Energy News  
BIO FUEL
The exhaust gas from a power plant can be recovered and used as a raw reaction material
by Staff Writers
Nagoya, Japan (SPX) Jun 21, 2020

CO2 partial pressure in the desorber is lowered by the H2 supplied to the bottom of the desorber and the mass transfer of CO2 from a liquid phase (i.e., amine solution absorbing CO2) to a gas phase is accelerated, making the desorber temperature lower. The mixture of CO2 and H2 gases collected from the head of the desorber can be used as material for the CO2 reduction reaction. As illustrated in the figure, the process to fabricate petroleum-independent fuel or chemicals is made feasible by making use of H2 electrolyzed by renewables (e.g., solar energy) and CO2 included in exhaust gas from facilities such as power plants.

A research group at Nagoya University has developed a new technology that can drastically conserve the energy used to capture carbon dioxide (CO2), one of the greenhouse gases, from facilities such as thermal power plants.

Conventionally, a significant amount of energy (3 to 4 GJ/ton-CO2) or high temperatures exceeding 100 deg.C has been required to capture CO2 from gases exhausted from a concentrated source, and there are expectations of the development of CO2 capture technology that consumes less energy.

The research group led by Assistant Professor Hiroshi Machida has developed an unprecedented CO2 capture technology, namely H2 stripping regeneration technology(1), in which hydrogen (H2) gas is supplied to the regeneration tower (desorber)(2).

It is indicated in this research that, with the implementation of this new technology, combustion exhaust gas can be replaced by CO2/H2 gas at lower temperatures (85 deg.C) than those used in conventional technology. The further reduction of energy can be achieved when it is combined with technologies such as those involved in the promotion of exhaust heat utilization and recovery of reaction heat.

This new technology can exhibit the world's highest energy-saving performance (i.e., separation and collection of energy required is less than 1 GJ/ton-CO2 when a desorber temperature is 60 deg.C) when it is combined with the phase-separation solvent that this research group has also developed.

This technology is expected to be applicable to value-added material production such as the syntheses of methane, methanol, gasoline, etc., from CO2 in the combustion exhaust gas and H2 from renewable energy, and is expected to contribute to carbon recycling.

1) H2 stripping regeneration technology

In the conventional process to synthesize fuel or chemicals from CO2 and renewable H2, pure CO2 is collected and is then mixed with H2 before being supplied to the reduction reactor. In the H2 stripping regeneration technology, H2 gas is supplied at the bottom of the desorber. As a result, CO2 partial pressure in the desorber is lowered, which promotes regeneration and lowers the regeneration temperature. The mixture of CO2 and H2 gases collected from the head of the desorber is supplied directly to the synthesis reactor.

2) Regeneration tower (Desorber)

In the amine absorption method, CO2 absorption and regeneration towers (i.e., absorber and desorber) are used to separate and collect CO2 in the exhaust gas mixture from facilities like power plants. Gases such as N2 and O2, in addition to CO2, are included in the combustion exhaust gas from these facilities and pure CO2 gas is collected with this amine absorption method. Only the CO2 gas is absorbed in the absorber by amine solution, and it is then heated in the desorber to regenerate pure CO2 gas. In other words, only CO2 gas can be extracted from the mixture of gases.

This study has been supported by Advanced Low Carbon Technology Research and Development Program (ALCA ) of JST Strategic Basic Research Programs.

Research paper


Related Links
Japan Science And Technology Agency
Bio Fuel Technology and Application News


Thanks for being here;
We need your help. The SpaceDaily news network continues to grow but revenues have never been harder to maintain.

With the rise of Ad Blockers, and Facebook - our traditional revenue sources via quality network advertising continues to decline. And unlike so many other news sites, we don't have a paywall - with those annoying usernames and passwords.

Our news coverage takes time and effort to publish 365 days a year.

