2009年2月28日土曜日

JSR Completes Construction of Mass-Production Plant for Producing Hydrocarbon Electrolyte Membranes

JSR has completed the construction of a mass-production plant for producing hydrocarbon electrolytic membranes for fuel cells at its factory site of Yokkaichi City in Mie Prefecture. The production capability of the plant is equivalent to the number of the hydrocarbon electrolytic membranes used by ten thousands to twenty thousands of motor vehicles per year. JSR has already operated the semi-commercial plant for producing the electrolyte membranes.
The mass-production plant has been constructed to meet the full-scale expansion of demand. The electrolyte membranes of JSR have been used for the fuel cell vehicles by an automobile manufacturer in Japan.
The company is scheduled to develop and manufacture hydrocarbon electrolyte membranes for stationary fuel cell systems such as residential fuel cell systems and mobile direct methanol fuel cells.
JSR’s Hydrocarbon Electrolyte Membrane
The JSR’s hydrocarbon electrolyte membrane is designed to have a concentration of ion-exchanging groups which is higher than that of the conventional electrolyte membrane. The result is an excellent proton conductivity. The hydrocarbon electrolyte membrane is designed by fully utilizing the features of the aromatic hydrocarbon structure allowing a high freedom of design.
The results are: high endurance, excellent gas shut-off property, and excellent high- and low-temperature characteristics. Further, the hydrocarbon electrolyte membrane is environment friendly. The hydrocarbon electrolyte membrane, unlike the conventional fluorine electrolyte membrane, is free from fluorine compounds, which are produced in the catalyst recovery process and waste disposal. JSR is developing a new electrolyte membrane, which has long-time stable power generation performance, and is durable against load variations as in the start and stop operations.
Electrolyte Membrane for Vehicle Fuel cells
JSR is developing a new hydrocarbon electrolyte membrane in cooperation with an automobile manufacturer in Japan. In the fuel cell system using the hydrocarbon electrolyte membrane developed by us, high temperature operation, and low temperature start-up have successfully been realized. The power generation temperature region is considerably increased (-30 to 95 degrees of centigrade). It is noted that the JSR’s electrolyte membranes have been used by the vehicle fuel cells where the electrolyte membranes are inevitably placed in extremely harsh conditions. JSR is making efforts to further improvement of the endurance.
Electrolyte Membrane for Stationary Fuel Cell Systems
A hydrocarbon electrolyte membrane for use with residential fuel cell systems has been developed. The development has been made with efforts to make the most of advantageous features of the hydrocarbon electrolyte membrane for automobiles, including good durability, high temperature being usable, good recycability in the catalyst recovery stage.
Electrolyte Membrane for Mobile DMFC
JSR has developed a hydrocarbon electrolyte membrane for DMFC applications.
The balance between the output characteristic and the methanol permeability has been significantly improved. In the previous electrolyte membrane and electrode electrolyte (binder for fixing the catalyst layer), when methanol of high concentration is used in order to increase the output power of the DMFC, the methanol crossover inevitably occurs and the electrode electrolyte inevitably dissolves, leading to degradation of the power generation capability of the fuel cell. The electrolyte membrane developed and offered by JSR enables a designer to use high concentration methanol and to increase the output power of the fuel cell.
* This article is excerpted from JSR's press release.
Keywords: hydrocarbon electrolyte membranes, mass-production plant, uel cell vehicles, high ion-exchanging group concentration, aromatic hydrocarbon structure, high endurance, gas shut-off property, high- and low-temperature characteristics

2009年2月24日火曜日

Sumitomo Corporation Invests in ACAL Energy


ACAL Energy Ltd. has today announced an investment from Sumitomo Corporation, a leading Japanese trading company with substantial business activities in energy, mineral and merchandise trading, through its investment arm SC Green Tech Ventures LLC. The investment is in addition to the previously announced £3.3M fundraising round completed at the beginning of December, led by Carbon Trust Investments and Solvay SA. All funds raised will be used to take the company to the next stage of development of their ground breaking low cost fuel cell systems, based on novel platinum-free cathode technology (FlowCath®).

