Carbon, Convert, MIT and Waste

MIT researchers develop oxygen permeable membrane that converts CO2 to CO

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NOVEMBER 28, 2017

MIT researchers have developed a new system that could potentially be used for converting power plant emissions of carbon dioxide into carbon monoxide, and thence into useful fuels for cars, trucks, and planes, as well as into chemical feedstocks for a wide variety of products.

MIT

MIT Convert CO2 Carbon

MIT researchers modify soil bacterium for biosynthesis of isobutanol using carbon

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AUGUST 21, 2012

Researchers at MIT have modified the soil bacterium Ralstonia eutropha to produce isobutanol and 3-methyl-1-butanol (branched-chain higher alcohols). What it does is take whatever carbon is available, and stores it in the form of a polymer, which is similar in its properties to a lot of petroleum-based plastics. Earlier post.)

MIT

MIT Carbon Waste Polymer

MIT Energy Initiative announces 2014 seed grant awards

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MARCH 30, 2014

The MIT Energy Initiative (MITEI) announced its latest round of seed grants to support early-stage innovative energy projects. They can thus be optimized for applications such as carbon capture, wastewater filtration, and natural gas storage, and for use in devices including fuel cells, rechargeable batteries, and solar cells.

MIT

MIT Grant 2014 Energy

S4 Energy Solutions to Develop Plasma Gasification Project at Waste Management Landfill for Waste to Fuels and Power

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MARCH 5, 2010

S4 Energy Solutions LLC , a joint venture by Waste Management, Inc. and InEnTec LLC, plans to develop a plasma gasification facility at Waste Management’s Columbia Ridge Landfill in Arlington, Oregon. The planned facility will convert municipal solid waste into synthetic fuels and power. PEM facility equipment overview.

Waste

Waste Seattle Energy Oregon

MIT researchers advancing development of supercritical water upgrading of heavy crude; lower cost, energy use and CO2

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JULY 18, 2015

Findings by MIT researchers could help advance the commercialization of supercritical water technology for the desulfurization and upgrading of high-sulfur crude oil into high-value, cleaner fuels such as gasoline without using hydrogen—a major change in refining technology that would reduce costs, energy use, and CO 2 emissions.

MIT

MIT Water Energy CO2

MITEI study finds hydrogen-generated electricity is a cost-competitive candidate for backing up wind and solar

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AUGUST 29, 2021

A team at MITEI (MIT Energy Initiative) has found that hydrogen-generated electricity can be a cost-competitive option for backing up wind and solar. If we’re to achieve zero-carbon electricity, we must replace all greenhouse gas-emitting sources. —Emre Gençer, co-author. Much of this information was publicly available.

Wind

Wind Hydrogen Solar Lithium Ion

ARPA-E Selects 37 Projects for $106M in Funding in Second Round; Electrofuels, Better Batteries and Carbon Capture

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APRIL 30, 2010

ARPA-E’s first solicitation awarded $151 million to 37 projects aimed at transformational innovations in energy storage, biofuels, carbon capture, renewable power, building efficiency, vehicles, and other areas. This process is less than 1% efficient at converting sunlight to stored chemical energy. Earlier post.) Engineering E.

Carbon

Carbon Batteries Battery Li-ion

Aemetis to license InEnTec gasification technology to produce cellulosic ethanol; coupled with LanzaTech syngas-to-ethanol tech

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AUGUST 4, 2017

The InEnTec gasification technology agreement is a key part of Aemetis’ strategy to produce high-value, low-carbon cellulosic ethanol from locally sourced biomass by integrating InEnTec’s patented advanced gasification technology with Lanzatech’s patented microbial fermentation technology. —Eric McAfee, Chairman and CEO of Aemetis.

India

India Renewable MIT Carbon

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

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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

DOE to award $35M to 24 projects to support early-stage, innovative technologies and solutions in advanced manufacturing

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FEBRUARY 12, 2018

MOE promises large savings in energy and carbon dioxide emissions as compared to existing technologies for producing primary iron and steel. Yale University’s project is to enable practical energy generation from waste heat using pyroelectric materials with high efficiency and at low cost. Colorado State University. 2,089,647. .

