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Lecture
Pressure Drop in Packed Pipes
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Related lectures (32)
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Chemical reaction engineering: reactor design
Explores the Chemical Reaction Engineering algorithm applied to isothermal reactor design, with examples on SO2 oxidation and N2O4 decomposition.
Chemical Reaction Engineering: Conversion and Reactor Sizing
Explores the algorithm for solving chemical reaction engineering problems, focusing on conversion and reactor sizing.
Isothermal reactor design
Explores isothermal reactor design, including stoichiometry, rate laws, and MATLAB simulations, highlighting the tradeoff between reactivity and pressure drop.
Chemical Reaction Engineering: Algorithm and Stoichiometry
Explores the Chemical Reaction Engineering algorithm in batch reactors and CSTRs, focusing on stoichiometry and rate laws.
Chemical Reaction Engineering: Algorithmic Approach
Explores problem-solving algorithms for chemical reactor design and analysis, emphasizing the CRE approach and various reactor configurations.
Chemical reaction engineering: reactor design
Focuses on isothermal reactor design, covering mole balances, rate laws, stoichiometry, and pressure drop effects.
Reactor Analysis: Algorithm and Design
Covers the algorithm for reactor analysis and design, including isothermal reactor design, membrane reactors, and semibatch reactors.
Chemical Reaction Engineering: Isothermal Reactor Design
Covers the design of isothermal reactors for chemical reactions, focusing on stoichiometry, rate laws, and concentration as a function of conversion.
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.
