Two-Phase Flow & Heat Transfer Course | IIT Roorkee | Prof. Arup Kumar Das
Course Details
| Exam Registration | 30 |
|---|---|
| Course Status | Ongoing |
| Course Type | Elective |
| Language | English |
| Duration | 4 weeks |
| Categories | Mechanical Engineering |
| Credit Points | 1 |
| Level | Undergraduate/Postgraduate |
| Start Date | 19 Jan 2026 |
| End Date | 13 Feb 2026 |
| Enrollment Ends | 02 Feb 2026 |
| Exam Registration Ends | 16 Feb 2026 |
| Exam Date | 28 Mar 2026 IST |
| NCrF Level | 4.5 — 8.0 |
Mastering Two-Phase Flow and Heat Transfer: A Comprehensive 4-Week Course by IIT Roorkee
Two-phase flow, involving the simultaneous movement of two distinct phases like gas-liquid or solid-liquid, is a cornerstone of modern engineering. From the steam generators in power plants to the cooling systems in your car and the processing of food and chemicals, understanding this complex phenomenon is critical for innovation and efficiency. If you're an engineering student or professional looking to build deep expertise in this vital field, a structured learning path is essential.
We are excited to highlight a detailed 4-week course titled "Two Phase Flow And Heat Transfer", instructed by Prof. Arup Kumar Das from the prestigious Indian Institute of Technology (IIT) Roorkee. This course is meticulously designed to bridge the gap between fundamental theory and cutting-edge industrial applications.
About the Instructor: Prof. Arup Kumar Das
Prof. Arup Kumar Das is an Assistant Professor in the Department of Mechanical and Industrial Engineering at IIT Roorkee. With over a decade of dedicated teaching and research in heat and mass transfer, his work focuses on the fundamental understanding of interfacial transport in both macro and micro-scale systems. His research has significant applications in energy, environment, and bio-systems.
Prof. Das has a strong publication record, having authored and co-authored more than 35 papers in high-impact journals from publishers like Springer, Royal Society of Chemistry, American Chemical Society, and Elsevier. His contributions to engineering sciences have been recognized with awards from esteemed bodies like the Indian National Science Academy (INSA) and the Indian National Academy of Engineers (INAE). Learning from an instructor of this caliber ensures you gain insights from the forefront of research.
Who Should Take This Course?
This course is tailored for a specific audience to maximize learning outcomes:
- Bachelor or Postgraduate students in Mechanical, Chemical, Aerospace, or Civil Engineering.
- Middle-level managers and engineers in industries where two-phase flow processes are prevalent.
Prerequisites: A foundational knowledge of Fluid Mechanics and Heat Transfer is recommended to fully grasp the course material.
Course Overview: Blending Experiment and Simulation
The course is strategically divided into two comprehensive segments, ensuring a holistic understanding:
- The Experimental Track: This section demystifies modern measurement techniques. You'll learn about the selection, installation, and application of advanced instruments like wire-mesh sensors and needle probes for void fraction measurement, along with essential data analysis tools.
- The Numerical Track: Dive into the world of Computational Fluid Dynamics (CFD) for multiphase flows. The focus is on finite-volume methods, covering key mathematical models like the Euler-Euler and Euler-Lagrange approaches, as well as interface-tracking methods.
This dual approach ensures you not only understand the theory but also know how to measure and model two-phase systems in real-world scenarios.
Detailed 4-Week Course Layout
| Week | Topics Covered |
|---|---|
| Week 1 | Introduction, Flow Regimes, Homogeneous Flow, Drift Flux Model, Separated Flow Model |
| Week 2 | Deep dive into Bubbly, Slug, Annular, and Stratified flows. Measurement of Void Fraction. |
| Week 3 | Signal Analysis, Two-Fluid & Population Balance Technique, Volume of Fluid (VOF) Method, Lattice Boltzmann Model, Smoothed Particle Hydrodynamics (SPH) |
| Week 4 | Introduction to Molecular Dynamics, Boiling & Condensation processes, Solid-Liquid Flow, Gas-Solid Flow |
Essential Reference Books
The course content is complemented by seminal texts in the field. Having these resources will greatly enhance your learning experience:
- Ghiaasiaan, S. M., Two-Phase flow, Boiling, and Condensation, Cambridge University Press
- Brennen, C.E., Fundamentals of Multiphase Flow, Cambridge University Press
- Collier, J. G. and Thome, J. R., Convective Boiling and Condensation, 3rd ed., Oxford University Press
- Wallis, G.B., One Dimensional Two Phase Flow, McGraw Hill
Industry Relevance and Support
The principles taught in this course are directly applicable in major global industries. The curriculum is developed with support and relevance to sectors represented by leading companies such as:
- General Electric (GE)
- General Motors (GM)
- Indian Oil Corporation Ltd. (IOCL)
- Hindustan Petroleum Corporation Ltd. (HPCL)
- Bharat Petroleum Corporation Ltd. (BPCL)
This industry alignment ensures that the skills you acquire are current, practical, and highly valued in the job market, whether you aim for a career in power generation, automotive, aerospace, oil & gas, or chemical processing.
Summary: This 4-week course on Two-Phase Flow and Heat Transfer is a unique opportunity to learn from an IIT Roorkee expert. It systematically covers from basic flow regimes to advanced numerical simulations, equipping you with both theoretical knowledge and practical skills crucial for academic and professional advancement in a wide array of engineering disciplines.
Enroll Now →