Carbon Capture
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Your empty cuppa could capture carbon
Humanity has littered the sky with the refuse of fossil fuel use, releasing enough CO2 to change the planet’s climate. We are also chucking incredible sums of carbon in the form of plastics into landfills and into the environment around (and inside of) us. What if cleaning up one of these problems could also help clean up the other?
Your empty cuppa could capture carbon
Humanity has littered the sky with the refuse of fossil fuel use, releasing enough CO2 to change the planet’s climate. We are also chucking incredible sums of carbon in the form of plastics into landfills and into the environment around (and inside of) us. What if cleaning up one of these problems could also help clean up the other?
CCUS Innovation 2.0 competition: UK BECCS-MCFC - Next generation CCUS technology for net zero 2050
CCUS Innovation 2.0 competition: UK BECCS-MCFC - Next generation CCUS technology for net zero 2050 Key documents from the University of Sheffield’s Carbon Capture, Usage and Storage (CCUS) Innovation 2.0 project. Documents Details UK BECCS-MCFC: Next generation CCUS technology for net zero 2050 Project lead: University of Sheffield (Translational Energy Research Centre - TERC) This project investigated the potential of biomass energy with carbon capture and storage (BECCS) for wide-spread...
How did a major mangrove restoration project in Senegal end up selling 'ghost carbon?'
How did a major mangrove restoration project in Senegal end up selling 'ghost carbon?' Lisa Lock Scientific Editor Andrew Zinin Lead Editor Nature-based solutions have become central to global climate strategies. From tropical forests to wetlands, restoring nature means trees and plants can capture carbon dioxide, reduce global warming, and regenerate biodiversity.
A Machine Learning-Enhanced Hopf-Cole Formulation for Nonlinear Gas Flow in Porous Media
Announce Type: replace-cross Abstract: Accurate modeling of gas flow through porous media is critical for many technological applications, including reservoir performance prediction, carbon capture and sequestration, and fuel cells and batteries. However, such modeling remains challenging due to strong nonlinear behavior and uncertainty in model parameters. In particular, gas slippage effects described by the Klinkenberg model introduce pressure-dependent permeability, which complicates...
Trump: US to leave Iran in '2 or 3 weeks'
President Trump says the US will end its war against Iran in the next "2 or 3 weeks" - but it will be up to other countries to secure the vital Strait of Hormuz. We'll look at how Australia is dealing with rising fuel costs, and whether it's a good idea for Britain's King Charles to visit Washington at this moment. Also: Donald Trump's White House ballroom project is halted; a special report from the North Sea on a plan to capture carbon dioxide; shocking news for families who had fertility...
A Machine Learning-Enhanced Hopf-Cole Formulation for Nonlinear Gas Flow in Porous Media
Announce Type: replace Abstract: Accurate modeling of gas flow through porous media is critical for many technological applications, including reservoir performance prediction, carbon capture and sequestration, and fuel cells and batteries. However, such modeling remains challenging due to strong nonlinear behavior and uncertainty in model parameters. In particular, gas slippage effects described by the Klinkenberg model introduce pressure-dependent permeability, which complicates numerical...
Enhancing Spatial Reasoning in Large Language Models for Metal-Organic Frameworks Structure Prediction
arXiv:2601.09285v2 Announce Type: replace Abstract: Metal-organic frameworks (MOFs) are porous crystalline materials with broad applications such as carbon capture and drug delivery, yet accurately predicting their 3D structures remains a significant challenge. While Large Language Models (LLMs) have shown promise in generating crystal structures, their application to MOFs is hindered by MOFs' high structural complexity arising from the large number of atoms in unit cell. Inspired by the...
New hydrogen breakthrough turns waste heat into clean fuel
New hydrogen breakthrough turns waste heat into clean fuel A newly developed catalyst could slash the cost and temperature requirements of hydrogen production, opening the door to cleaner, locally generated fuel. - Date: - June 2, 2026 - Source: - University of Birmingham - Summary: - A breakthrough hydrogen-production method could make clean fuel far cheaper and easier to generate.
Warming unlocks ancient carbon in Tibetan permafrost, triggering climate tipping point
Warming unlocks ancient carbon in Tibetan permafrost, triggering climate tipping point Tejasri Gururaj Author Stephanie Baum Scientific Editor Robert Egan Associate Editor A new study in Nature Communications finds a critical climate tipping point in Tibetan permafrost ecosystems. Warming of 2–4 degrees Celsius triggers a self-reinforcing cycle of carbon release that could significantly accelerate climate change, according to the work. Permafrost covers roughly 15% of the Northern...