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SEPTEMBER 9, 2013

Researchers at the University of Houston’s physics department and the Texas Center for Superconductivity, MIT and Boston College have found that indium-doped tin telluride (SnTe) shows high thermoelectric performance, with a peak figure of merit (ZT) of ?1.1 atom % In-doped SnTe at about 873 K (600 ° C).

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Waste Boston Houston MIT 225

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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. Evaluating quantum dots as thermoelectric materials: Thermoelectric devices can convert waste heat from car engines, power plants, and other sources directly into electricity. A total of more than $1.6

MIT 210

MIT Grant 2014 Energy 210

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MAY 2, 2014

King Assistant Professor of Metallurgy at MIT, is proposing a direct sulfide electrolysis process to simplify copper extraction and eliminate noxious byproducts. Antoine Allanore, the Thomas B. In the traditional process, which still accounts for more than half of copper production, smelters roast a mixture of copper sulfide ore and oxygen.

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MIT Production 2013 Chile 210

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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. Click to enlarge.

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Energy Storage Li-ion MIT Carbon 231

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AUGUST 6, 2023

By leveraging RecycLiCo’s expertise in conversion of waste cathodes into valuable battery-grade materials, both parties are working to close the loop by returning the recycled product back to Nanoramic for cell production and further electrochemical analysis.

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Lithium Ion Batteries Battery MIT 284

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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.

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MIT Convert CO2 Carbon 186

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JANUARY 21, 2018

MIT researchers have discovered a way to increase the efficiency of thermoelectric materials threefold by using “topological” materials, which have unique electronic properties.

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MIT Energy Clean Cleaning 207

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NOVEMBER 18, 2009

Researchers from MIT, with colleagues from IISc in Bangalore, India and HiPi Consulting in Maryland have experimentally demonstrated the conversion of heat to electricity using thermal diodes with efficiency as high as 40% of the Carnot Limit. There’s a gold mine in waste heat, if you could convert it. Arrows represent couplings.

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Conversion MIT 2007 Convert 247

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JANUARY 20, 2017

MIT engineers have genetically engineered strains of the oleaginous yeast Yarrowia lipolytica to boost the production of lipids by about 25% compared to previously engineered yeast strains. Lipids, specifically fatty-acid-derived lipids, are important feedstocks for the fuel and oleo-chemical industries.

MIT 150

MIT Engine Production Conversion 150

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OCTOBER 18, 2020

BOTTLE Consortium Collaborations to Tackle Challenges in Plastic Waste: Create collaborations with the BOTTLE Laboratory Consortium to further the long-term goals of the Consortium and the Plastics Innovation Challenge. Skokie, IL) - Upscaling of Non-Recyclable Plastic Waste into CarbonSmart Monomers – DOE Funding: $1,890,001.

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San Diego San Jose Iowa Oklahoma 321

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FEBRUARY 13, 2012

However, if stretch productivity targets are met and more effective and efficient dewatering technologies are used (or if a large fraction of the thermal energy input in drying is ‘renewable’ or ‘waste’ heat), this technology set can have a favorable energy balance and provide GHG mitigation benefits relative to petroleum-derived fuels.

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MIT Oil Water Fuel 250

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APRIL 14, 2015

Researchers at MIT are predicting that predict that suitable chemical functionalization of graphene can result in a large enhancement in the Seebeck coefficient for thermoelectric materials, leading to an increase in the room-temperature power factor of a factor of 2 compared to pristine graphene, despite degraded electrical conductivity.

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MIT 2015 Transportation Waste 150

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DECEMBER 1, 2017

The BASF and Volkswagen international “ Science Award Electrochemistry 2017” ( earlier post ) this year goes to Dr. Jennifer Rupp at MIT. Rupp is Assistant Professor of Materials Science and Engineering at the Massachusetts Institute of Technology (MIT) in Cambridge (USA) and affiliated to ETH Zurich (Switzerland). Dr. Jennifer L.

