Universidad Pública de Navarra - Nafarroako Univertsitate Publikoa

Contents

Study of the conduction, convection and radiation heat transfer phenomena. General Heat Conduction Equation: convection and radiation boundary conditions. Convective coefficient estimation: dimensionless numbers. Thermal radiation study: laws, view factor, net radiation heat transfer.

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General proficiencies

CG1: Ability to develop and complete industrial engineering projects whose objective is to build, repair, maintain, install, and assemble structures, mechanical equipment, energy installations, electric and electronic installations, facilities, and production and assembly processes.

CG2: Project, calculate and design products, processes, facilities and plants.
CG3: Knowledge of basic and technological subjects to have the ability to learn new methods and theories, and versatility to adapt to new situations.

CG4: Problem solving proficiency with personal initiative, decision making, creativity and critical reasoning. Ability to elaborate and communicate knowledge, abilities and skills in industrial engineering.

CG5: Knowledge to perform measurements, calculations, assessments, appraisals, surveys, studies, reports, work plans and similar work.

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Specific proficiencies

CM3: Get applied thermal engineering knowledge.

CTA1: Ability to use, set and maintain thermal systems and equipment.

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Learning outcomes

After the training, the students is able to:

Acquire knowledge in matters related to thermotechnology

Solve heat transfer systems and apply their knowledge to the design and estimation of heat exchangers and insulation devices.

Acquire knowledge which would be the basis of future subjects related to heat transfer as a min phenomenon.

Express and communicate ideas related to thermal and heat transfer systems.

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Methodology

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Languages

English

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Evaluation

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Agenda

Chapter 1: Introduction

• Conduction heat transfer
• Convection heat transfer
• Radiation heat transfer
• Units and dimensions

Chapter 2: Steady one-dimensional heat conduction

• Plane wall
• Insulation and thermal resistance concept
• Heat conduction in cylinders and spheres
• Overall coefficient of heat transfer
• Critical Radius in insulation
• Heat flux sources
• Conduction-convection combined
• Finned surfaces

Chapter 3: Transient heat conduction

Chapter 4: Fundamentals of convection

• Laminar boundary layer in a flat plate
• Heat and Momentum Transfer in the boundary layer
• Nusselt and Prandtl numbers
• Thermal Boundary Layer

Chapter 5: Forced convection

• Empirical relations for internal flows
• External forced convection

Chapter 6: Natural convection

• Equation of motion in the boundary layer
• The Grashof and Rayleigh numbers
• Empirical relations for free convection

Chapter 7: Fundamentals of thermal radiation

• Thermal radiation
• Radiation laws
• Radiative properties
• Solar radiation

Chapter 8: Radiation heat transfer

• The View Factor
• View Factor relations
• Radiation heat transfer: black surfaces
• Radiation shields

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Bibliography

Access the bibliography that your professor has requested from the Library.

Reference books:

1. Heat and Mass Transfer: Fundamentals & Applicatons. Yunus A. Çengel, Adshin J. Ghajar
2. Heat Transfer. J. P. Holman
3. Heat Transfer. A. F. Mills
4. Calor y Frío Industrial; J. A. de Andrés, y Rodríguez-Pometa

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