Heat Transfer Detailed Syllabus for B.Tech third year second sem is covered here. This gives the details about credits, number of hours and other details along with reference books for the course.<\/p>\n
The detailed syllabus for Heat Transfer B.Tech 2016-2017 (R16) third year second sem is as follows.<\/p>\n
B.Tech. III Year II Sem. \u00a0 L\/T\/P\/C Course Objectives:<\/strong> To provide knowledge about application of conduction, convection and\u00a0radiation heat transfer concepts to different practical applications<\/p>\n Course Outcome:<\/strong> At the end of this course, student will be able to<\/p>\n UNIT \u2013 I :\u00a0<\/strong>Introduction: Modes and mechanisms of heat transfer \u2013 Basic laws of heat transfer \u2013\u00a0General discussion about applications of heat transfer.\u00a0Conduction Heat Transfer: Fourier rate equation \u2013 General heat conduction equation in\u00a0Cartesian, Cylindrical and Spherical coordinates \u2013 simplification and forms of the field\u00a0equation \u2013 steady, unsteady, and periodic heat transfer \u2013 Initial and boundary conditions\u00a0One Dimensional Steady State Conduction Heat Transfer: Homogeneous slabs, hollow\u00a0cylinders, and spheres- Composite systems\u2013 overall heat transfer coefficient \u2013 Electrical\u00a0analogy \u2013 Critical radius of insulation<\/p>\n UNIT \u2013 II :<\/strong>\u00a0One Dimensional Steady State Conduction Heat Transfer: Variable Thermal conductivity\u00a0\u2013 systems with heat sources or Heat generation-Extended surface (fins) Heat Transfer \u2013 Long\u00a0Fin, Fin with insulated tip and Short Fin, Application to error measurement of Temperature\u00a0One Dimensional Transient Conduction Heat Transfer: Systems with negligible internal\u00a0resistance \u2013 Significance of Biot and Fourier Numbers \u2013Infinite bodies- Chart solutions of\u00a0transient conduction systems- Concept of Semi infinite body.<\/p>\n UNIT \u2013 III :\u00a0<\/strong>Convective Heat Transfer: Classification of systems based on causation of flow, condition\u00a0of flow, configuration of flow and medium of flow \u2013 Dimensional analysis as a tool for\u00a0experimental investigation \u2013 Buckingham \uf050 Theorem and method, application for\u00a0developing semi \u2013 empirical non- dimensional correlation for convection heat transfer \u2013\u00a0Significance of non-dimensional numbers \u2013 Concepts of Continuity, Momentum and Energy\u00a0Equations \u2013 Integral Method as approximate method -Application of Von Karman Integral\u00a0Momentum Equation for flat plate with different velocity profiles.\u00a0Forced convection: External Flows: Concepts about hydrodynamic and thermal boundary\u00a0layer and use of empirical correlations for convective heat transfer -Flat plates and Cylinders.<\/p>\n
\nCourse Code:ME603PC \u00a0 \u00a0 \u00a0 4\/1\/0\/4
\nNote:<\/strong> Heat Transfer Data Book is permitted.
\nPre-requisite:<\/strong> Thermodynamics<\/p>\n\n