MIT 150

MIT Rhode Island Batteries Battery 150

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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 150

MIT Water Energy CO2 150

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JUNE 19, 2014

Researchers at MIT and King Fahd University of Petroleum and Minerals (KFUPM) in Saudi Arabia have devised a robotic system that can detect leaks in gas, oil and water pipelines at a rapid pace and with high accuracy by sensing a large pressure change at leak locations. Top ]: Solid model side view of Leak Detector. Chatzigeorgiou, D.;

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MIT Saudi Arabia Water Gas 231

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AUGUST 11, 2014

Thermoelectric materials convert temperature differences into electric voltage; a TEG in a vehicle is designed to convert waste heat to power. GMZ Energy, a provider of advanced nano-structured thermoelectric generation technology, was co-founded by MITs Professor Gang Chen and collaborator Zhifeng Ren of the University of Houston.

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Honda Houston North America Vehicles 231

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MARCH 1, 2016

dissipating energy due to deformation of the pavement structure)—results in wasted fuel because the dissipated energy does not contribute to the vehicle’s forward movement. Deflection-induced PVI—which results from a vehicle overcoming a resisting force (i.e.

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MIT California Fuel Vehicles 150

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MAY 15, 2021

These fermentation processes create carbon as a byproduct, with some processes wasting more than 1/3 of this carbon as CO 2 emissions. The Massachusetts Institute of Technology (MIT) has engineered the oleaginous yeast Yarrowia lipolytica to produce biodiesel-like lipids and alkanes. Ohio State University.

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Carbon Production Conversion Universal 303

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APRIL 11, 2020

The funding round was led by The Engine, the venture firm spun out of MIT that invests in early-stage Tough Tech companies. It is the most essential, but also the most wasteful component in the overall motion system, producing an estimated 55 million tons of CO 2 annually in the US alone according to the U.S. —Reed Sturtevant.

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MIT Electrical Electric Waste 207

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OCTOBER 3, 2014

Gregory Stephanopoulos, the Willard Henry Dow Professor of Chemical Engineering at MIT and colleagues at MIT and the Whitehead Institute for Biomedical Research have identified a new way to boost yeast tolerance to ethanol by simply altering the composition of the medium in which the yeast are grown. —Gregory Stephanopoulos.

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Industry Industrial MIT Production 210

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DECEMBER 21, 2011

GMZ’s material, a nanostructured bismuth antimony telluride, was developed by researchers at Boston College and MIT. GMZ Energy also is pursuing waste heat recovery applications for the automotive and industrial process markets.

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Energy Water Boston Solar 218

Cars That Think

OCTOBER 27, 2021

MIT has been working on these for years , and they're about to introduce them to the canals of Amsterdam as cargo shuttles and taxis. Eventually, Roboats were scaled up, and by 2020 MIT had a version large enough to support a human.

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MIT Cars Environment Taxi 145

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JANUARY 18, 2011

A collaboration including researchers from Boston College, MIT, the University of Virginia and Clemson University have achieved a peak ZT (thermoelectric figure of merit) of 0.8 for the materials and possibly good enough for consideration for waste heat recovery in automotive exhaust systems. The study by Biswas et al.

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Conversion Boston Waste Universal 231

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MARCH 7, 2011

Transphorm says that its solutions cut energy waste by 20% and simplify the design and manufacturing of a wide variety of electrical systems and devices, including motor drives, power supplies and inverters for solar panels and electric vehicles. Perreault, MIT). At the Applied Power Electronics Conference (APEC), Transphorm Inc.

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DC Convert Volt MIT 231

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APRIL 30, 2010

The project also includes a proprietary process to convert waste biomass into carbon dioxide and hydrogen to feed the bioreactor, allowing butanol production from waste feedstocks. The aerobic microbe has been engineered at MIT and is capable of converting a variety of organic compounds into oil, from which biodiesel may be produced.

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Carbon Li-ion Batteries Battery 249

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MAY 19, 2015

Founded in 2006, GMZ commercialized technologies that were developed at the labs of MIT and Boston College, and launched the first commercial high temperature modules overcoming significant challenges in integration and packaged for waste heat applications in cars, furnaces and other industrial applications. Earlier post.).

