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    An entrepreneur in Ivory Coast has developed a project to establish a network of Miscanthus giganteus farms aimed at producing biomass for use in power generation. In a first phase, the goal is to grow the crop on 200 hectares, after which expansion will start. The project is in an advanced stage, but the entrepreneur still seeks partners and investors. The plantation is to be located in an agro-ecological zone qualified as highly suitable for the grass species. Contact us - March 3, 2007.

    A 7.1MW biomass power plant to be built on the Haiwaiian island of Kaua‘i has received approval from the local Planning Commission. The plant, owned and operated by Green Energy Hawaii, will use albizia trees, a hardy species that grows in poor soil on rainfall alone. The renewable power plant will meet 10 percent of the island's energy needs. Kauai World - February 27, 2007.

    Tasmania's first specialty biodiesel plant has been approved, to start operating as early as July. The Macquarie Oil Company will spend half a million dollars on a specially designed facility in Cressy, in Tasmania's Northern Midlands. The plant will produce more than five million litres of fuel each year for the transport and marine industries. A unique blend of feed stock, including poppy seed, is expected to make it more viable than most operations. ABC Rural - February 25, 2007.

    The 16th European Biomass Conference & Exhibition - From Research to Industry and Markets - will be held from 2nd to 6th June 2008, at the Convention and Exhibition Centre of FeriaValencia, Spain. Early bird fee registration ends 18th April 2008. European Biomass Conference & Exhibition - February 22, 2007.

    'Obesity Facts' – a new multidisciplinary journal for research and therapy published by Karger – was launched today as the official journal of the European Association for the Study of Obesity. The journal publishes articles covering all aspects of obesity, in particular epidemiology, etiology and pathogenesis, treatment, and the prevention of adiposity. As obesity is related to many disease processes, the journal is also dedicated to all topics pertaining to comorbidity and covers psychological and sociocultural aspects as well as influences of nutrition and exercise on body weight. Obesity is one of the world's most pressing health issues, expected to affect 700 million people by 2015. AlphaGalileo - February 21, 2007.

    A bioethanol plant with a capacity of 150 thousand tons per annum is to be constructed in Kuybishev, in the Novosibirsk region. Construction is to begin in 2009 with investments into the project estimated at €200 million. A 'wet' method of production will be used to make, in addition to bioethanol, gluten, fodder yeast and carbon dioxide for industrial use. The complex was developed by the Solev consulting company. FIS: Siberia - February 19, 2007.

    Sarnia-Lambton lands a $15million federal grant for biofuel innovation at the Western Ontario Research and Development Park. The funds come on top of a $10 million provincial grant. The "Bioindustrial Innovation Centre" project competed successfully against 110 other proposals for new research money. London Free Press - February 18, 2007.

    An organisation that has established a large Pongamia pinnata plantation on barren land owned by small & marginal farmers in Andhra Pradesh, India is looking for a biogas and CHP consultant to help research the use of de-oiled cake for the production of biogas. The organisation plans to set up a biogas plant of 20,000 cubic meter capacity and wants to use it for power generation. Contact us - February 15, 2007.

    The Andersons, Inc. and Marathon Oil Corporation today jointly announced ethanol production has begun at their 110-million gallon ethanol plant located in Greenville, Ohio. Along with the 110 million gallons of ethanol, the plant annually will produce 350,000 tons of distillers dried grains, an animal feed ingredient. Marathon Oil - February 14, 2007.

    Austrian bioenergy group Cycleenergy acquired controlling interest in Greenpower Projektentwicklungs GmbH, expanding its biomass operational portfolio by 16 MW to a total of 22 MW. In the transaction Cycleenergy took over 51% of the company and thereby formed a joint venture with Porr Infrastruktur GmbH, a subsidiary of Austrian construction company Porr AG. Greenpower operates two wood chip CHP facilities in Upper and Lower Austria, each with an electric capacity of 2 MW. The plants have been in operation since the middle of last year and consume more than 30,000 tonnes of wood chips and are expected to generate over €5 million in additional revenue. Cycleenergy - February 6, 2007.

    The 2008 edition of Bioenergy World Europe will take place in Verona, Italy, from 7 to 10 February. Gathering a broad range of international exhibitors covering gaseous, liquid and solid bioenergy, the event aims to offer participants the possibility of developing their business through meetings with professionals, thematic study tours and an international forum focusing on market and regulatory issues, as well as industry expertise. Bioenergy World Europe - February 5, 2007.

    The World GTL Summit will take place between 12 – 14th May 2008 in London. Key topics to be discussed include: the true value of Gas-to-Liquids (GTL) projects, well-to-wheels analyses of the GTL value chain; construction, logistics and procurement challenges; the future for small-scale Fischer-Tropsch (FT) projects; Technology, economics, politics and logistics of Coal-to-Liquids (CTL); latest Biomass-to-Liquids (BTL) commercialisation initiatives. CWC Exhibitions - February 4, 2007.

