launches the E(pac^TM) 250, a New Residental Backup Power System - Canadian Newswire

The E(pacTM) 500 provides an independent source of electricity that most hydrocarbon-based heating systems can use during an electrical power failure. It can also supply energy to run, one at a time, appliances such as refrigerators, freezers, TVs, lights, or sump pumps. The new E(pacTM) 250 was developed especially to facilitate expansion into the European market, where heating systems function mainly with hot water circulation. ...In addition to hydrogen, the residential fuel cell systems can operate with other fuels, including natural gas, propane, or methanol.

5/13/99 [DCH Technology] WallStreetCorner.com to Cover the Emerging Hydrogen Industry - DCH Technology/Business Wire

"In addition to our recent successes with our fuel cells, a Fortune 100 manufacturer of power systems has plans to expand the use of hydrogen sensors on new power transformers, and to retrofit transformers already in use on the electrical grid. DCH sensors are now being configured for the monitoring of nuclear waste containers. Hydrogen in the waste containers must be monitored to avoid storage risk." Added Haberman, "We're developing small fuel cells for boats, motor bikes, and rechargeable batteries for high demand consumer electronics. We are excited by accelerated demand that is now occurring, and for the apparent acceptance of this new technology."

5/13/1999  Nissan Unveils Environmentally Friendly Fuel Cell Vehicle - Canadian Newswire

Nissan disclosed it has already begun driving tests and hopes to have models ready for mass production and retail sale between 2003 and 2005. The test vehicle unveiled today uses a fuel cell bought from Ballard Power Systems of Canada. [The vehicle] is equipped with a methanol reformer and air compressor developed by Nissan in partnership with other Japanese companies. Unlike prototypes produced by rival automakers, Nissan's fuel-cell vehicle incorporates an electric traction motor and a regenerative charging system. This allows the brakes to generate additional power that can recharge the vehicle's lithium-ion batteries.

5/10/1999  Praxair Expands Texas Gasification Plant - Praxair/Business Wire

Praxair, Inc. today announced completion of a 20 percent expansion of its Texas City, Texas gasification plant. The plant supplies carbon monoxide, hydrogen and synthesis gas to nearby Sterling Chemicals Inc. acetic acid and oxo-alcohols units and hydrogen to Praxair's Gulf Coast hydrogen pipeline network. ...The expanded facility now produces 40 million cubic feet (1.2 million cubic meters) per day of hydrogen, and 24 million cubic feet (720,000 cubic meters) per day of carbon monoxide, as well as synthesis gas (a blend of hydrogen and carbon monoxide) and steam. ...the facility uses a proprietary high-temperature process to partially oxidize natural gas into a syngas mixture of hydrogen, carbon monoxide and carbon dioxide, which are ingredients used in the chemical industry.

5/7/1999  Ballard Says it's Powering Ahead Despite Loss - Reuters

Company officials said they are unaware of any technological breakthroughs by rivals in the potentially lucrative industry, but are monitoring a new pact between Delphi Automotive Systems Corp and German automaker BMW .

5/7/1999  Ballard Power Systems Reports 1999 First Quarter Results - Ballard Power/Business Wire

Although fuel cell cars dominated the news in the quarter, interest in fuel cells for electric power generation continued to grow. Distributed (decentralized) generation of electricity is gaining recognition as a clean and efficient alternative for needed capacity additions, and as a source of reliable electricity for powering sensitive or uninterruptable electronic, computer and medical equipment. Reflecting this growing recognition in the United States, a White House legislative proposal to deregulate the electric power industry included tax benefits for distributed power installations. Ballard's fuel cell stationary power business will provide a critical enabling product targeted at important parts of the emerging distributed power generation market.

5/6/1999 DCH Technology Doubling Its Hydrogen Sensor Manufacturing Capacity - DCH Technology/Business Wire

The use of the Robust Hydrogen Sensor in several different safety applications is driving this expansion. DCH has received an influx of orders as a result of the successful installation and qualification of their Robust Hydrogen Sensors, and environmental monitors for use in a nuclear reactor power-plant upgrade in Russia. Additionally, there has been an overwhelming demand by automotive and truck customers for gas sensors to be installed in alternatively fueled vehicles and fueling stations.

5/3/1999  Praxair Announces Price Increase - Praxair/Business Wire

"Demand for liquid hydrogen by our commercial customers is near historical highs," said Ricardo Malfitano, president, Praxair North American industrial gases. ...During the 1990s, Praxair has invested more than $1 billion in the U.S. to build, upgrade and maintain its supply capabilities. As an example, Praxair has nearly tripled its liquid hydrogen capacity since 1990 and today operates four liquid hydrogen plants, located in East Chicago, Ind.; McIntosh, Ala.; Niagara Falls, N.Y.; and Ontario, Calif.

Corporate Press Releases May and June 1999
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