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Radiotracer Techniques
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Related lectures (31)
Dispersion Models: Understanding Axial Dispersion Coefficient
Explores dispersion models and the axial dispersion coefficient in fluid systems.
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RTD in Microreactors
Explores RTD in microreactors, analyzing radial dispersion, flow maldistribution, and reactor configurations to optimize chemical reactions.
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Miniaturization: Impact on Chemical Reactions and Mixing
Covers miniaturization in chemical engineering, focusing on mixing effects on reactions and process efficiency.
Radiation Biology: Basics and Applications
Covers the basics of radiation detection, energy deposition, and applications in various fields.
Concrete Durability: Carbonation and Chlorides
Explores concrete carbonation, reinforcement corrosion, prevention, and repair strategies, focusing on chlorides and freeze-thaw cycles.
Chemical Reaction Engineering: Conversion and Reactor Sizing
Explores the algorithm for solving chemical reaction engineering problems, focusing on conversion and reactor sizing.
Thermo-Calc: Exercise and Property Models
Explores Thermo-Calc software for defining functions and property models in materials science.
Diffusion in Fluids: Understanding Mass Transport
Covers diffusion, focusing on mass transport in fluids and its mathematical formulation.
Heterogeneous Catalysis: Introduction and Surface Reactivity
Introduces the basics of heterogeneous catalysis, focusing on catalyst types, surface reactivity, and the role of surface energy in catalytic processes.
Chemical reaction engineering
Explores chemical reaction engineering fundamentals, reactor design, and variable flow rates.
Mixing Effects on Chemical Reactions: Segregation Analysis
Covers the effects of mixing and segregation on chemical reaction performance in various reactor types.
Mixing and Segregation in Chemical Reactors
Explores mixing and segregation in chemical reactors, discussing the impact of segregation intensity on conversion and selectivity.
Diffusion and Convection Transport
Explores the microscopic description of diffusion and convection transport, emphasizing similarities between chemical diffusion and heat conduction.
Fluid Mechanics: Foundations and Applications
Covers the foundations of fluid mechanics, focusing on flow problem descriptions and solutions.
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Fluid Dynamics: Microfluidics
Explores microfluidics, covering continuum and Knudsen flow, damping effects, diffusion in liquids, liquid chromatography, and shear-driven chromatography.
Chemical Engineering of Heterogeneous Reactions
Covers the basics of chemical engineering of heterogeneous reactions and introduces Laplace transforms to simplify complex problems.
Laminar Flows: Microfluidics and Applications
Explores laminar flows in microfluidics, including flow profiles, hydrodynamic focusing, bioprinting, cell lysis, and fluorescence-assisted cell sorting.
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