Imagine a day when emissions spewing from power plants and heavy industry are captured and fed into catalytic reactors that chemically transform greenhouse gases, such as carbon dioxide, into industrial fuels or chemicals that emit only oxygen.

Three researchers from the UPV/EHU’s Faculty of Engineering - Bilbao and the University of Valladolid have explored how renewable energy cooperatives have evolved.

We’ve heard it ad nauseum from our political leaders and the media: We can’t do anything about climate change because it would cost us jobs and jeopardize our future.

Mongolia has secured funding from the Asian Development Bank and other sources to build a 41-megawatt distributed renewable energy system that will provide clean electricity to about 260,000 people living in remote areas in the western part of the country, according to CNBC. The system will be the first large-scale, combined wind and solar energy project in Mongolia, a country that currently gets 80 percent of its electricity from coal-fired power plants.

Energy production can be expensive, or inefficient, or toxic to the environment — or some unfortunate combination of the three. But Jesse Hinricher thinks it doesn’t have to be.

Process waters from the seafood industry contain valuable nutrients, that could be used in food or aquaculture feed. But the process waters are treated as waste. Researchers now show the potential of recycling these nutrients back into the food chain.

Research by the University of Liverpool could help scientists unlock the full potential of new clean energy technologies.

A new study offers answers to questions that have puzzled policymakers, researchers and regulatory agencies through decades of inquiry and evolving science: How much total methane, a greenhouse gas, is being emitted from natural gas operations across the U.S.? And why have different estimation methods, applied in various U.S. oil and gas basins, seemed to disagree?

Removing the troublesome impurities of hydrogen sulfide (H2S) and carbon dioxide (CO2) from natural gas could become simpler and more effective using a metal-organic framework (MOF) developed at KAUST.

Rice University scientists are counting on films of carbon nanotubes to make high-powered, fast-charging lithium metal batteries a logical replacement for common lithium-ion batteries.