C1, Carbon, Conversion and Convert

UCLA engineers develop new metabolic pathway for more efficient conversion of glucose into biofuels; possible 50% increase in biorefinery yield

Green Car Congress

OCTOBER 1, 2013

The new pathway is intended to replace the natural metabolic pathway known as glycolysis, a series of chemical reactions that nearly all organisms use to convert sugars into the molecular precursors that cells need. However, the two remaining glucose carbons are lost as carbon dioxide.

Conversion

Conversion Engine Carbon C1

DOE awards $35M to 15 projects in ARPA-E ECOSynBio program to reduce carbon footprint of biofuel production

Green Car Congress

MAY 15, 2021

The US Department of Energy (DOE) is awarding $35 million to 15 research projects through ARPA-E’s “Energy and Carbon Optimized Synthesis for the Bioeconomy” (ECOSynBio) program to decarbonize biorefining processes used across the energy, transportation, and agriculture sectors. Carbon-Negative Chemical Production Platform - $4,160,262.57.

Carbon

Carbon Production Conversion Universal

GM provides technical details of the Gen 2 Voltec propulsion system used in the 2016 Volt

Green Car Congress

APRIL 23, 2015

Clutches are OWC1, C1 and B1. This process outperforms the industry-standard with a 45% smaller footprint, fast change tooling, 3-D force monitoring, and a 50% shorter process time that results in reduced carbon footprint and 40% power savings. Click to enlarge.

Volt

Volt GM 2016 Extended Range

EV Driven

UCLA engineers develop new metabolic pathway for more efficient conversion of glucose into biofuels; possible 50% increase in biorefinery yield

DOE awards $35M to 15 projects in ARPA-E ECOSynBio program to reduce carbon footprint of biofuel production

GM provides technical details of the Gen 2 Voltec propulsion system used in the 2016 Volt

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