Temperature (Conduction) 20-25 min Experience the difference between heat and temperature and compare the effects of mass and material on heat transfer
Goals: 1 Students will understand how to visualize and explore the three types of heat transfer: conduction, convection, and radiation
MS-ESS2-6: Develop and use a model to describe how unequal heating and rotation of the Earth cause patterns of atmospheric and oceanic circulation that
The lesson plan will be an investigation to help students develop an accurate scientific understanding of heat transfer Lesson Objective
UNIT I CONDUCTION 11+3 Basic Concepts – Mechanism of Heat Transfer – Conduction, Convection and Radiation – Fourier Law of Conduction - General
BYU – ChE 376 – Hands On Demonstrations of Basic Heat Mass Transfer Principles Heat and Mass Transfer A Resource for Science Fair Project Ideas
BYU – ChE 376 – Hands On Demonstrations of Basic Heat Mass Transfer Principles Briefly decide which mass transfer ideas to emphasize
This lesson is one of three lessons relating heat transfer to Molecules do not have mass because they are too small LESSON PLAN – 5-E Model
We have integrated inductive learning into our coverage of heat transfer and mass transfer In heat transfer, for example, simple heat exchanger design is the
ALANGULAM DEPARTMENT OF MECHANICAL ENGINEERING MICRO LESSON PLAN SUBJECT : HEAT AND MASS TRANSFER CODE : ME2251
Heat Transfer Lesson Plan Page 2 compare the effects of mass and material on heat transfer By the end of this lesson, students should be able to
a number of misconceptions about heat transfer: 1) Temperature is a property of a controls to explore variables such as different heat and mass flows in two-
BYU – ChE 376 – Hands On Demonstrations of Basic Heat Mass Transfer Principles Heat and Mass A Resource for Science Fair Project Ideas Prepared by the 2011 Then have them stand further apart and repeat the activity Note the
Heat Transfer: Basic equations of heat transfer: Energy balance equation, Rate Dynamic Considerations: Formulation for point mass, Consistent element mass Discuss interpolation models for different applications Lesson Plan: Lesson
STAFF
Mr. K.RAMSANKAR, Asst.Prof,
L T P C
UNIT I CONDUCTION 11+3
Basic Concepts Mechanism of Heat Transfer Conduction, Convection and Radiation Fourier Law of Conduction - General Differential equation of Heat Conduction Cartesian and Cylindrical Coordinates One Dimensional Steady State Heat Conduction Conduction through Plane Wall, Cylinders and Spherical systems Composite Systems Conduction with Internal Heat Generation Extended Surfaces Unsteady Heat Conduction Lumped Analysis Use ofUNIT II CONVECTION 10+3
Basic Concepts Heat Transfer Coefficients Boundary Layer Concept Types of Convection Forced Convection Dimensional Analysis External Flow Flow over Plates, Cylinders and Spheres Internal Flow Laminar and Turbulent Flow Combined Laminar and Turbulent Flow over Bank of tubes Free Convection Dimensional Analysis Flow over Vertical Plate, Horizontal Plate, Inclined Plate, Cylinders and Spheres. UNIT III PHASE CHANGE HEAT TRANSFER AND HEAT 9+3 EXCHANGERS Nusselts theory of condensation-pool boiling, flow boiling, correlations in boiling and condensation. Types of Heat Exchangers Heat Exchanger Analysis LMTD Method and NTU - Effectiveness Overall Heat Transfer Coefficient Fouling Factors.UNIT IV RADIATION 8+3
Basic Concepts, Laws of Radiation Stefan Boltzman Law, Kirchoffs Law Black Body Radiation Grey body radiation -Shape Factor Algebra Electrical Analogy Radiation ShieldsUNIT V MASS TRANSFER 7+3
Basic Concepts Diffusion Mass Transfer