Fuel cells are a highly efficient and clean energy production technology capable of replacing combustion engines in a wide variety of applications including remote and distributed power, residential cogeneration, as well as automotive and mobile power applications. FlowCath® replaces the expensive precious metal catalyst found in conventional fuel cells with a proprietary low cost liquid catalyst. This not only reduces the cost of the fuel cell, but also provides significant durability and reliability benefits through system simplification, and the elimination of the most common failure mechanisms found in standard fuel cells. The company plans to introduce a 1kW demonstration system in 2009.

Chief Executive Officer, Dr SB Cha said: “We are very fortunate to have an investment from Sumitomo Corporation in this very difficult business environment. We look forward to working with Sumitomo Corporation to deliver ACAL products to the Japanese and other Asian markets in the near future. Sumitomo Corporation is the second blue-chip Japanese company to invest in ACAL and since the Japanese Cleantech market is arguably the most advanced in the world, we view the investment as a very strong endorsement of our technology and market potential.”

ACAL Energy Limited
ACAL Energy is a developer of a new fuel cell technology that will enable low cost and highly reliable fuel cell systems for stationary and remote power, home cogeneration, and automotive and mobile applications. Fuel cells are a highly efficient and clean energy production technology capable of replacing combustion engines in a wide variety of applications including remote and distributed power, residential cogeneration as well as automotive and mobile power applications. FlowCath® replaces expensive precious metal catalyst found in conventional fuel cells with a proprietary low cost liquid catalyst. This not only reduces the cost of the fuel cell but also provides significant durability and reliability benefits through system simplification and the elimination of the most common failure mechanisms found in standard fuel cells. The company was founded in August 2004 by FlowCath® inventor Dr Andrew Creeth and is headquartered in Runcorn, UK.

ACAL Energy is currently funded by CT Investment Partners LLP, Rising Stars Growth Fund (RSGF), NorthStar Equity Investors Ltd., Porton Capital Ltd., Synergis Technologies Ltd., Solvay SA and a major Japanese corporate investor.

For further information, please contact Amanda Lyne at ACAL Energy:
Tel: +44 (0)1928 51581
E-mail: alyne@acalenergy.co.uk
URL: www.acalenergy.co.uk

Tokyo Gas Successfully Develops High Performance catalyst for Fuel Processor

Tokyo Gas has successfully developed a high performance catalyst, and drastically improved a fuel process (for reforming natural gas into hydrogen) by using the new catalyst.
The company has a plan to incorporate the new fuel processor into a next generation ENEFARM (residential fuel cell cogenerator).
The new fuel processor is about 2/3 in volume, and almost halved in manufacturing cost when compared with the previous fuel processor).
Those advantages result from significant simplification of the fuel processor structure and use of the new catalyst.
[Copyright by FuelCell japan]

Significant Simplification of Processor Structure
The structure of the previous fuel processor is complicated to improve the reforming efficiency. To cope with this, the company reduces the number of necessary parts to 1/3, and the total welding line length by 40% (when compared with those of the previous one). The reforming efficiency of the new fuel processor is equal to that of the previous one.
Developed High Performance Catalyst
As known, the fuel processor uses a catalyst for promoting the reforming reaction.
To secure required performances, the old fuel processor needs much catalyst.
This results in the large volume of the fuel processor.
Where the new catalyst developed this time was used, the amount of catalyst required for the reforming was reduced by 30% to 50%. This results in considerable reduction of the processor volume and size, and the manufacturing cost.
Tokyo Gas’s Fuel Processor
Tokyo Gas has developed the fuel processor as well as the fuel cell.
October, 2000 – developed a 1-kW fuel processor of 83% (HHV)
November, 2003 – processor structure was redesigned, the reforming efficiency was improved in low output condition, and the weight was halved.
The company has licensed the result of developed technologies to Ebara-Ballard.
An excellent environmentality of the fuel processor was proved in the large-scale demonstration test project of residential fuel cell cogenerators (started from 2005).
The fuel processor technologies developed this time will be licensed to Ebara-Ballard and others.
The Tokyo Gas's next-generation ENEFARM will be launched in the first half of 2010. The new ENEFARM will be featured by size reduction and reduced price.

