Biegler, L.T., Grossmann, I.E., Westerberg, A.W. Systematic Methods for Chemical Process Design. Prentice Hall International Series in the Physical and Chemical Engineering Sciences, 1997. 

·     Edgar, T. F., Himmelblau, D. M., Lasdon, L. S. (2001). Optimization of chemical processes. 2ª ed, McGraw Hill, NY, EEUU.

·     Seborg, D.E., Edgar, T.F., Mellichamp, D.A. (2003). Process Dynamics and Control. Wiley & Sons, NY, EEUU.

·     Seider, W. D., Seader, J. D. y Lewin, D. R. (1999). Process design principles. Synthesis, analysis and evaluation. John Wiley & Sons, NY, EEUU.

Además, es recomendable consultar la siguiente bibliografía:

·     Agarwal, R., Li, Y. K. Santollani, O., Satyro, M. A., Vieler, A. (2001). Uncovering the realities of simulation-Part 2. Chem. Eng. Prog., 64-72.

·     AspenTech. (2007). Hysys.Plant reference manual. Aspen Technology, Ma, EEUU.

·     Biegler, L. T., Grossmann, I. E. y Westerberg, A. W. (1997). Systematic methods of chemical process design. Prentice Hall, NJ, EEUU.

·     Branan, C. Branon, C. (1998). Rules of thumb for chemical engineers: A manual of quick, accurate solutions to everyday process engineering problems. 2ª ed, Gulf Professional Publishing Company, NY, EEUU.

·     Brooke, A., Kendrick, D., Meeraus, A., Raman, R., Rosenthal, R.E. (1998). GAMS: a user’s guide. GAMS development corporation.

·     Carlson, E. C. (1996). Don’t gamble with physical properties for simulations. Chem. Eng. Prog., 92 (10), 35-46.

·     Coulson, J. M. y Richardson, J. F. (1994). Chemical engineering, vols. 1-6. Pergamon Press, Oxford, Reino Unido.

·     Cusack, R. G. Designing a separation process. Chem. Eng., 128-136 (1998).

·     Floudas, C. (1995). Nonlinear and mixed-integer optimization: fundamentals and applications. Oxford University Press, NY, EEUU.

·     Hanna, O. T. y Sandall, O. C. (1995). Computational methods in chemical engineering. Prentice-Hall, NJ, EEUU.

·     Horwitz, B. A. (1994). Don’t let startup or degugging problems bug you. Chem. Eng. Prog., 62-64.

·     Horwitz, B. A. (1996). Avoid nausea when solving dynamic problems, Chem. Eng. Prog., 92 (3), 44-51.

·     Horwitz, B. A. y Nocera, A. J. (1996). Are you “scotomatized” by your simulation software? Chem. Eng. Prog., 68-71.

·     Kister, H. Z. (1997). Does your simulation reflect the real world? Hydrocabon Processing, 103-109.

·     Mah, R. S. (1989). Chemical process structures and information flows. Butterworths, Ma, EEUU.

·     Perry, R. H. y Green, D. (1998). Perry's chemical engineers handbook. McGraw Hill, NY, EEUU.

·     Pollard, A. (1971). Process control for the chemical and allied fluid-processing industries. Heinemann, Londres, Reino Unido.

·     Press, W. H., Teukolsky, S. A., Vetterling, W. T., Flannery, B. P. (1992). Numerical recipes in FORTRAN. The art of scientific computing. 2ª ed., Cambridge University Press, Cambridge, Reino Unido.

·     Rardin, R. L. (1998). Optimization in operations research. Prentice Hall, Upper Saddle River,. Accesible (junto con programas de GAMS

®

) en: gilbreth.ecn.purdue.edu/~rardin/oorbook/ (octubre 2010).

·     Schad, R. C. (1998). Make the most of process simulation. Chem. Eng. Prog. 21-27.

·     Schad, R. C. Don’t let recycle streams stymie your simulations. (1994). Chem. Eng. Prog., 68-76.

·     Sowell, R. (1998). Why a simulation system doesn’t match the plant? Hydrocabon Processing, 102-107.

·     Vanderbei, R. J. (2001). Linear Programming. Foundations and Extensions. 2ª ed., Kluwer, Boston.

·     Westerberg, A. W., Hutchinson, H. P., Motard, R. L. y Winter, P. (1979). Process flowsheeting, Cambridge University Press. Cambridge, Reino Unido.