Discovery in alternative energy production by Virginia Tech researchers may be breakthrough for fueling hydrogen vehicles
The method uses abundantly available corn stover - the stalks, cobs, and husks - to produce the hydrogen.
ALL-ENERGY 2015: ALL READY FOR YOU
In just four weeks' time All-Energy 2015, the UK's largest renewable energy exhibition and conference will open in its new home, Glasgow's SECC, with the expectation that up to 7,000 people from home and overseas will visit the exhibition, to make new contacts and source new suppliers, attend the multi-stream conference over the two days (Wednesday 6 - Thursday 7 May), and relish the networking possibilities of its Giant Networking Evening.
As California Faces Record Drought Levels, Wind Energy Provides A Vital Service
In 2014, wind energy saved 2.5 billion gallons of water in California by displacing water consumption at the state's fossil-fired power plants, playing a valuable role in alleviating the state's record drought. Wind energy's annual water savings work out to around 65 gallons per person in the state - or the equivalent of 20 billion bottles of water, according to the American Wind Energy Association (AWEA).
According to AWEA, one of wind energy's most overlooked benefits is that it requires virtually no water to produce electricity while almost all other electricity sources evaporate tremendous amounts of water.
In California - where the state is combating record drought levels - Gov. Jerry Brown recently signed an executive order to reduce household water consumption by 25%, from about 140 gallons per day per household to 105 gallons. Wind energy's water savings are, therefore, equivalent to what would be saved by nearly one week's worth of the required reductions for a typical household.
In 2008, U.S. thermal power plants withdrew 22 trillion to 62 trillion gallons of freshwater from rivers, lakes, streams and aquifers and consumed 1 trillion to 2 trillion gallons. By displacing generation from these conventional power plants, U.S. wind energy currently saves around 35 billion gallons of water per year - the equivalent of 120 gallons per person or 285 billion bottles of water.
CMT's first ever Japan Biomass Market in Tokyo Assesses Country's Ambitious Biomass Power Roadmap
As a raft of new biomass power projects are on the anvil, the inaugural Japan Biomass Power Market on 18-21 May, 2015 in Tokyo will be a noteworthy platform to showcase the business opportunities for biomass feedstock suppliers, traders, technology providers and much more.
Ballard Customer Demonstrates World's First Hydrogen Fuel Cell Tram
Vancouver, Canada and Qingdao, China - Ballard Power Systems (NASDAQ: BLDP; TSX: BLD) today announced that the world's first hydrogen fuel cell powered fixed rail electric tram was successfully demonstrated at a ceremonial event held in March at the head office, production and testing facility of CSR Qingdao Sifang Company (CSR Sifang), a Chinese rolling stock manufacturer based in Qingdao, Shandong province.
Toshiba Reinforces Initiatives Toward a Hydrogen Economy
-Opens Hydrogen Energy Research & Development Center at Fuchu Complex-
Retrofitting Buildings to Improve Energy Efficiency
Making a building more sustainable while completing the retrofit could attract more higher-paying tenants, which would cause a greater appreciation by the time the owners plan to sell. Properties with Energy Star certification have sold for 2-5% more than buildings without such certification.
4th Biobased World Asia Leads Dialogue on Biobased Chemicals and Bioplastics Applications
CMT's upcoming 4th Biobased World Asia, incorporating dual summits – 5th Biobased Chem Asia & 9th Bioplastics Market on 21-23 April, 2015 in Bangkok, aims to examine advances in both biobased chemicals and bioplastics business, feedstock, capital and technology challenges.
Osaka - The City of Green Technologies
The Environmental Governance approach of Osaka is exemplary for the developing Asian cities who are trying to balance development and sustainability.
RESEARCHERS DEVELOP NEW APPROACH THAT COMBINES BIOMASS CONVERSION, SOLAR ENERGY CONVERSION
Scientists have been working to harness the energy from
sunlight to drive chemical reactions to form fuels such as hydrogen, which
provide a way to store solar energy for future use.
RESEARCHERS DEVELOP NEW APPROACH THAT COMBINES BIOMASS CONVERSION, SOLAR ENERGY CONVERSION
In a study published March 9 in Nature Chemistry, University of Wisconsin-Madison chemistry Professor Kyoung-Shin Choi presents a new approach to combine solar energy conversion and biomass conversion, two important research areas for renewable energy.
For decades, scientists have been working to harness the energy from sunlight to drive chemical reactions to form fuels such as hydrogen, which provide a way to store solar energy for future use. Toward this end, many researchers have been working to develop functional, efficient and economical methods to split water into hydrogen, a clean fuel, and oxygen using photoelectrochemical solar cells (PECs). Although splitting water using an electrochemical cell requires an electrical energy input, a PEC can harness solar energy to drive the water-splitting reaction. A PEC requires a significantly reduced electrical energy input or no electrical energy at all.
In a typical hydrogen-producing PEC, water reduction at the cathode (producing hydrogen) is accompanied by water oxidation at the anode (producing oxygen). Although the purpose of the cell is not the production of oxygen, the anode reaction is necessary to complete the circuit.
Unfortunately, the rate of the water oxidation reaction is very slow, which limits the rate of the overall reaction and the efficiency of the solar-to-hydrogen conversion. Therefore, researchers are currently working to develop more efficient catalysts to facilitate the anode reaction.
Choi, along with postdoctoral researcher Hyun Gil Cha, chose to take a completely new approach to solve this problem. They developed a novel PEC setup with a new anode reaction. This anode reaction requires less energy and is faster than water oxidation while producing an industrially important chemical product. The anode reaction they employed in their study is the oxidation of 5-hydroxymethylfurfural (HMF) to 2,5-furandicarboxylic acid (FDCA). HMF is a key intermediate in biomass conversion that can be derived from cellulose - a type of cheap and abundant plant matter. FDCA is an important molecule for the production of polymers.
Fife Geothermal welcomes today's £250,000 Energy Challenge Fund announcement
Further to today's Scottish Government launch of a £250,000 Geothermal Energy Challenge Fund
Biogas Plant in South Africa before commissioning
Last year, Beckedorf BioEnergy GmbH won the contract to deliver the design and key components for the construction of a biogas plant at the fruit juice factory of Elgin Fruit Juices, Pty., Ltd. in Grabouw, Western Cape.
The Geothermal Resources Council Announces 2015 Amateur Photo Contest
The 36th Amateur Photo Contest winners will be announced at the GRC Annual Meeting in Reno, Nevada, USA.
Nexus eWater Completes $2.1 Million Series A Funding Round
US-Australian company prepares for US market launch of disruptive product aimed at radically reducing California residential water, energy, and wastewater use
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Estimates US market opportunity to be $15 billion per year
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EVs and Fuel Cells - Featured Product
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