Heat And Mass Transfer - HMT

Simpliv

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Online

£ 10 + VAT

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Description

  • Type

    Course

  • Methodology

    Online

  • Start date

    Different dates available

Learn about Conduction, Convection, Radiation and Heat exchangers in a most comprehensive and interactive way. Derivations of formulas, concepts, Numerical, examples are inculcated in the course with advance applications. The course aims at covering all the topics and concepts of HMT as per academics of students. Following are the topics (in detail) that will be covered in the course.ConductionThermal conductivity, Heat conduction in gases, Interpretation Of Fourier's law, Electrical analogy of heat transfer, Critical radius of insulation, Heat generation in a slab and cylinder, Fins, Unsteady/Transient conductionConvectionForced convection heat transfer, Reynold’s Number, Prandtl Number, Nusselt Number, Incompressible flow over flat surface, HBL, TBL, Forced convection in flow through pipes and ducts, Free/Natural convectionHeat ExchangersTypes of heat exchangers, First law of thermodynamics, Classification of heat exchangers, LMTD for parallel and counter flow, NTU, Fouling factorRadiationAbsorbtivity, Reflectivity, Transmitivity, Laws of thermal radiation, Shape factor, Radiation heat exchange" Also, the first two lectures are FREE previews. This above syllabus has been discussed there as well a preliminary idea of various modes of heat transfer is also discussed." Do watch them first prior to joining the course.

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Online

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Different dates availableEnrolment now open

About this course

Modes of heat transfer and Governing laws of heat transfer
Thermal conductivity, Heat conduction in gases
Interpretation Of Fourier's law, Electrical analogy of heat transfer, Critical radius of insulation
Heat generation in a slab and cylinder, Fins, Unsteady/Transient conduction
Forced convection heat transfer, Reynold’s Number, Prandtl Number, Nusselt Number
Incompressible flow over flat surface, HBL, TBL, Forced convection in flow through pipes and ducts, Free/Natural convection
Types of heat exchangers, First law of thermodynamics, Classification of heat exchangers
LMTD for parallel and counter flow HE, NTU, Fouling factor
Absorbtivity, Reflectivity, Transmitivity, Laws of thermal radiation, Shape factor, Radiation heat exchange

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This centre's achievements

2021

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The average rating is higher than 3.7

More than 50 reviews in the last 12 months

This centre has featured on Emagister for 4 years

Subjects

  • Law
  • Heat Transfer
  • Electrical
  • IT Law
  • Interpretation

Course programme

Introduction 2 lectures 26:49 Modes of heat transfer There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. Governing laws of heat transfer Introduction 2 lectures 26:49 Modes of heat transfer There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. Governing laws of heat transfer Modes of heat transfer There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. Modes of heat transfer There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. Modes of heat transfer There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. Modes of heat transfer There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. There are three modes of heat transfer namely conduction, convection and radiation. Conduction : Conduction refers to the heat transfer that occurs across the medium. Medium can be solid or a fluid. Convection : Convection refers to the heat transfer that will occur between a surface and a moving fluid when they are at different temperatures. Radiation : In radiation, in the absence of intervening medium, there is net heat transfer between two surfaces at different temperatures in the form of electromagnetic waves. Governing laws of heat transfer Governing laws of heat transfer Governing laws of heat transfer Governing laws of heat transfer Conduction 18 lectures 01:58:01 Thermal conductivity Heat conduction in gases Interpretation Of Fourier's law Electrical analogy of heat transfer Conduction heat transfer through composite slab Conduction-convection heat transfer through composite slab Radial conduction through hollow cylinder Radial conduction through composite cylinder Radial conduction-convection heat transfer through composite cylinder Critical radius of insulation Radial conduction through hollow sphere. Derivation of generalized heat conduction equation Heat generation in a slab Heat generation in a cylinder Fins Analysis of rectangular fins Fin efficiency and effectiveness Unsteady/Transient conduction Conduction. 18 lectures 01:58:01 Thermal conductivity Heat conduction in gases Interpretation Of Fourier's law Electrical analogy of heat transfer Conduction heat transfer through composite slab Conduction-convection heat transfer through composite slab Radial conduction through hollow cylinder Radial conduction through composite cylinder Radial conduction-convection heat transfer through composite cylinder Critical radius of insulation Radial conduction through hollow sphere. Derivation of generalized heat conduction equation Heat generation in a slab Heat generation in a cylinder Fins Analysis of rectangular fins Fin efficiency and effectiveness Unsteady/Transient conduction Thermal conductivity Thermal conductivity Thermal conductivity Thermal conductivity Heat conduction in gases Heat conduction in gases Heat conduction in gases Heat conduction in gases Interpretation Of Fourier's law Interpretation Of Fourier's law Interpretation Of Fourier's law Interpretation Of Fourier's law Electrical analogy of heat transfer Electrical analogy of heat transfer Electrical analogy of heat transfer Electrical analogy of heat transfer Conduction heat transfer through composite slab Conduction heat transfer through composite slab Conduction heat transfer through composite slab Conduction heat transfer through composite slab Conduction-convection heat transfer through composite slab Conduction-convection heat transfer through composite slab Conduction-convection heat transfer through composite slab Conduction-convection heat transfer through composite slab Radial conduction through hollow cylinder Radial conduction through hollow cylinder Radial conduction through hollow cylinder Radial conduction through hollow cylinder Radial conduction through composite cylinder Radial conduction through composite cylinder Radial conduction through composite cylinder Radial conduction through composite cylinder Radial conduction-convection heat transfer through composite cylinder Radial conduction-convection heat transfer through composite cylinder Radial conduction-convection heat transfer through composite cylinder Radial conduction-convection heat transfer through composite cylinder Critical radius of insulation Critical radius of insulation Critical radius of insulation Critical radius of insulation Radial conduction through hollow sphere. Radial conduction through hollow sphere. Radial conduction through hollow sphere. Radial conduction through hollow sphere ng Thermal boundary layer - TBL Thermal boundary layer - TBL Thermal boundary layer - TBL Thermal boundary layer - TBL Energy balance for differential control volume of TBL Energy balance for differential control volume of TBL Energy balance for differential control volume of TBL Energy balance for differential control volume of TBL Momentum equation of HBL & energy equation of TBL Momentum equation of HBL & energy equation of TBL Momentum equation of HBL & energy equation of TBL Momentum equation of HBL & energy equation of TBL Forced convection in flow through pipes and ducts Forced convection in flow through pipes and ducts ...

Additional information

Must have a sound knowledge of differentiation and integration Preliminary idea of electrical analogy like current, potential difference, resistance Thermodynamic processes as such adiabatic, constant pressure and isothermal

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Heat And Mass Transfer - HMT

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