Manufacturer

Manufacturer Waste Universal Dallas

US DOE awards more than $175M to 40 projects for advanced vehicle research and development

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AUGUST 10, 2011

This project will develop a novel low cost route to carbon fiber using a lignin/PAN hybrid precursor and carbon fiber conversion technologies leading to high performance, low-cost carbon fiber. Increased availability of low cost carbon fiber can enable vehicle weight reduction and improvement in fuel economy. 962,497. .

Carbon Fiber

Carbon Fiber Lithium Ion Li-ion Vehicles

ARPA-E awards $175M to 68 novel clean energy OPEN 2021 projects

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FEBRUARY 15, 2022

The selected projects will focus on technologies such as revolutionizing fuel cells for light- and heavy-duty vehicles, and technologies to generate less nuclear waste and reduce the cost of fuel. Select OPEN 2021 projects include: Synteris. Massachusetts Institute of Technology. The Ohio State University.

Clean

Clean Cleaning Energy Li-ion

MIT Researchers Find That Elastic Energy Storage Systems Built With Carbon Nanotubes Could Match Li-ion Battery Energy Densities

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SEPTEMBER 19, 2009

New research by MIT scientists suggests that carbon nanotubes could be used to create elastic energy storage systems with energy densities that could be three orders of magnitude higher than those of conventional steel springs, and comparable to Li-ion batteries with potentially more durability and reliability. Hill et al.

Energy Storage

Energy Storage Li-ion MIT Carbon

ARPA-E awards $130M to 66 “OPEN 2012” transformational energy technology projects

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NOVEMBER 28, 2012

Methane Converter to Electricity and Fuel. Bio2Electric will develop a small-scale reactor that converts natural. Conventional large-scale gasto-liquid reactors produce waste-heat, reducing the energy. convert natural gas into transportable liquids in one step. Capturing this energy would reduce both waste.

2012

2012 Energy Lithium Sulfur Conversion

ARPA-E announces $36M for high-temperature materials projects

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MARCH 23, 2019

Heat exchangers are critical to efficient thermal energy use in a variety of applications, including electricity generation, nuclear reactors, transportation, petrochemical plants, waste heat recovery, and many more. MIT will develop a high performance, compact, and durable ceramic heat exchanger. Massachusetts Institute of Technology.

Low Cost

Low Cost Universal Power Powered

DOE ARPA-E awards $156M to projects to 60 projects to accelerate innovation in clean energy technologies

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SEPTEMBER 30, 2011

improved oilseed crop that uses carbon more efficiently than. streamline the process by which green plants convert carbon. several genes that allow the plant to use light more efficiently, increase its carbon uptake, and divert more energy to the. production of oil, which is stored in seeds and is convertible to.

Energy

Energy Clean Cleaning Grid

EV Driven

MIT researchers develop oxygen permeable membrane that converts CO2 to CO

MIT researchers modify soil bacterium for biosynthesis of isobutanol using carbon

MIT Energy Initiative announces 2014 seed grant awards

S4 Energy Solutions to Develop Plasma Gasification Project at Waste Management Landfill for Waste to Fuels and Power

MIT researchers advancing development of supercritical water upgrading of heavy crude; lower cost, energy use and CO2

MITEI study finds hydrogen-generated electricity is a cost-competitive candidate for backing up wind and solar

ARPA-E Selects 37 Projects for $106M in Funding in Second Round; Electrofuels, Better Batteries and Carbon Capture

Aemetis to license InEnTec gasification technology to produce cellulosic ethanol; coupled with LanzaTech syngas-to-ethanol tech

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

DOE to award $35M to 24 projects to support early-stage, innovative technologies and solutions in advanced manufacturing

US DOE awards more than $175M to 40 projects for advanced vehicle research and development

ARPA-E awards $175M to 68 novel clean energy OPEN 2021 projects

MIT Researchers Find That Elastic Energy Storage Systems Built With Carbon Nanotubes Could Match Li-ion Battery Energy Densities

ARPA-E awards $130M to 66 “OPEN 2012” transformational energy technology projects

ARPA-E announces $36M for high-temperature materials projects

DOE ARPA-E awards $156M to projects to 60 projects to accelerate innovation in clean energy technologies

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