    The 4th Annual Brussels Climate Change Conference is announced for 26 - 27 February 2008. This joint CEPS/Epsilon conference will explore the key issues for a post-Kyoto agreement on climate change. The conference focuses on EU and global issues relating to global warming, and in particular looks at the following issues: - Post-2012 after Bali and before the Hokkaido G8 summit; Progress of EU integrated energy and climate package, burden-sharing renewables and technology; EU Emissions Trading Review with a focus on investment; Transport Climatepolicy.eu - January 28, 2007.

    Japan's Marubeni Corp. plans to begin importing a bioethanol compound from Brazil for use in biogasoline sold by petroleum wholesalers in Japan. The trading firm will import ETBE, which is synthesized from petroleum products and ethanol derived from sugar cane. The compound will be purchased from Brazilian petrochemical company Companhia Petroquimica do Sul and in February, Marubeni will supply 6,500 kilolitres of the ETBE, worth around US$7 million, to a biogasoline group made up of petroleum wholesalers. Wholesalers have been introducing biofuels since last April by mixing 7 per cent ETBE into gasoline. Plans call for 840 million liters of ETBE to be procured annually from domestic and foreign suppliers by 2010. Trading Markets - January 24, 2007.

    Toyota Tsusho Corp., Ohta Oil Mill Co. and Toyota Chemical Engineering Co., say it and two other firms have jointly developed a technology to produce biodiesel fuel at lower cost. Biodiesel is made by blending methanol into plant-derived oil. The new technology requires smaller amounts of methanol and alkali catalysts than conventional technologies. In addition, the new technology makes water removal facilities unnecessary. JCN Network - January 22, 2007.

    Finland's Metso Paper and SWISS COMBI - W. Kunz dryTec A.G. have entered a licence agreement for the SWISS COMBI belt dryer KUVO, which allows biomass to be dried in a low temperature environment and at high capacity, both for pulp & paper and bioenergy applications. Kauppalehti - January 22, 2007.

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Saturday, March 01, 2008

Alstom, EPRI, We Energies to pilot chilled ammonia process to capture CO2

The first pilot project that uses chilled ammonia to capture carbon dioxide (CO2) from coal-fueled power plants is expected to commence operation this week, according to an announcement from Alstom, the Electric Power Research Institute (EPRI) and We Energies. Biopact tracks developments in carbon capture and storage (CCS) technologyies, because they can be applied to biomass fuels, in which case radical "negative emissions" can be obtained.

The chilled ammonia process developed by Alstom is one of several options to capture CO2. Three basic approaches exist: capturing the greenhouse gas before the fuel is combusted (pre-combustion capture), during it being burned in a stream of oxygen (oxyfuel combustion) or after combustion, when the CO2 is separated from the flue gas (post-combustion capture) (schematic, click to enlarge).

When either of these technologies are applied to power plants that burn renewable biofuels, the most radical tool in the climate fight emerges: cabon-negative energy. Renewable biomass captures CO2 from the atmosphere; if the CO2 released during the combustion of the fuel is not captured, and returned to the atmosphere, the classic "carbon neutral" cycle so typical of renewables is the result. But when the CO2 is instead captured and stored, "negative emissions" can be obtained. That is: energy which actively removes CO2 from the atmosphere.

Only bioenergy based energy systems are capable of generating negative emissions. The difference between bio-energy with carbon storage and other renewables is therefor radical: whereas wind, solar or hydropower are slightly carbon-positive over their lifecycle - adding around 20 to 100 tons of CO2eq per GWh of electricity generated - bio-energy with carbon storage can remove up to 1000 tons from the atmosphere. As such, according to scientists from the Abrupt Climate Change Strategy group, these systems can reverse climate change by mid-century if implemented on a wide enough scale.

Alstom, which has been retrofitting and transforming coal-fired power plants to co-fire or solely burn biomass, has recently begun to refer to these carbon-negative bioenergy systems (e.g. in this presentation), an indication that the concept's revolutionary potential is gradually being recognized (many other of the key players have hinted at negative emissions systems; Aker Kvaerner already has a dedicated capture technology for biomass, called Just Catch Bio - more here and here). Add that in the medium to longer term, biomass is expected by the European Commission to become cheaper than coal, and the prospect of negative emissions energy becomes highly likely.

The chilled ammonia system uses a CO2 absorber similar to SO2 absorbers and is designed to operate with slurry. The cooled flue gas flows upwards in counter current to the slurry containing a mix of dissolved and suspended ammonium carbonate and ammonium bicarbonate. More than 90% of the CO2 from the flue gas is captured in the absorber. The remaining low concentration of ammonia in the clean flue gas is captured by cold-water wash and returned to the absorber. The clean flue gas, which now contains mainly nitrogen, excess oxygen and low concentration of CO2, flows to the stack (schematic, click to enlarge).

The chilled ammonia process is one of the more promising post-combustion capture technologies because it can be fitted to existing power plants, both biomass, coal and natural gas combined cycle facilities.