Press Release = http://www.tokyo-gas.co.jp/Press/20090223-03.html

2009年2月21日土曜日

NexTech Materials Introduces Revolutionary Hydrogen Safety Sensor


NexTech Materials is pleased to announce the launch of its new hydrogen sensor. Designed for hydrogen safety monitoring, this ceramic sensor exhibits a highly sensitive, selective, and rapid response to the presence of hydrogen in ambient air. Prototype sensors have been delivered to strategic partners for validation testing of this revolutionary device. NexTech will begin filling production orders in the fourth quarter of this year.

The NexTech sensor features a compact, rugged design and waterproof connector, and employs a revolutionary chemi-resistive ceramic sensing technology for very reliable hydrogen detection. It accurately measures hydrogen concentrations over a wide range of temperature and humidity variation and provides a repeatable response, even in the presence of other combustible gases. Additionally, the NexTech Hydrogen Sensor is immune to signal saturation upon continuous exposure to low levels of hydrogen, and recovers rapidly and completely upon hydrogen removal, enabling safe generation, distribution, and utilization of hydrogen in wide range of advanced energy and traditional applications.

Field testing of beta prototype sensors is in progress with two companies, both of which are commercializing devices utilizing PEM fuel cells as battery replacements. Target markets include stationary and mobile fuel cell applications, distributed hydrogen generation systems, lead acid battery monitoring, semiconductor fabrication, and many other industrial users of hydrogen gas.

About NexTech Materials
NexTech’s vision is to be a global leader in the development and manufacturing of innovative products for energy and environmental markets. NexTech is a leading developer and supplier of materials, components and services for the fuel cell industry and is dedicated to reducing the manufacturing and operating costs of fuel cells and other electrochemical devices. NexTech’s customers are located in over 35 countries and include leading researchers, developers and manufacturers throughout the world. NexTech Materials, Ltd. was founded as a privately held company in 1994 and has grown into one of Ohio’s leading technology companies. NexTech recently expanded its manufacturing and R&D facilities located in Lewis Center Ohio. NexTech has many products in the pipeline including fuel cell stacks for military and residential power applications, sensors for gas detection and control systems, catalysts for energy conversion systems, and membranes for gas separation devices. For more information, please visit our web site www.nextechmaterials.com.

Contact:
Mr. Tad Dritz
t.dritz@nextechmaterials.com
(614) 842-6606, extension 110
NexTech Materials, Ltd.
404 Enterprise Drive
Lewis Center, OH 43035

2009年2月18日水曜日

Morphic’s Small-scale Wind Turbine in Live Tests


Morphic’s new small-scale wind turbine, SWT20, will now be tested in the toughest possible conditions at the southern end of the island of Öland off the coast of Sweden. The robust 20 kW turbine has been developed for telecom base stations, farms and other demanding applications where reliability and long service intervals are crucial factors. Thanks to Morphic’s advanced blade technology, the turbine is extremely silent and can therefore be used even in built-up areas. During this week SWT20 will also be presented at the World Mobile Congress in Barcelona, one for the world’s largest telecom expos.

One of our time’s biggest challenges is to meet the need for secure electricity and to do so using renewable sources of energy. This applies equally to the industrialized world and developing countries. There, some 1.6 billion people currently live without electricity and another 1 billion live in areas with uncertain access to electricity.
Morphic’s new small wind turbine, SWT20, has been developed for demanding applications in areas where access to electricity is uncertain, such as telecom base stations or farms, hotels and other small businesses. Here wind power can be used as sole source of energy or as a complement to a diesel generator.

