Herramientas Personales


Acciones de Documento
  • Enviar esto
  • Imprimir esto
  • Content View
  • Bookmarks

Ver Bibliografía en formato pdf


Textbooks particularly recomended

  • Biegler, L., Grossmann, I., Westerberg, A., Systematic methods of chemical process design. Prentice Hall, 1997.
  • Douglas J., Conceptual Design of Chemical Processes, McGraw-Hill. 1988.
  • Seider, W., Seader, J., Lewin, D., Widadgo, S., Product & Process Design Principles. 3rd  Ed. John Wiley & Sons. 2010.
  • Cussler, E., Moggridge, G., Chemical Product Design. Cambridge. University Press. 2001.


Other textooks with modern approaches to Process Design

  • Sinnot, R., Towler, G., Chemical Engineering Design. 5th Ed. Coulson & Richardson´s Chemical Engineering Series. Elsevier. 2009.
  • Erwin, D., Industrial Chemical Process Design. McGraw-Hill, 2002.
  • Turton, R., Bailie R., Whiting, W., Shaeiwitz, J., Analysis, Synthesis and Design of Chemical Processes, Prentice Hall PTR. 2003.


Economic Aspects

  • Peter, M., Timmerhaus, K., West, R., Plant Design and Economics for Chemical Engineers, 5th Ed., McGraw-Hill. 2005.
  • Valle-Riestra, J., Project Evaluation in the Chemical Process Industries, McGraw-Hill. 1983.


Rules of Thumbs

  • Branan C., (Ed.), Rules of Thumbs for Chemical Engineers. 4th Ed. Elsevier. 2005.
  • Jones D., Elements of Chemical Process Engineering, John Wiley&Sons. 1997.
  • Ulrich G., Vasudevan P., 2nd Ed. A Guide to Chemical Engineering Process Design and Economics. John Wiley & Sons. 2004.


Product design

  • Wei, J., Product Engineering—Molecular Structure and Property, Oxford University Press. 2007.


Chemical Engineering Design Project. Case Study Approach

  • Ray, M., Sneesby, M., Production of Phatalic Anhydride, 2nd Ed., Gordon Breach Science Publishers. 1998.
  • Ray, M., Johnston, D., The Manufacture of Nitric Acid., Gordon Breach Science Publishers. 1989.


CACHE Process Design Case Study Series (http://www.cache.org/)

  • Vol 1: Separation system for recovery of ethylene and light products from a Naptha pyrolysis gas steam. 
  • Vol 2: Design of an ammonia synthesis plant. 
  • Vol 3: Design of an ethanol dehydrogenation plant. 
  • Vol 4: Alternative fermentation processes for ethanol production and economic analysis. 
  • Vol 5: Retrofit of a heat exchanger network and design of a multiproduct batch plant.
  • Vol 6. Chemical engineering optimization models with GAMS. 
  • Vol 7. Design of an ethylbenzene production plant. 
  • Vol 8. Nitrogen from air (Version on-line).
  • Vol 9. Conceptual Design of Second Generation Bioethanol Production via Gasification of Lignocellulosic Biomass.


Textbooks in Spanish Language

  • Branan C., (Ed.), Soluciones prácticas para el Ingeniero Químico. 2ª Ed. McGraw-Hill. 2000.
  • Happel, J., Jordan D., Economía de los Procesos Químicos. 2ª Ed. Reverté. 1981.
  • Jimenez-Gutierrez, A., Diseño de Procesos en Ingeniería Química. Editorial Reverté, S.A. 2003.
  • Puigjaner, L., Ollero, P., De Prada, C., Jimenez, L., Estrategias de modelado, simulación y optimización de procesos químicos. Editorial Síntesis. 2006.
  • Roberts, R., Serendipia: Descubrimientos accidentales en la ciencia. Alianza Ed. 2010.


Encyclopedias and Handbooks on Chemical Engineering

  • Kirk, R.E., Othmer, D.F., Enciclopedia de tecnología química. México. Unión Tipográfica Ed. Hispano-Americana,1961.
  • Mcketta, J.J., Encyclopedia of chemical processing and design. New York; Basel Marcel Dekker, cop. 1976-2002.
  • Ullmann, F. Ullmann's encyclopedia of industrial chemistry 6th ed., electronic release. Weinheim. Wiley-Vch, 1999.


Chemical Engineering Design Project. Case Study Approach

  • Ray M., Sneesby M., 1998, Production of Phtalic Anhydride, 2nd Ed., Gordon Breach Science Publishers.
  • Ray M., Johnston D., 1989, The Manufacture of Nitric Acid, Gordon Breach Science Publishers.
  • CACHE Process Design Case Study Series. http://www.che.utexas.edu/cache/casestudy.html.


