Materia No Vigente |
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Disciplina asociada:Ingeniería Mecánica |
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Escuela:
Por definir
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Departamento Académico:
Por definir
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Programas académicos: |
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Requisitos:(Haber Aprobado MA00841) |
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Equivalencia:No tiene. |
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Intención del curso en el contexto general del plan de estudios: |
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Objetivo general de la Unidad de Formación: |
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Definiciones: estado, procesos y ciclos; densidad, viscosidad y flujo. Definición de sustancia pura y de fase. Fases de una sustancia pura. Diagramas de propiedades para una sustancia pura. Presión de vapor, humedad relativa, razón de humedad. Temperatura de bulbo húmedo y la carta psicrométrica. Calor específico a presión y a volumen constante. | |||||
Técnica didáctica sugerida: |
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No especificado | |||||
Bibliografía sugerida: |
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LIBROS DE TEXTO: * Yunus A. Cengel/ Robert H. Turner, Fundamentals of Thermal-Fluid Sciences, First Edition, McGrawHill, * Cengel, Yunus, A., Fundamentals of Thermal-Fluid Sciences, Mc Graw Hill, 2001, * C¸engel, Yunus A., Heat transfer : a practical approach, 2nd ed., Boston : McGraw-Hill, c2003., 0072458933 (acid-free paper)0071151508 |
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Perfil del Profesor: |
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(141901)Maestría en Ingeniería Mecánica ; (141901)Doctorado en Ingeniería Mecánica ; (140701)Maestría en Ingeniería Química ; (140701)Doctorado en Ingeniería Química CIP: 141901, 140701 |
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Discipline:Mechanical Engineering |
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School:
Undefined
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Academic Department:
Undefined
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Programs: |
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Prerequisites:( MA00841) |
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Equivalences:None. |
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Course intention within the general study plan context: |
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Course objective: |
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Definitions: estate, process and cycles, density, viscosity and flow. Definition of pure substance and phase. Phases of a pure substance. Diagrams of properties for a pure substance. Vapor pressure, relative humidity, humidity ratio. Wet bulb temperature and psychrometric chart. Specific heat at constant pressure and constant volume. Heat transfer: conduction, convection, radiation: a review. Heat transfer on moving boundaries. Fist law of thermodynamics for closed and open systems. Bernoulli equation. Line of hydraulic gradient and total energy. Second law of thermodynamics. Definition of entropy. Basic considerations for the analysis of cycles. P-V and T-V diagrams. Net work and efficiency. Rankine cycle. Refrigeration cycle. Coefficient of performance. Manufacture of electronic equipment. Cooling by conduction and forced convection. Cooling with liquids and immersion. | |||||
Teaching and learning tecniques: |
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Not Specified | |||||
Suggested Bibliography: |
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TEXT BOOKS: * Yunus A. Cengel/ Robert H. Turner, Fundamentals of Thermal-Fluid Sciences, First Edition, McGrawHill, * Cengel, Yunus, A., Fundamentals of Thermal-Fluid Sciences, Mc Graw Hill, 2001, * C¸engel, Yunus A., Heat transfer : a practical approach, 2nd ed., Boston : McGraw-Hill, c2003., 0072458933 (acid-free paper)0071151508 |
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Academic credentials required to teach the course: |
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(141901)Master Degree in Mechanical Engineering and (141901)Doctoral Degree in Mechanical Engineering and (140701)Master Degree in Chemical Engineering and (140701)Doctoral Degree in Chemical Engineering CIP: 141901, 140701 |
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