SWT20 is the second generation of small-scale wind turbines developed by Morphic. The first SWT20 to be installed has been operating outside Morphic’s head office in Karlskoga since late 2008.

This week another turbine was raised at an organic farm on southern Öland, for testing in the toughest possible wind conditions. Further wind power contracts are in the pipeline.

SWT20 has been designed for a useful life of 25 years with five-year service intervals. It has duplicate security systems and can be controlled remotely, guaranteeing secure operation and control. The turbine has a direct-drive generator and no gearbox, a component which often causes problems. The blades are made from carbon fiber and have been designed to move through the wind almost noiselessly. SWT20 can be mounted on a tower or mast and can supplement an already existing telecom mast. It has been developed according to the IEC 61400 standard (wind class 2).
For more information, please visit here.

This is Morphic:
Morphic is a Swedish engineering group operating in the areas of fuels cells, wind power, fuel cell energy systems and engineering technology. The Group has about 230 employees and conducts operations in six countries – Sweden, Norway, Japan, Greece, Italy and Switzerland. Morphic Technologies’ B shares have been listed on the OMX Nordic Exchange since March 4, 2008, and the number of shareholders is about 28,800.

2009年2月14日土曜日

Further Advanced Micro SOFC Module

Features:
* Operates within a range from 450 to 550 deg. of centigrade
* 1 cm3 (size)
* Natural dispersion of air employed for air supply
* Quick start and stop performance is secured
* 2W/cm3 (power generation density) at 550 deg. of centigrade

If you want to read more, please feel free to contact us at:
http://www.fcpat-japan.com/AboutUs.htm
We don't accept free-mail addresses.
free-mail addresses はご遠慮ください。

nano tech 2009 International Nanotechnology Exhibition & Conference



The world’s largest Nano-technology Exhibition & Conference will be held on
February 18 to 20, 2009, at Tokyo Big Site. The number of exhibitors will exceed 50,000. You can meet the cutting-edge technologies and products in those fields.
No admission fee is required if you register in advance at the web site.

Date&Time:
February 18(Wed.) - 20(Fri.), 2009, 10:00 - 17:00
Venue:
East Exhibition Hall 3,4,5,6 & Conference Tower, Tokyo Big Sight, Japan
Organized by: nano tech executive committee
Secretary General:
Mr.Takahiro Matsui, Executive Officer, ICS Convention Design, Inc.
Supported by: Cabinet Office Government of Japan
Ministry of Internal Affairs and Communications
Ministry of Education, Culture, Sports, Science & Technology
Ministry of Agriculture, Forestry and Fisheries
Ministry of Economy, Trade & Industry
Embassy of the United States of America
The Australian Embassy
British Embassy Trade & Investment Department
Embassy of the Kingdom of Belgium
Embassy of Canada
Embassy of France - Economic Department
Finnish Funding Agency for Technology and Innovation (Tekes)
Embassy of the Federal Republic of Germany
Embassy of Islamic Republic of Iran in Tokyo
Italian Trade Commission
Embassy of the Republic of Korea
The Netherlands Embassy
Embassy of Spain - Econimic and Commercial Office
Embassy of Switzerland
National Institute of Information and Communications Technology
National Institute for Materials Science
RIKEN
Japan Science and Technology Agency
National Institute of Advanced Industrial Science and Technology
New Energy and Industrial Technology Development Organization
Japan External Trade Organization
National Institute for Environmental Studies
The Federation of Economic Organizations
Nanotechnology Business Creation Initiative
In cooperation with: The Japan Society of Applied Physics, The Society of Polymer Science, Japan, The Chemical Society of Japan
Size of Exhibition: 603 Companies, 909 Booths
Expected number of visitors: 50,000
Admission fee: 3,000 Japanese Yen(Free admission with online registration)
Concurrent Exhibition:
Nano Bio Expo 2009
ASTEC2009
METEC'09
neo functional material 2009
Convertech JAPAN 2009
PRINTABLE ELECTRONICS 2009

2009年2月12日木曜日

My Eye-Catching News 2-2

1: Fujikura Ltd. revealed a methanol fuel cell having a remarkably improved power generation density. The power generation density is about 5 times of the conventional methanol fuel cell. The output power of the fuel cell is 8 times (20 watts) of the conventional fuel cell.
[THE NIKKAN KOGYO SHIMBUN, LTD.]

