2

Multiphase Flow. Instructor: Prof. Gargi Das, Department of Chemical Engineering, IIT Kharagpur. This course introduces the fundamental concepts, principles, and application of multiphase flow.

FREE
This course includes
Hours of videos

1111 years

Units & Quizzes

40

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Certificate of Completion

The course opens with real life examples of such flow and its importance in process industries. In connection with gas-liquid two phase flow, different flow regimes and flow regime maps are discussed. Next, various analytical models are introduced to understand the hydrodynamics of different flow regimes. The phenomenon of choking is explained and relevant formulations are derived. The concept of bubble formation and bubble dynamics are presented. The important aspects of hydrodynamics of solid-liquid and gas-solid flows are also discussed. Hydrodynamics of three phase flows are analyzed and compared with two phase flow situations. Lastly various measurement techniques used for measuring pressure drop, void fraction and identification of flow patterns are introduced. (from nptel.ac.in)

Course Currilcum

  • Lecture 01 – Introduction Unlimited
  • Lecture 02 – Estimation of Flow Patterns Unlimited
  • Lecture 03 – Estimation of Flow Patterns (cont.) Unlimited
  • Lecture 04 – Flow Pattern Maps Fascinating Taylor Bubbles Unlimited
  • Lecture 05 – Definitions and Common Terminologies: Analysis of Two Phase Flows Unlimited
  • Lecture 06 – Definitions and Common Terminologies: Analysis of Two Phase Flows (cont.) Unlimited
  • Lecture 07 – Simple Analytical Methods Unlimited
  • Lecture 08 – The Homogeneous Flow Theory Unlimited
  • Lecture 09 – The Homogeneous Flow Theory (cont.) Unlimited
  • Lecture 10 – Compressible Flow: A Recapitulation Unlimited
  • Lecture 11 – Compressible Flow: A Recapitulation (cont.) Unlimited
  • Lecture 12 – Choked Flow Conditions for Homogeneous Flow Unlimited
  • Lecture 13 – Drift Flux Model I Unlimited
  • Lecture 14 – Drift Flux Model II Unlimited
  • Lecture 15 – Drift Flux Model III Unlimited
  • Lecture 16 – Drift Flux Model IV Unlimited
  • Lecture 17 – Separated Flow Model I Unlimited
  • Lecture 18 – Separated Flow Model II Unlimited
  • Lecture 19 – Separated Flow Model III Unlimited
  • Lecture 20 – Separated Flow Model: Condition of Choking Unlimited
  • Lecture 21 – Separated Flow Model: Condition of Choking (cont.) Unlimited
  • Lecture 22 – Separated Flow Model: Estimation of Frictional Pressure Drop and Void Fraction I Unlimited
  • Lecture 23 – Separated Flow Model: Estimation of Frictional Pressure Drop and Void Fraction II Unlimited
  • Lecture 24 – Separated Flow Model: Estimation of Frictional Pressure Drop and Void Fraction III Unlimited
  • Lecture 25 – Separated Flow Model: Estimation of Frictional Pressure Drop and Void Fraction IV Unlimited
  • Lecture 26 – Analysis of Specific Flow Regimes Unlimited
  • Lecture 27 – Analysis of Specific Flow Regimes (cont.) Unlimited
  • Lecture 28 – Analysis of Specific Flow Regimes: Slug Flow Unlimited
  • Lecture 29 – Two Phase Flow with Phase Change: An Introduction to Boiling Heat Transfer Unlimited
  • Lecture 30 – Bubble Growth Unlimited
  • Lecture 31 – Different Types of Nucleation Unlimited
  • Lecture 32 – Ebullition from Hot Surfaces Unlimited
  • Lecture 33 – Cycle of Bubble Growth and Departure Unlimited
  • Lecture 34 – Heat Transfer in Different Regimes of Boiling Unlimited
  • Lecture 35 – Heat Transfer in Different Regimes of Boiling (cont.) Unlimited
  • Lecture 36 – Critical Heat Flux, Film Boiling Unlimited
  • Lecture 37 – Measurement Techniques for Two-Phase Flow Parameters Unlimited
  • Lecture 38 – Measurement Techniques for Two-Phase Flow Parameters Unlimited
  • Lecture 39 – Measurement Techniques for Two-Phase Flow Parameters Unlimited
  • Lecture 40 – Measurement Techniques for Two Phase Flow Parameters Unlimited