If you find our news sites informative and useful then please consider becoming a regular supporter or for now make a one off contribution.
SpaceDaily Contributor
$5 Billed Once


credit card or paypal
SpaceDaily Monthly Supporter
$5 Billed Monthly


paypal only


BIO FUEL
Efficient indium oxide catalysts designed for CO2 hydrogenation to methanol
Beijing (SPX) Jun 19, 2020
Catalytic hydrogenation of carbon dioxide (CO2) is a green and sustainable means of synthesizing commodity chemicals such as methanol. This conversion process is key to realizing the "methanol economy" or creating "liquid sunshine", both aspects of the circular economy. Recent studies revealed the potential for a family of metal oxides to catalyze this reaction. However, further optimizing their catalytic performance for industrial applications remained a great challenge, mostly due to the difficu ... read more

Comment using your Disqus, Facebook, Google or Twitter login.



Share this article via these popular social media networks
del.icio.usdel.icio.us DiggDigg RedditReddit GoogleGoogle

BIO FUEL
Vapor fix lifts up perovskite crystal performance

IEA floats 'green recovery' plan to boost economies, cut emissions

Nature provides roadmap to potential breakthroughs in solar energy technology

New method could simply print perovskite LEDs

BIO FUEL
Turkey dismisses France allegations of naval aggression

Russia says has removed fuel from river hit by Arctic spill

Aiming big: Ivory Coast's 'Dallas' pitches for African following

France condemns 'aggressive' act by Turkish navy

BIO FUEL
A world redrawn: Worry about climate not COVID, says James 'Gaia' Lovelock

Warmest May on record, Siberia 10C hotter

Reflecting sunlight to cool the planet will cause other global changes

Montreal breaks May temperature record as heatwave grips Canada

BIO FUEL
Engineers develop new fuel cells with twice the operating voltage as hydrogen

Researchers make next-generation, high-toughness battery component

A proven method for stabilizing efforts to bring fusion power to Earth

Researchers advance fuel cell technology

BIO FUEL
Efficient indium oxide catalysts designed for CO2 hydrogenation to methanol

Engineers find neat way to turn waste carbon dioxide into useful material

ETW Energietechnik supplies the biomethane upgrading technology for a 45 km biogas grid

Water vapor in the atmosphere may be prime renewable energy source

BIO FUEL
Self-driving bus services tested out in Tallinn

CMU method makes more data available for training self-driving cars

Scooters, e-bikes gain traction as virus lockdowns ease

Ex Audi exec nabbed in Croatia on 'dieselgate' warrant

BIO FUEL
Space synergies for food security

Tragic yarn: India-China border spat hits global cashmere production

Eight killed in Indian pesticide factory blast

Ancient burial site in Belize reveals when people started eating maize

BIO FUEL
Fish armor both tough and flexible

Graphene smart textiles developed for heat adaptive clothing

Quantum rings in the hold of laser light

Oracle shares slump on earnings hit by pandemic









The content herein, unless otherwise known to be public domain, are Copyright 1995-2024 - Space Media Network. All websites are published in Australia and are solely subject to Australian law and governed by Fair Use principals for news reporting and research purposes. AFP, UPI and IANS news wire stories are copyright Agence France-Presse, United Press International and Indo-Asia News Service. ESA news reports are copyright European Space Agency. All NASA sourced material is public domain. Additional copyrights may apply in whole or part to other bona fide parties. All articles labeled "by Staff Writers" include reports supplied to Space Media Network by industry news wires, PR agencies, corporate press officers and the like. Such articles are individually curated and edited by Space Media Network staff on the basis of the report's information value to our industry and professional readership. Advertising does not imply endorsement, agreement or approval of any opinions, statements or information provided by Space Media Network on any Web page published or hosted by Space Media Network. General Data Protection Regulation (GDPR) Statement Our advertisers use various cookies and the like to deliver the best ad banner available at one time. All network advertising suppliers have GDPR policies (Legitimate Interest) that conform with EU regulations for data collection. By using our websites you consent to cookie based advertising. If you do not agree with this then you must stop using the websites from May 25, 2018. Privacy Statement. Additional information can be found here at About Us.