2: Pony Electric Co., Ltd has developed a new power converter designed in use for fuel cells.
Unique features:
1) A novel and creative soft switching technology is used.
2) The energy loss is reduced by 20 percents when compared with that of the conventional converter.
The new technology based prototype converter is under performance evaluation.
[THE NIKKAN KOGYO SHIMBUN, LTD.]
Pony Electric Co., Ltd.:http://www.pony-e.jp/Corp.htm

3: Ultra Compact Gas-Liquid Separator for Heat Pump Systems
Most conventional gas-liquid separator is of the tubular type which utilizes gravity or centrifugal force. It is limited in its installation place because of its large volume.
The gas-liquid separator developed this time utilizes a surface tension, which is dominant when the thickness or the cross section diameter of the separator is small. With use of the surface tension, the volume of the gas-liquid separator is reduced to be 1/7 of the conventional tubular gas-liquid separator.
The fact shows that the gas-liquid separator will satisfy the demands of size-reduction, power- and cost-saving.
It is demonstratively proved that the gas-liquid separator is capable of separating gas and liquid even in the case of a mass flow of 100 g/s. Accordingly, it is allowed to design the gas-liquid separator in accordance with real machine conditions.
The gas-liquid separator has a structure suitable for mass production and its design is also suitable for mass production. It is expected that the gas-liquid separator is applied not only to refrigeration and air conditioning, but also to the heat-pump systems using the gas-liquid two-phase flow in various fields, including chemistry, food, medical science, automobile, and energy equipment.
[Copyright by FuelCell japan: http://www.fcpat-japan.com/]
[NEDO (New Energy and Industrial Technology Development Organization)]

2009年2月6日金曜日

Major City-Gas Companies and Oil Companies Jointly Issue a Statement on Start of ENEFARM Sales


Sale of residential fuel-cell cogeneration systems (ENEFARMs) will start in this year.
Four major city gas companies and two major oil companies, which will be distributors of ENEFARMs#1, issued a joint statement, including cooperation by the companies for the sale and spread of ENEFARMs, before actual start of ENEFARM sales.
A web site will be formed and co-used by those companies for the purposes of PR and sale promotion.
The web site is here.
#1: ENEFARM: see “news item No. 78 in News 2008-3


The price of the ENEFARM ranges from 3,000, 000 yen to 3,500,000 yen#2.
The government subsidy is the half of the price of a purchased ENEFARM (the upper limit of the subsidy is 1,400,000 yen).
The customer will save 50,000 yen to 60,000 yen per year in gas and electricity charges.
#2: 1 USD = about 90 yen.

The ENEFARM manufactured by Panasonic or Ebara-Ballard is exampled to provide easy understanding.
Power generation unit output = 300W to 1kW
Hot-water supply unit capacity = 200L
Retail price = 3,460,000 yen
Panasonic will start the sale of ENEFARM in May this year,
and Ebara-Ballard will start it in July.
In case where a purchaser receives a maximum of subsidy of 1,400,000 yen from the government, he/she must pay about 2,000,000 yen
With further technology development of the fuel cells and increase of the number of purchased ENEFARMs, the price will lower soon while depicting a sharply descending curve.

The ENEFARM is a next-generation clean energy generator having a mission to escape from the fossil-fuel field, and has attractive features that are not found in the conventional equipment.
Examples of them are:
1) CO2 emission is considerably reduced (about 40% or higher).
2) Overall energy efficiency is very high (70% or higher).
3) At least the necessary amounts of electricity and hot water are secured
even at the disaster area (if the primary fuel is LPG or petroleum and ENEFARM itself is not damaged).
4) No noisy sound is generated.
5) Others

We are now requested to tackle with the global warming issue.
The ENEFARM market is a virgin soil. And it is large even if it is limited to the domestic market. I hope that the number of purchased ENEFARMs will steeply increase.

