15 June 2022
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Startup enaDyne bei Carbon-to-Value-Challenge der Bundesagentur für Sprunginnovationen dabei
Startup der TU Bergakademie Freiberg von der Bundesagentur für Sprunginnovationen ausgewählt
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15 June 2022
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Marktfähige Power-to-X-Technologien entwickeln
NRW-Landesregierung fördert den Aufbau einer offenen Versuchsplattform mit 5,3 Mio. Euro
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14 June 2022
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Lanzatech and Zara collaborate on CCU fashion
Capturing and repurposing carbon emissions from industrial processes limits the direct release of these emissions into the atmosphere and helps limit the use of virgin fossil resources
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14 June 2022
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CEMEX successfully turns CO2 into carbon nanomaterials
The next step is to scale the technology in a cement plant pilot within a year
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14 June 2022
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Polycarbonates from renewable hydrocarbons
More and more traditional producers of polycarbonates use waste carbon feedstock and/or the mass balance approach to bring certified renewable products made from biobased hydrocarbons to market
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10 June 2022
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CO2-Einfang jetzt in Turbogeschwindigkeit
Verfahren von Forschern der Tokyo Metropolitan University ist mindestens doppelt so schnell
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10 June 2022
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Fastest carbon dioxide catcher heralds new age for direct air capture
New carbon sorbent is 99% efficient, lightning fast, and easily recyclable
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10 June 2022
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Erdgasersatz für die Chemieindustrie: Forschende entwickeln neues Verfahren
Spin-off der Universität Stuttgart erhält EXIST-Forschungstransfer-Förderung
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07 June 2022
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Biden Administration Launches $3.5 Billion Program to Capture Carbon Pollution from the Air
DOE Announces Bipartisan Infrastructure Law Effort to Establish Regional Direct Air Capture Hubs for Large-Scale CO2 Removal
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07 June 2022
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Internationales Konsortium will die Dekarbonisierung der Luftfahrt vorantreiben
Im Forschungsprojekt CARE-O-SENE entwickeln Partner aus Deutschland und Südafrika neue Katalysatoren für grüne Flugtreibstoffe
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07 June 2022
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International consortium to advance decarbonisation of the aviation sector
CARE-O-SENE research project will develop advanced catalysts for sustainable aviation fuels
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03 June 2022
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Aqualung Carbon Capture successfully completes $10m equity round with strategic investors
Aqualung Carbon Capture is pleased to announce the completion of a new equity investment from key strategic partners including Delek US, Global Ship Lease, Golar LNG, MKS Pamp and Standard Lithium
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02 June 2022
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Low-cost battery-like device absorbs CO2 emissions while it charges
The CO2 can be released in a controlled way and collected to be reused or disposed of responsibly
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02 June 2022
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Preiswertes, batterie-ähnliches Gerät absorbiert beim Aufladen CO2
Bei der Entladung lässt sich das CO2 kontrolliert auffangen, um es wiederzuverwenden oder zu entsorgen
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30 May 2022
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Pertamina – Air Liquide Agree to Collaborate in Developing CCU Technology at the Balikpapan Refinery
Cooperation agreement was realized through a Joint Study Agreement (JSA) on CO2 Syngas and Flue Gas capture technology application from Hydrogen production
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27 May 2022
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Fehlende Erkenntnisse zur Langzeitstabilität erschweren eine industrielle Anwendung der Elektrolyse
Fraunhofer UMSICHT-EpertInnen haben die elektrochemische CO2-Reduktion gemeinsam mit Wissenschaftlern der Ruhr-Universität Bochum und der Universität Stuttgart untersucht
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27 May 2022
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This start-up makes vodka out of CO2 emissions, and it’s backed by Toyota and JetBlue
The three-year-old start-up’s vodka is a luxury brand, costing about $65 bottle
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23 May 2022
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Converting CO2 through electrochemistry – The WaterProof Project
Starting soon, the new research project WaterProof aims at closing the waste(water) carbon loop by creating a novel biorefinery concept converting CO2 emissions from urban waste treatment facilities into valuable green consumer-products. The objective is a technology resulting in a GHG reduction based on CO2 utilization, replacement of fossil feedstock and industrial electrification
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23 May 2022
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CO2-Umwandlung durch elektrochemische Prozesse – Das WaterProof-Projekt
Das im Juni startende Forschungsprojekt WaterProof zielt darauf ab, den Kohlenstoffkreislauf von Abfällen und Abwässern zu schließen, indem es ein neuartiges Bioraffineriekonzept entwickelt, das CO2-Emissionen städtischer Abfallverarbeitungsanlagen in wertvolle grüne Verbraucherprodukte umwandelt. Das Ziel besteht in einer Technologie, die maßgeblich zu einer Reduzierung von Treibhausgasen auf der Grundlage einer effektiven CO2-Nutzung, dem Ersatz fossiler Rohstoffe und industrieller Elektrifizierung beiträgt.
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23 May 2022
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Lights, Catalyst, Reaction! Converting CO2 to Formic Acid Using an Alumina-supported, Iron-based Compound
Research team from Tokyo Tech has developed a method of converting excess atmospheric CO2 into energy-rich chemicals
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