Chemical engineering and process technologies for catalysis
Chemical engineering and process technologies for catalysis
Chemical engineering, a branch of engineering that applies chemical principles to solve industrial problems, plays a fundamental role in the development and optimization of catalytic processes. The understanding and manipulation of catalysts are crucial for enhancing reaction rates, selectivity, and overall process efficiency. Chemical engineers equipped with expertise in catalysis play a pivotal role in designing and optimizing chemical reactors to achieve desired product yields while keeping energy consumption and environmental impact at minimum levels. Utilizing their knowledge of kinetics, thermodynamics, transport phenomena, and reaction engineering principles, these professionals design novel catalysts or modify existing ones to promote desired reactions. Additionally, they employ various characterization techniques such as catalyst testing under controlled conditions to determine their lifetime, stability, resistance to deactivation mechanisms like coking or poisoning. Their diligent efforts help revolutionize industries by advancing breakthrough catalytic technologies that are not only economically viable but also environmentally sustainable.
Keywords
· Reactor, process and multi-scale modeling
· Process coupling and other intensification
· New methodologies & tools for kinetic
· Process electrification
· Catalytic chemical engineering