Many sales approaches to sell ENEFARMs have actually started.
SECOM Co., Ltd., a major security service company in Japan, is plan to sell ENEFARMs. The rental-sales method is employed. The rental fee is about 20,000 yen/month. Asahi Kasei Homes Ltd. will sell single family houses combined with ENEFARMs.
ENEOS will build a new sales network for selling ENEFARMs on the basis of the established sales network for gasoline and LPG
Tokyo Gas has a plan to sell 42,000 ENEFARMs till 2013.
Incidentally, a target number of ENEFARMs to be sold in this year is about 5,000.
The Japanese government worked out a policy to list up environment products and parts and to impose no duty on them.
SwedenHouse Co., Ltd. launched a new model of single family house combined with a hybrid energy generator including an ENEFARM and a solar power generator.
HONDA seems to determine the development of a hybrid energy generator designed for home use, which is a combination of a residential FC cogenerator and a solar energy generator. The HONDA’s final target is to establish a distributed power supply system in which electricity and hydrogen, which are to be supplied to FCV and fuel cell energy generator, are both generated and stored in each home.
This article has been prepared on the basis of news reported by major medias in Japan.

2009年2月5日木曜日

ACAL Energy Announces Record Fuel Cell Power Levels


Platinum free cathode technology now performing at level of conventional fuel cells
ACAL Energy Ltd. has today announced the achievement of a significant technical milestone that should enable rapid commercialisation of its platinum free cathode technology (FlowCath(tm)) for proton exchange membrane (PEM) fuel cells. The Company has obtained peak power density figures from its development fuel cells that consistently exceed 570mW/cm2 since late December 2008. This performance represents a new record power density level from a liquid platinum free cathode system. ACAL Energy’s system is now performing at levels competitive with conventional fuel cells. Further improvements are expected in 2009, with an ultimate peak power density target of over 1W/cm2.

PEM fuel cells are a highly efficient and clean energy production technology, capable of replacing combustion engines in a wide variety of applications including remote and distributed power, residential cogeneration as well as automotive and mobile power applications. FlowCath(tm) replaces the expensive precious metal catalyst found in conventional fuel cells with a proprietary low cost liquid catalyst. This not only reduces the cost of the fuel cell, but also provides significant durability and reliability benefits through system simplification and the elimination of the most common failure mechanisms found in standard fuel cells. The company plans to introduce a 1kW demonstration system in 2009.

“This is a very significant achievement and clearly demonstrates that ACAL Energy’s liquid cathode technology will deliver performance that compares very well with conventional platinum fuel cells” comments Dr Sb Cha, Chief Executive of ACAL Energy, “… at much lower cost and improved reliability. I congratulate our technical team and Dr. Andy Creeth, our CTO, on this impressive achievement.”

For further information, please contact Amanda Lyne at ACAL Energy:
Tel: +44 (0)1928 511581
E-mail : alyne@acalenergy.co.uk
http://www.acalenergy.co.uk

About ACAL Energy Limited
ACAL Energy is a developer of a new fuel cell technology that will enable low cost and highly reliable fuel cell systems for a wide variety of applications. The company was founded in August 2004 by FlowCath(tm) inventor Dr Andrew Creeth and is headquartered in Runcorn, UK.
Fuel cells are a highly efficient and clean energy production technology capable of replacing combustion engines in applications including remote and distributed power and residential cogeneration, as well as automotive and mobile power applications. FlowCath(tm) replaces the expensive precious metal catalyst found in conventional fuel cells with a proprietary low cost liquid catalyst. This not only reduces the cost of the fuel cell, but also provides significant durability and reliability benefits through system simplification and the elimination of the most common failure mechanisms found in standard fuel cells.

