Скачать или смотреть HEAT AND MASS TRANSFER PYQ SOLUTION | Convection, Boiling & Condensation

📘 Heat Transfer Numericals | Convection, Boiling & Condensation | Mechanical Engineering

In this video, we solve important numericals from the topic of Convection Heat Transfer, Boiling, and Condensation. This will help students understand step-by-step problem solving for university exams, GATE, ESE, and competitive exams.

problem statement - The local atmospheric pressure in Denver, Colorado (elevation 1610 m),
is 83.4 kPa. Air at this pressure and 20°C flows with a velocity of 8 m/s
over a 1.5 m × 6 m flat plate whose temperature is 140°C (Figure).
Determine the rate of heat transfer from the plate if the air flows parallel to
the (i) 6 m long side and (ii) the 1.5 m side..

🔑 Topics of Numericals Covered:

✔️ Local & Average Heat Transfer Coefficient
✔️ Flat Plate & Pipe Flow – Hydrodynamic & Thermal Boundary Layers
✔️ Forced Convection – Empirical Correlations (Flat Plate, Pipe, Cylinder, Sphere, Tube Banks)
✔️ Free Convection – Vertical/Horizontal Surfaces, Cylinder, Sphere
✔️ Mixed Convection
✔️ Boiling – Types, Pool Boiling Regimes, Critical Heat Flux
✔️ Condensation – Film-wise & Drop-wise

🎯 Best for:

Mechanical Engineering Students

Carry On Study (University Exam Preparation)

GATE & ESE Aspirants

Quick Revision of Heat Transfer Numericals

✨ Don’t forget to Like 👍, Share 🔄 & Subscribe 🔔 to Engineer Explained for more numerical solutions and study help in Mechanical Engineering.

📌 Tags (use in description & upload box)

heat transfer numericals, convection numericals, forced convection problems, free convection problems, boiling and condensation numericals, mechanical engineering heat transfer, heat transfer flat plate pipe flow numericals, boundary layer numericals, critical heat flux numericals, film wise condensation, drop wise condensation, GATE heat transfer numericals, ESE heat transfer numericals, carry on study heat transfer, mechanical engineering numericals, university exam heat transfer problems