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Curso en el que se recomienda incorporar la reflexión sobre dilemas éticos. Curso en el que se recomienda incorporar las dimensiones del desarrollo sostenible. Curso en el que se recomienda incorporar el uso de tecnologías de información. |
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Disciplina asociada:Ingeniería Química |
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Escuela:
Ingeniería y Ciencias
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Departamento Académico:
Tecnologías Sostenibles y Civil
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Programas académicos: |
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Requisitos:(Haber Aprobado IQ3007 y Haber Aprobado IQ3003) |
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Equivalencia:IQ00881 |
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Intención del curso en el contexto general del plan de estudios: |
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Es un curso de nivel avanzado, que tiene la intención de que el alumno aprenda a diseñar un proceso químico, tomando en cuenta aspectos de ecoeficiencia y sostenibilidad, así como que aprenda a seleccionar el método de operación adecuado para el proceso y su capacidad de producción. Requiere conocimientos previos de transferencia de momentum y calor, procesos de separación e ingeniería de reactores. Como resultado del aprendizaje se espera que el alumno genere la ingeniería conceptual y básica de un proceso químico, así como su factibilidad económica. |
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Objetivo general de la Unidad de Formación: |
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Que el alumno sea capaz de: 1. Decidir y seleccionar el modo de operación de un proceso químico, ya sea por lotes, continuo o una combinación de ambos. 2. Seleccionar la ruta de reacción para un producto químico. 3. Generar la ingeniería conceptual y básica de un proceso. 4. Obtener la estimación de la inversión de capital y costo de producción del proceso. 5. Diseñar un proceso químico. 6. Calcular los costos de inversión de capital y manufactura. |
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Técnica didáctica sugerida: |
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| No especificado | |||||
Bibliografía sugerida: |
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LIBROS DE TEXTO: * Richard Turton, Richard C. Bailie, Wallace B. Whiting, Joseph A. Shaeiwitz, Analysis, Synthesis, and Design of Chemical Processes, Tercera edición, Prentice Hall, 2009, Inglés, 0-13-512966-4 LIBROS DE CONSULTA: * Coulson, J. M., Coulson & Richardson's chemical engineering, England : Oxford ; Boston : Butterworth-Heinemann, 2001, eng, 075064950x (v. 1) * Woods, Donald R., Process design and engineering practice, New Jersey : Englewood Cliffs, N.J. : PTR Prentice Hall, 1995, eng, 0138057559 * Woods, Donald R., Data for process design and engineering practice, New Jersey : Englewood Cliffs, N. J. : Prentice Hall, 1988, eng, 0133181499 * Allen, David T, Green engineering : environmentally conscious design of chemical processes, New Jersey : Upper Saddle River, NJ : Prentice Hall PTR, 2002, eng, 0130619086 * Peters, Max Stone, Plant design and economics for chemical engineers, 5th ed., New York : New York, N.Y. ; Boston, Mass. : McGraw-Hill, 1995, eng, 0071240446, 0072392665 (papel no ácido) * Douglas, James M. (James Merrill), Conceptual design of chemical processes, New York : New York : McGraw-Hill, 1988, eng, 0070177627 : $46.95 * Biegler, L. T., Systematic methods of chemical process design, New Jersey : Upper Saddle River, N. J.: Prentice Hall PTR, 1997, eng, 0134924223 |
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Perfil del Profesor: |
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(140701)Maestría en Ingeniería Química ; (140701)Doctorado en Ingeniería Química CIP: 140701 |
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Course in which it’s recommended to incorporate the reflection on ethical dilemmas. Course in which it’s recommended to incorporate the dimensions of the sustainable development. Course in which it’s recommended to incorporate the use of information technologies. |
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Discipline:Chemical Engineering |
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School:
Engineering and Sciences
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Academic Department:
Sustainable and Civil Technologies
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Programs: |
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Prerequisites:( IQ3007 and IQ3003) |
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Equivalences:IQ00881 |
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Course intention within the general study plan context: |
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This is an advanced course intended for students to learn how to design a chemical process, taking into account principles of eco-efficiency and sustainability, as well as to select the most suitable operating method for the process and its production capacity. Previous knowledge of momentum and heat transfer, separation processes and chemical reactor engineering is required. As a learning outcome the student will be able to generate the concept and basic engineering for a chemical process, as well as its economic feasibility. |
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Course objective: |
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Upon completion of this course, students will be able 1. to decide on and select the operating mode of a chemical process, either batch, continuous, or a combination of both; 2. to select the reaction pathway for a chemical product; 3. to generate the conceptual and basic engineering of a process; 4. to estimate the investment of capital and the production cost of the process; 5. to design a chemical process; and 6. to calculate the capital investment and manufacturing costs. |
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Teaching and learning tecniques: |
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| Not Specified | |||||
Suggested Bibliography: |
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TEXT BOOKS: * Richard Turton, Richard C. Bailie, Wallace B. Whiting, Joseph A. Shaeiwitz, Analysis, Synthesis, and Design of Chemical Processes, Tercera edición, Prentice Hall, 2009, Inglés, 0-13-512966-4 BOOKS FOR CONSULTATION: * Coulson, J. M., Coulson & Richardson's chemical engineering, England : Oxford ; Boston : Butterworth-Heinemann, 2001, eng, 075064950x (v. 1) * Woods, Donald R., Process design and engineering practice, New Jersey : Englewood Cliffs, N.J. : PTR Prentice Hall, 1995, eng, 0138057559 * Woods, Donald R., Data for process design and engineering practice, New Jersey : Englewood Cliffs, N. J. : Prentice Hall, 1988, eng, 0133181499 * Allen, David T, Green engineering : environmentally conscious design of chemical processes, New Jersey : Upper Saddle River, NJ : Prentice Hall PTR, 2002, eng, 0130619086 * Peters, Max Stone, Plant design and economics for chemical engineers, 5th ed., New York : New York, N.Y. ; Boston, Mass. : McGraw-Hill, 1995, eng, 0071240446, 0072392665 (papel no ácido) * Douglas, James M. (James Merrill), Conceptual design of chemical processes, New York : New York : McGraw-Hill, 1988, eng, 0070177627 : $46.95 * Biegler, L. T., Systematic methods of chemical process design, New Jersey : Upper Saddle River, N. J.: Prentice Hall PTR, 1997, eng, 0134924223 |
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Academic credentials required to teach the course: |
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(140701)Master Degree in Chemical Engineering and (140701)Doctoral Degree in Chemical Engineering CIP: 140701 |
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