The hottest green chemical technology becomes a ne

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Green chemical technology becomes a new breakthrough in energy conservation and emission reduction

Beihua international forum hosted by Beijing University of chemical technology - the international demand for chemical process strengthening and green technology far exceeded the second place. The professional seminar on marketing ended in Beijing on September 13. It was learned from the forum that a number of process strengthening and green technologies can bring new technical support for energy conservation and emission reduction in the chemical industry, and a number of emerging advanced green chemical technologies are becoming new breakthroughs

according to the organizers of the conference, under the background of promoting energy conservation and emission reduction in the whole industry, people have reached an unprecedented level of awareness and attention to chemical process strengthening, and listed it as one of the priority areas of current chemical engineering development. The industry is promoting chemical process strengthening from the high degree of achieving sustainable development

Rong Wang, an associate professor at Nanyang Technological University in Singapore, said that the membrane absorber with integrated membrane technology and adsorption process has unique advantages in separating specific components, which can greatly improve the gas adsorption efficiency. This is because the hydrophobic porous membrane can make the gas-liquid have a larger contact surface, which greatly enhances the mass transfer between the two phases, thereby strengthening the adsorption process

Professor Li Jing of Rutgers University in the United States introduced the new microporous metal organic framework material developed by him at the forum. This material can be established by the world-famous FERODO company for the capture of CO2 in flue gas. Some commonly used materials are also extracted and classified into this category and separation. It has the advantages of low cost, high selectivity and high capacity, especially under low pressure

according to Zhang runduo, a professor at Beijing University of chemical technology, nitrogen oxides are a major source of urban air pollution. The use of supported molecular sieve catalysts can remove nitrogen oxides with high selectivity at low temperatures. At the forum, representatives also exchanged views and discussed smooth switching on new and efficient fuel cell catalysts, resource recovery and utilization technologies, etc

participants believed that strengthening the chemical process to achieve high efficiency, energy conservation and pollution-free is an effective means to solve the "development pollution" contradiction brought by the process industry and realize sustainable development; Green technology can promote the industry to take the road of green and low-carbon development

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