Further Reading and References

  • Carrillo-Hermosilla, J., del Río González, P. Könnölä, T., 2009, Eco-innovation: When Sustainability and Competitiveness Shake Hands. Palgrave Macmillan
  • Doherty, M., Malone, M., 2003, Conceptual Design of Distillation Systems. 1st ed. Tata McGraw Hill Education.
  • Dupont, R., Theodore, L., Ganesan, K., 2000, Pollution Prevention. CRC Press LLC. 
  • El-Halwagi, M.M, 1997, Pollution prevention through process integration. Academic Press.
  • Floudas, C.A., Ciric, A.R., Grossmann, I.E., 1986, Automatic synthesis of optimum heat exchanger network configurations. AIChE Journal, 32 (2), pp. 276-290.
  • Galan, B., Grossmann, I.E., 1998, Optimal design of distributed wastewaters treatment networks. Industrial and Engineering Chemistry Research, 37 (10), pp. 4036-4048. 
  • Galán, B., Grossmann, I.E., 2011.Optimal design of real world industrial wastewater treatment networks. European Symposium on Computer-Aided Process Engineering ESCAPE-21. E.N. Pistikopoulos, M.C. Georgiadis and A.C. Kokossis (Editors).
  • Graedel, T., Howard-Grenville, J.A., 2005, Greening the Industrial Facility. Springer. 
  • Grossmann, I.E., Guillén-Gosálbez, G., 2010, Scope for the application of mathematical programming techniques in the synthesis and planning of sustainable processes. Computers and Chemical Engineering 34,1365–1376.
  • Hendrickson, C., Lave, L., Matthews, S., 2006, Environmental Life Cycle Assessment of Goods and Services. RFF. 
  • Joback K.G., Reid R.C., 1987, Estimation of Pure-Component Properties from Group Contributions, Chemical Engineering Communications, 57, 233-243.
  • Kemp, I., 2007, Pinch Analysis and Process Integration. 2nd Ed. Elsevier.
  • Korevaar, G., Harmsen, G., Lemkowitz, S., 2005, Sustainable Technology. TUDelft. 
  • Majozi, T., 2010, Batch Chemical Process Integration. Analysis, synthesis and optimization. Springer.
  • Nakamura, S., Kondo, Y., 2009, Waste Input-Output Analysis. Concepts and Application to Industrial ecology. Springer.
  • Ng, K., Gani, R., Dam-Johansen, K., (eds.), 2007, Chemical Product Design: Toward a Perspective through Case Studies, Elsevier.
  • Nhakore, S.B., Bhatt, B.I., 2007, Introduction to Process Engineering and Design 1st ed. Tata McGraw Hill Education.
  • Nimitz, J., Skaggs, S., 1992, Estimating tropospheric lifetimes and ozone-depletion potentials of one-and two-carbon hydrofluorocarbons and hydrochlorofluorocarbons. Environmental Science and Technology, 26 (4), 639-744.
  • OECD, 2009, Eco-innovation in Industry. Enabling green growth. OECD.
  • Papoulias, S., Grossmann, I.E., 1983a, A structural optimization approach in Process Synthesis-I: Utility Systems. Computer and Chemical Engineering, 7, 695.
  • Papoulias, S., Grossmann, I.E., 1983b, A structural optimization approach in Process Synthesis-I: Heat recovery network. Computer and Chemical Engineering, 7, 707.
  • Papoulias, S., Grossmann, I.E., 1983c, A structural optimization approach in Process Synthesis-III: Total Processing Systems. Computer and Chemical Engineering, 7, 723.
  • Poling, B., Prausnitz, J., Connell, J., 2001, Properties of Gases and Liquids, 5th ed., McGraw-Hill, NY.
  • Seader, J.D. Westerberg, A.W., 1977, A combined heuristic and evolutionary strategy for synthesis of simple separation sequences. AIChE Journal, 23, 951.
  • Smith, R.M., 2005, Chemical Process: Design and Integration. John Wiley & Sons.
  • Treybal, R., 1980, Mass Transfer Operations. 2nd  Ed. McGraw Hill.
  • Tyler Miller, G., 2007, Living in the Environment: Principles, Connections, and Solutions, 15th   Edition. Thomson.
  • van Krevelen, D.W., 1990, Properties of polymers. Elsevier, Amsterdam.
  • Yee, T., Grossmann, I., 1990, Simultaneous optimization models for heat integration-II. Heat exchangers networks synthesis. Computers and Chemical Engineering 14,10,1165-1184.


Copyright 2014, por los autores de los cursos. Cite/attribute Resource. Fuente, J. R. V., Fuente, J. R. V. (2011, July 08). Bibliografía. Retrieved August 20, 2017, from OCW Universidad de Cantabria Web site: http://ocw.unican.es/ensenanzas-tecnicas/procesos-quimicos-de-fabricacion/bibliografia. Esta obra se publica bajo una licencia Creative Commons 4.0. Creative Commons 4.0