Morphic: Exergy Fuel Cells wins major project grant “selection Industria 2015” with the project MICROGEN 30

Exergy Fuel Cells S.r.I, a subsidiary of Morphic Technology AB, in partnership with ICI Caldaie and several other Companies and Research Institutes has won the Italian “selection Industria 2015” with the project MICROGEN 30.
The value of the grant for Exergy is 1,960,000 EUR. The project MICROGEN30 met was ranked number 1 in the List drawn up by the Ministry of Economic Development.


INDUSTRIA 2015 is the plan for New Industrial Politics in Italy enacting the EU Directive 2006/32/EC of April 5th, 2006. Quoting the Directive: “European Community has the urge to improve energy efficiency. State Members will have to hit the target of energy saving of 9% within the 9th year from the application of the Directive, by applying any measure of energy management improvement and energy efficiency”.
In this frame, The Ministry of Economic Development by Industria 2015 will sustain economically the projects that aim to improve energy management, industrialization process of sustainable energy technologies and related R & D in a small – medium time range ( 2015 ).

The MICROGEN30 is a medium size CHP (Combined Heat and Power) energy system based on a PEM fuel cell for stationary application, in this case for residential units. The goal for the system is to generate 30 kW electricity and 50kW heat.
>> more

Morphic: Exergy Fuel Cells signs Letter 0f Intent for Supply of Fuel Cells for Recreation Vehicles

Exergy Fuel Cells, a subsidiary of Morphic Technologies AB, has entered into a cooperation with Narbonne Accessoires in Narbonne, France, and signed a Letter Of Intent regarding the exclusive distribution of the Exergy Fuel Cell power systems in the distribution network of Narbonne Accessoires in France and Spain.

Narbonne Accessoires is the leading distributor of accessories for Recreation Vehicles in France and Spain. Following the verification and approval of the products, Narbonne Accessoires will collaborate on the introduction of Exergy’s Fuel Cell systems with the following marketing activities:

- Install a display in each store to demonstrate the product and its technology
- Train its salesmen on fuel cell power advantages compared to traditional systems
- Deliver fuel cartridges in all stores, as available stock
- Communicate the Exergy brand in the Narbonne catalogue (400,000 copies) and inside French and Spanish press - Introduce the power system on Recreation Vehicles fairs in Paris (Le Bourget September 2009) and in Barcelona (October 2009)
>> more

Short about Exergy Fuel Cells
Exergy Fuel Cells develops and produces high performance and competitive PEM fuel cells of its own patented design, in a variety of versions and sizes. Several of the fuel cell products have left the prototype stage and are in series manufacturing. Exergy also offers fuel cell stacks and components to other fuel cell system developers. This makes Exergy Fuel Cells one of the companies with the widest product range in the industry, being prepared for large volume production.

2009年2月4日水曜日

Morphic Awarded Patent on Method for CO2 Capture and Liquid Fuel Production

Morphic has been granted a patent on a method and system for absorbing atmospheric carbon dioxide using wind turbines, and then combining the CO2 with water and excess electricity to produce liquid biofuels.
The technology for CO2 absorption has been verified in a laboratory environment, and the company is now looking for partnerships with a view to evaluating a potential commercialization of the concept.

Since 2004 Morphic has been conducting intensive research and development into energy conversion, covering processes as well as technical systems, with the aim of finding ways to convert and store renewable energy in various forms, and to adapt it for later use in fuel cells for a range of different applications.

The basic idea behind the patent is to absorb carbon dioxide using an enzyme, carbonic anhydrase, which is used to coat the blades of the wind turbine. The function is the same biochemical process that removes carbon dioxide from the blood in a human. An application for a patent on an “energy converter” for producing methanol from electricity, carbon dioxide and water was submitted as far back as 2004. The invention that has now been patented is a more advanced version of the same energy converter, where Morphic believes it has solved the problem of how to extract the CO2 from the air.
[Copyright by FuelCell japan: http://www.fcpat-japan.com/]
>> More