Carbon capture utilization encompasses technologies that separate carbon dioxide from air, flue gas, or aqueous streams and convert it into fuels, chemicals, and materials. Approaches span sorbent- and solvent-based capture, moisture- and pressure-swing processes, chemical looping, and direct air capture, often integrated with solar, electrochemical, and bio-based systems. Captured CO2 and biogenic carbon are transformed via catalysis, photoelectrochemistry, microbial and thermochemical pathways into products such as methane, methanol, formic acid, plastics, bio-oil, and solid carbon, frequently using waste biomass, wastewater, and plastics as feedstocks.
Engineering
The rapid growth of industrialization has made the treatment of oily wastewater a pressing global challenge in environmental remediation. Electrocoagulation (EC), a process known for its high efficiency and environmental ...
Mar 19, 2025
0
26
Engineering
Using seawater, electricity and carbon dioxide (CO2), Northwestern University scientists have developed a new carbon-negative building material.
Mar 19, 2025
0
215
Energy & Green Tech
A research team from the Korea Institute of Energy Research (KIER) has successfully developed a new solid adsorbent capable of directly capturing CO₂ from the atmosphere and recovering it at an average high purity of 96.5%. ...
Mar 18, 2025
0
27
Energy & Green Tech
As the global demand for sustainable energy solutions continues to grow, Lithuanian researchers have taken a step forward by developing a technology that not only transforms waste into valuable hydrogen but also eliminates ...
Mar 17, 2025
0
49
Energy & Green Tech
Industrial waste gases, long seen as a major contributor to climate change, could soon be captured and repurposed into everyday household products such as shampoo, detergent, and even fuel.
Mar 13, 2025
0
26
Engineering
Concrete is the world's most widely used building material—but the production of cement, its key component, generates significant carbon dioxide emissions. New research at Umeå University shows how electrification and carbon ...
Mar 13, 2025
0
39
Engineering
Scientists at Nanyang Technological University, Singapore (NTU Singapore), have developed an innovative solar-powered method to transform sewage sludge—a by-product of wastewater treatment—into green hydrogen for clean energy ...
Mar 12, 2025
0
99
Engineering
Energy efficiency is crucial for sustainability, yet vast amounts of low-temperature waste heat remain unused in industrial processes. Now, researchers from Japan have investigated erythritol slurry as a promising heat transfer ...
Mar 11, 2025
0
41
