Process Intensification and Green Chemistry

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Related lectures (32)

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Transport Effects in Heterogeneous Catalysis

Explores transport effects in heterogeneous catalysis, emphasizing the impact of mass transfer on reaction kinetics and mechanisms.

Miniaturization: Impact on Chemical Reactions and Mixing

Covers miniaturization in chemical engineering, focusing on mixing effects on reactions and process efficiency.

Miniaturization: Opportunities and Efficiency

Explores miniaturization opportunities and process efficiency in chemical reactions and heat transfer.

Batch to Continuous: Process Intensification and Green Chemistry

Covers the transition from batch to continuous processing in chemical engineering, focusing on advantages, limitations, high pressure processing, and examples of pressure-enhanced reactions.

Heat Transfer in Microreactors

Explores heat transfer in microreactors, covering straight micro-channels, thermal sensitivity analysis, and multi-injection systems.

Heat Transfer in Microreactors

Explores heat transfer in microreactors, covering homogeneous and segmented flows, thermal sensitivity, and hot spot reduction.

Spinning Disc Reactors: Principles and Applications

Explores the principles and applications of spinning disc reactors for enhanced mass and heat transfer in green chemistry.

Heat Transfer in Microreactors

Explores heat transfer in microreactors, covering Nusselt numbers, channel geometries, and thermal sensitivity analysis.

RS-SDR and COBR: Mixing Principles and Applications

Explores the mixing principles and applications of RS-SDR and COBR reactors for enhanced reaction efficiency and safety.

Chemical Engineering of Heterogeneous Reactions

Explores observed rates in heterogeneous reactions, internal mass transfer impact, reaction kinetics, Arrhenius equation, and heat transfer effects.