Green Car Congress

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

Green Car Congress

NOVEMBER 11, 2016

Switching from the automotive standards to the trading scheme could save as much as €63 billion, says the study’s lead author Sergey Paltsev, deputy director at MIT’s Joint Program on the Science and Policy of Global Change and senior research scientist at the MIT Energy Initiative.

Standards 218

Standards Emissions CO2 Europe 218

Green Car Congress

NOVEMBER 22, 2017

The realization, which will benefit also from the collaboration with MIT (Massachusetts Institute of Technology), of technologies and devices for the capture and temporary storage of part of CO 2 produced by internal combustion engines.

Renewable 150

Renewable Emissions CO2 Diesel 150

Blink Charging

SEPTEMBER 8, 2023

The Global Environmental Edge of EVs The transportation sector is the dominant contributor to carbon emissions and the release of greenhouse gases, and while light-duty passenger cars were an early focus for the EV industry, larger cars and fleet vehicles represent a new opportunity for emissions reductions.

Carbon 52

Carbon Emissions CO2 Gasoline-Electric 52

Green Car Congress

JANUARY 17, 2011

A recent white paper by Leslie Bromberg of MIT’s Plasma Science and Fusion Center and Wai K. Methanol first surfaced as a potentially interesting transportation fuel in the wake of the oil crisis in 1973. A bridging option is to use methanol derived from natural gas, with a CO2 intensity that is no worse than conventional fuels.

Transportation 257

Transportation Fuel Coal Gasoline 257

Green Car Congress

SEPTEMBER 30, 2011

The technology areas ( earlier post ) receiving funding are: PETRO: Plants Engineered To Replace Oil ($36 million). Plants Engineered to Replace Oil (PETRO). Center for Enhanced Camelina Oil (CECO) The team led by the Donald Danforth Plant Science Center will. produces more oil per acre. light energy.

Energy 294

Energy Clean Cleaning Grid 294

Green Car Congress

MARCH 23, 2019

Michigan Technological University will use advanced ceramic-based 3D printing technology to develop next-generation light, low-cost, ultra-compact, high-temperature high-pressure (HTHP) heat exchangers. MIT will develop a high performance, compact, and durable ceramic heat exchanger. Massachusetts Institute of Technology.

Low Cost 207

Low Cost Universal Powered Power 207