Page 346 - Sustainability in the Process Industry Integration and Optimization

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Bibl iog r aph y 323

BAT-CENTRE, 2009. Vito’s Centre for Best Available Techniques. <www.emis.vito.
be/vito%E2%80%99s-centre-best-available-techniques-bat-centre> (accessed
30 April 2010).
Bébar, L., Čaněk, J., Kermes, V., Stehlík, P., Oral, J., 2001. Low NO burners—Recent
x
development, equipment, experience, modelling. International Conference on
Incineration and Thermal Treatment Technologies (Philadelphia, 14–18 May).
College Park: University of Maryland Press.
Bébar, L., Martinák, P., Hájek, J., Stehlík, P., Hajný, Z., Oral, J., 2002. Waste to energy
in the field of thermal processing of waste. Applied Thermal Engineering, 22,
897–906.
Bertok, B., Friedler, F., Feng, G., Fan, L. T., 2001. Systematic generation of the optimal
and alternative flowsheets for azeotropic distillation systems. Computer Aided
Chemical Engineering, 9, S351–S356.
Biegler, L. T., Grossmann, I. E., Westerberg, A. W., 1997. Systematic methods of
chemical process design. Englewood Cliffs, NJ: Prentice-Hall.
Björk, K., M., Westerlund, T., 2002. Global optimization of heat exchanger network
synthesis problems with and without the isothermal mixing assumption.
Computers & Chemical Engineering, 26(11), 1581–1593.
Blomquist, P. A., Brown N. J., 2004. A review of the pre-assessment and assessment
techniques used in waste minimisation audits. Water SA, 30(2), 131–141.
Bochenek, R., Jezowski, J., Jezowska, A., 1998. Retrofitting flexible heat exchanger
networks—Optimization vs. sensitivity tables method. CHISA '98/ 1st
Conference PRES '98 (Prague), lecture F1. Prague: Czech Society of Chemical
Engineering.
Boiler Cost (MATCHES), 2003. <www.matche.com/EquipCost/Boiler.htm>
(accessed 15 September 2009).
BREF, 2006. Reference Document on Best Available Techniques in Food, Drink and
Milk Industries (Seville, Spain). <ftp.jrc.es/pub/eippcb/doc/fdm_bref_0806.
pdf> (accessed 26 December 2009).
Brooke, A., Kendrick, D., Meeraus, A. A., 1992. GAMS—A user’s guide, release 2.25.
San Francisco: Scientific Press.
Brown, M., Ulgiati, S., 2004. Energy quality, emergy, and transformity: H.T. Odum’s
contributions to quantifying and understanding systems. Ecological Modelling,
178(1–2), 201–213.
Bumble, S., 1999. Computer generated physical properties. Boca Raton, FL: CRC Press.
CADDET [Center for the Analysis and Dissemination of Demonstrated Energy
Technologies], 1994. Integrated Heat Recovery in a Malt Whisky Distillery.
Project no. UK-94-509.
CAPE, 2009. Working Party of Computer Aided Process Engineering, European
Federation of Chemical Engineering. <www.cape-wp.eu> (accessed 10
January 2009).
Carbon Trust, 2009. <www.carbontrust.com> (accessed 26 December 2009).
Casani, S., Rouhany, M., Knøchel, S., 2005. A discussion paper on challenges and
limitations to water reuse and hygiene in the food industry. Water Research,
39(6), 1134–1146.
Castell, C. M. L., Lakshmanan, R., Skilling, J. M., Bañares-Alcántara, R., 1998.
Optimisation of process plant layout using genetic algorithms. Computers &
Chemical Engineering, 22(Suppl.), S993–S996.
Castro, P., Barbosa-Póvoa, A. P. F. D., Matos, H., 2001. An improved RTN continuous-
time formulation for the short-term scheduling of multipurpose batch plants.
Industrial & Engineering Chemistry Research, 40, 2059–2068.
Cerdá, J., Galli, M. R., 1990. Synthesis of flexible heat exchanger networks—II.
Nonconvex networks with large temperature variations. Computers & Chemical
Engineering, 14(2), 213–225.
Cerdá, J., Galli, M. R., 1991. Synthesis of flexible heat exchanger networks—III.
Temperature and flowrate variations. Computers & Chemical Engineering,
15(1), 7–24.
Cerdá, J., Galli, M. R., Camussi, N., Isla, M. A., 1990. Synthesis of flexible heat
exchanger networks—I. Convex networks. Computers & Chemical Engineering,
14(2), 197–211.

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