PrISMa revolutionizes the field of carbon capture by combining insights from materials science, engineering, and…
Browsing: Carbon Capture
Carbon capture is a technological process designed to remove carbon dioxide (CO2) emissions from the atmosphere or directly from industrial sources before they are released into the air, helping to combat climate change. This technology involves capturing CO2 at its emission source, transporting it to a storage site, and depositing it underground in geological formations or using it in various industrial applications, such as enhanced oil recovery or manufacturing materials like concrete. Carbon capture and storage (CCS) is considered a critical strategy in reducing global greenhouse gas emissions, particularly from heavy industries like power generation, steel, and cement production. As the effects of climate change become more pronounced, the development and implementation of efficient and economically viable carbon capture technologies are increasingly vital.
Mature forests are critical in the fight against climate change – extracting carbon dioxide (CO2)…
Scientists have introduced PrISMa, a groundbreaking platform integrating advanced simulations and machine learning to accelerate…
Scientists have developed a carbon nanocomposite using sodium carbonate that significantly improves carbon dioxide from…
Researchers have discovered that the Southern Ocean’s capacity to absorb CO2 is 25% higher than…
Researchers reviewed thousands of reforestation projects worldwide, finding that combining natural regeneration with tree planting…
A new membrane technology developed by Newcastle University leverages humidity to efficiently capture carbon dioxide,…
Researchers have developed a new method for carbon storage that accelerates the formation of carbon…
An electrochemical catalyst for converting CO2 to valuable products can stand up to an impurity…
A new porous material allows for efficient, low-energy gas separation and is scalable for industrial…
Carbonated concrete could help reduce emissions associated with cement production. By using a carbonated —…
Research on the deep-sea vent tubeworm Riftia pachyptila shows how its symbiotic bacteria use two…
Researchers have innovated reactors that use fly ash to effectively mineralize CO2, presenting a sustainable…
Radiocarbon analysis reveals that Earth system models underestimate the carbon uptake in terrestrial ecosystems and…
New research indicates that plants absorb and release carbon dioxide faster than previously thought, challenging…
Cambridge researchers have developed a low-energy carbon capture technology using charged activated charcoal, capable of…
Researchers at the University of Virginia have developed a scalable method for fabricating MOF-525, a…
A team from the Hong Kong University of Science and Technology (HKUST) has made significant…