Alstom designed, constructed and will now operate its 1.7-megawatt pilot system that captures CO2 from a portion of coal-fired boiler flue gas at We Energies’ Pleasant Prairie Power Plant, a 1,210-megawatt coal-fired generating station. The trial should begin operations the first week of March:
:: :: :: :: :: :: :: :: :: :: ::

In laboratory testing it has demonstrated the potential to capture more than 90 percent of CO2 at a cost that is far less than other carbon capture technologies. Once captured, the CO2 can be used commercially or sequestered in suitable underground geologic sites.
This pilot is a significant milestone in our ongoing partnership with We Energies and EPRI. We Energies' operational expertise and EPRI's financial and research collaboration support are perfect complements to Alstom's leadership in CO2 capture research and development. This plant will provide invaluable information in leading to commercialization of CO2 capture technology. - Jean-Michel Aubertin, Senior Vice President of Alstom's Energy and Environment Systems Group
The demonstration project will provide the opportunity to test the process on a larger scale and to evaluate its potential to remove CO2 while reducing the energy used in the process.

EPRI will conduct an engineering and environmental performance and cost analysis during the project, which will last at least one year. Through EPRI’s collaborative research and development program, more than 30 organizations representing a large portion of the coal-fueled utilities in the United States have committed to support this project. EPRI will conduct an extensive evaluation of the system’s performance and support the development of technological and economic analyses associated with applying the carbon-capture process on a commercial scale, primarily to larger coal-fueled power plants.

Alstom is a global leader in the world of power generation and rail infrastructure and sets the benchmark for innovative and environmentally friendly technologies. Alstom builds the fastest train and the highest capacity automated metro in the world, and provides turnkey integrated power plant solutions and associated services for a wide variety of energy sources, including hydro, gas, coal and wind. About 25 percent of the world’s electricity produced is generated by Alstom technology. The Group employs 65,000 people in 70 countries, and had orders of euro 19 billion in 2006-07. The Pleasant Prairie facility is one of six ALSTOM pilot projects already under way in Germany, the U.S., Norway, Sweden and France. Other projects are being studied and will be announced later this year.

We Energies serves more than 1.1 million electric customers in Wisconsin and Michigan’s Upper Peninsula and more than 1 million natural gas customers in Wisconsin. Our energy prices are approximately 10 percent below the average for major U.S. cities. We Energies is the trade name of Wisconsin Electric Power Company and Wisconsin Gas LLC, the principal utility subsidiaries of Wisconsin Energy Corporation.

The Electric Power Research Institute (EPRI, ) conducts research and development on technology, operations and the environment for the global electric power sector. EPRI is an independent nonprofit organization. EPRI brings together members, the institute’s scientists and engineers, along with other stakeholders to meet the challenges facing the electric sector. EPRI supports multi-disciplined research. EPRI's members represent more than 90 percent of the electricity generated in the United States, and international participation includes 40 countries. EPRI has major offices and laboratories in Palo Alto, Calif.; Charlotte, N.C.; Knoxville, Tenn., and Lenox, Mass.


Alstom: Alstom together with its US partners EPRI and We Energies launches innovative project to capture CO2 using chilled ammonia - February 28, 2008.

Alstom: Clean Power Today: Pathways for utilization of fossil fuels in a low carbon world – Power Generation [*.pdf], October 2007.

H. Audus and P. Freund, "Climate Change Mitigation by Biomass Gasificiation Combined with CO2 Capture and Storage", IEA Greenhouse Gas R&D Programme.

James S. Rhodesa and David W. Keithb, "Engineering economic analysis of biomass IGCC with carbon capture and storage", Biomass and Bioenergy, Volume 29, Issue 6, December 2005, Pages 440-450.

Noim Uddin and Leonardo Barreto, "Biomass-fired cogeneration systems with CO2 capture and storage", Renewable Energy, Volume 32, Issue 6, May 2007, Pages 1006-1019, doi:10.1016/j.renene.2006.04.009

Christian Azar, Kristian Lindgren, Eric Larson and Kenneth Möllersten, "Carbon Capture and Storage From Fossil Fuels and Biomass – Costs and Potential Role in Stabilizing the Atmosphere", Climatic Change, Volume 74, Numbers 1-3 / January, 2006, DOI 10.1007/s10584-005-3484-7

Peter Read and Jonathan Lermit, "Bio-Energy with Carbon Storage (BECS): a Sequential Decision Approach to the threat of Abrupt Climate Change", Energy, Volume 30, Issue 14, November 2005, Pages 2654-2671.

Stefan Grönkvist, Kenneth Möllersten, Kim Pingoud, "Equal Opportunity for Biomass in Greenhouse Gas Accounting of CO2 Capture and Storage: A Step Towards More Cost-Effective Climate Change Mitigation Regimes", Mitigation and Adaptation Strategies for Global Change, Volume 11, Numbers 5-6 / September, 2006, DOI 10.1007/s11027-006-9034-9


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