Chemical Engineering Thermodynamics (CM302)-Chemical Engineering (III-Semester) | RGPV

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• Syllabus

• Syllabus - Chemical Engineering Thermodynamics (CM302)

• Basic concepts of work & heat system, properties and state of systems; first law of thermodynamics; application, batch flow processes; steady & unsteady state flow.

• Introduction to Work & Heat Systems
• Properties and State of Systems
• First Law of Thermodynamics
• Batch Flow Processes
• Steady & Unsteady State Flow

• Critical properties corresponding state compressibility, PVT behavior of pure fluids viral equation, cubic equation, generalized correlation & eccentric factor, behavior of liquid, second law of T.D, & its application.

• Critical Properties and State Compressibility
• PVT Behavior of Pure Fluids
• Viral and Cubic Equations
• Generalized Correlation & Eccentric Factor
• Behavior of Liquid
• Second Law of Thermodynamics

• Adiabatic reactions, Equilibrium in homogeneous and heterogeneous reactions.

• Adiabatic Reactions
• Equilibrium in Homogeneous and Heterogeneous Reactions

• Carnot cycle, Carnot theorem, thermodynamics temperature scales, concept of entropy, calculation of entropy for various systems, entropy for real system.

• Carnot Cycle and Theorem
• Thermodynamics Temperature Scales
• Concept and Calculation of Entropy
• Entropy for Real System

• Effect of pressure on specific heat, Joule Thompson effect, third law of thermodynamics & its applications.

• Effect of Pressure on Specific Heat
• Joule Thompson Effect
• Third Law of Thermodynamics

• Compression & expansion of fluids; single stage, multiple stage requirements & efficiency along with effect & engineering along with effects clearance, compression of real gas.

• Compression & Expansion of Fluids
• Single Stage and Multiple Stage Requirements
• Efficiency and Effect in Engineering
• Effects Clearance and Compression of Real Gas