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Energy Waste Boston MIT 150

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SEPTEMBER 5, 2013

Researchers at MIT, with colleagues at the University of Minnesota, have provided evidence and theoretical rate coefficients for new pathways in the low-temperature oxidation of hydrocarbons. The new analysis is explained in a paper by MIT graduate student Amrit Jalan, chemical engineering professor William Green, and six other researchers.

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Fuel Minnesota MIT Green 218

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JULY 6, 2023

FluoRok’s technology changes this paradigm, enabling for the first time the bypassing of toxic HF production to manufacture fluorinated materials directly from raw minerals (fluorite, CaF 2 ) or fluorinated waste streams. In May, Professor Véronique Gouverneur was at MIT to deliver the Buchi Lectures in Organic Chemistry.)

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MIT Universal Energy Storage United States 150

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AUGUST 4, 2017

The PEM system uses heating from electrically conducting gas (a plasma) to convert the feedstock (usually waste) to valuable products. InEnTec’s technology was developed at MIT and the Pacific Northwest National Laboratory with the support of the US Department of Energy. InEnTec has successfully installed 13 units worldwide since 1995.

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Renewable MIT Carbon India 170

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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. To that end, they have integrated their analysis into SESAME, a lifecycle and techno-economic assessment tool for a range of energy systems that was developed by MIT researchers.

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Wind Hydrogen Solar Lithium Ion 170

Green Car Congress

NOVEMBER 1, 2010

Highly turbocharged alcohol-fueled direct-injection spark-ignition (DISI) engines operated at a high compression ratio could be as or more efficient than diesel engines while also providing advantages of lower vehicle cost, lower emissions and higher power, according to a recent modeling study by Leslie Bromberg and Daniel Cohn at MIT.

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Diesel Engine Downsizing Fuel 218

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NOVEMBER 12, 2021

Founder of MIT's Microsystems Technology Labs. Penfield's academic career at MIT spanned 45 years. After joining MIT as a professor in 1960, he moved up the ranks and served as associate head of the electrical engineering and computer science department from 1974 to 1978. He also established MIT's master's degree in engineering.

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MIT St. Louis San Jose Highlander 98

Green Car Congress

FEBRUARY 12, 2018

Colorado State University will develop a novel, low-cost turbo-compression cooling system that utilizes the ultra-low-grade waste (less than 150°C) heat available in many industrial processes, the energy from which is not traditionally recovered. Colorado State University. Dana-Farber Cancer Institute. Massachusetts Institute of Technology.

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Manufacturer Waste Universal Idaho 150

Teslarati

MARCH 11, 2024

Screenshot) Und liebe Presse: redet mit unterschiedlichen Betroffenen, nicht nur einer Handvoll Berufsdemonstranten. The Premnitz waste incineration plant uses 23 million cubic meters, the Schwedt refinery uses 13 million cubic meters, and the LEAG coal plant uses a whopping 44.8 Bitte checkt endlich die Fakten (s. cubic meters.

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Water Tesla MIT Coal 145

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SEPTEMBER 16, 2016

The semi-solid thick electrode is a material science innovation originating in Dr. Yet-Ming Chiang’s lab at MIT. (Dr. Those inactive materials are expensive and wasteful. With this ARPA-E program, 24M and its partners will extend the capabilities of semi-solid electrodes to ultra-high-energy density cells that use lithium-metal anodes.

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Li-ion Lithium Ion Energy Polymer 150

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NOVEMBER 28, 2012

Conventional large-scale gasto-liquid reactors produce waste-heat, reducing the energy. Capturing this energy would reduce both waste. areas to convert otherwise wasted gas into usable chemicals that. The Massachusetts Institute of Technology (MIT) will develop a. technology with advanced catalysts. If successful, this.

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2012 Energy Lithium Sulfur Gas-Electric 240

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JULY 31, 2015

Many travelers’ and commuters’ transportation choices waste significant amounts of energy due to traffic complications, convenience and variability in transportation styles and preferences. The Energy Department’s Advanced Research Projects Agency-Energy (ARPA-E) announced $14.5 Mobility Electronic Market for Optimized Travel (MeMOT).

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Transportation Energy Personal Maryland 150