A team of researchers from Korea Advanced Institute of Science & Technology (KAIST) and ...
Membrane technology holds enormous potential for reducing the energy consumption of various separation processes. It is of particular importance for energy-intensive industrial separation processes in ...
An international research has developed a membrane technology that could significantly reduce the energy required for crude ...
New PAN membrane pre-treatment cuts refinery energy use 31.6% and CO₂ emissions 37.6% with 3–5 year commercialization outlook ...
The rising demand for sustainable wastewater management and high-value resource recovery is pressing industries involved in, e.g., textiles, metals, and food production, to adopt energy-efficient and ...
Two recent studies report alternative strategies to the energy-intensive distillation process of petroleum refining. Instead ...
A South Korean research team has developed a separation membrane technology that filters light components like gasoline and naphtha from crude oil without heating it above 350°C. Experts assess that ...
An international research team led by KAIST has developed a membrane technology that could significantly reduce the energy required for crude oil refining by replacing part of the century-old ...
A team of international researchers has developed a new class of ultrathin polymer membranes that can rapidly and selectively ...
Dairy processors are focusing on utility reduction, water recovery, and efficiency due to rising energy costs and ...
Separating molecules is critical to producing many essential products. For example, in petroleum refining, the hydrocarbons – chemical compounds composed of hydrogens and carbons – in crude oil are ...
Separation processes are essential elements of the technological foundations of the seven IOF industries included in this report. For the chemical and petroleum refining industries, separation ...