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342 Bibl iog r aph y

Varbanov, P., Doyle, S., Smith, R., 2004. Modelling and optimization of utility
systems. Chemical Engineering Research and Design, 82(A5), 561–578.
Varbanov, P., Friedler, F., 2008. P-graph methodology for cost-effective reduction
of carbon emissions involving fuel cell combined cycles. Applied Thermal
Engineering, 28(16), 2020–2029.
Varbanov, P., Klemeš, J., 2008. Analysis and integration of fuel cell combined
cycles for development of low-carbon energy technologies. Energy, 33(10),
1508–1517.
Varbanov, P., Klemeš, J., 2010. Total sites integrating renewables with extended heat
transfer and recovery. Heat Transfer Engineering, 31(9), 733–741.
Varbanov, P., Klemeš, J., Shah, R. K., Shihn, H., 2006. Power cycle integration and
efficiency increase of molten carbonate fuel cell systems. Journal of Fuel Cell
Science and Technology, 3(4), 375–383.
Varbanov, P., Klemes, J., Friedler, F., 2007. Critical Analysis of Fuel Cell Combined
Cycles for Development of Low-Carbon Energy Technologies. Chemical
Engineering Transactions, 12, 739–744.
Varbanov, P., Perry, S., Klemeš, J., Smith, R., 2005. Synthesis of industrial utility
systems: Cost-effective decarbonisation. Applied Thermal Engineering, 25(7),
985–1001.
Varbanov, P., Perry, S., Makwana, Y., Zhu, X. X., Smith R., 2004. Top-level analysis
of site utility systems. Chemical Engineering Research and Design, 82(A6),
784–795.
Vienna University of Technology, 2009. Invert. <www.invert.at> (accessed 25 April
2009).
Wang, Y. P., Smith, R., 1994. Wastewater minimisation. Chemical Engineering Science,
49(7), 981–1006.
Wang, Y. P., Smith, R.,1995. Time pinch analysis. Chemical Engineering Research and
Design, 73, 905–914.
WATER, 2009. Process Integration Software (Centre for Process Integration,
School of Chemical Engineering and Analytical Science, The University
of Manchester, U.K.). <www.ceas.manchester.ac.uk/research/centres/
centreforprocessintegration/software/packages/water> (accessed 26 October
2009).
Water Footprint Network, 2009. <www.waterfootprint.org> (accessed 16 August
2009).
Werther, J., 2007. Gaseous emissions from waste combustion. Journal of Hazardous
Materials, 144(3), 604–613.
Wikipedia, 2009. List of Chemical Process Simulators. <en.wikipedia.org/wiki/
List_of_chemical_process_simulators> (accessed 26 October 2009).
Williams, H. P., 1999. Model building in mathematical programming, 4th ed. Chichester,
U.K: Wiley.
WORK, 2009. Process Integration Software (Centre for Process Integration,
School of Chemical Engineering and Analytical Science, The University
of Manchester, U.K.). <www.ceas.manchester.ac.uk/research/centres/
centreforprocessintegration/software/packages/work> (accessed 26 October
2009).
Xiangkun, M., Pingjing, Y., Xing, L., Wilfried, R., 2007. Synthesis of flexible multi-
stream heat exchanger networks based on stream pseudo-temperature with
genetic/simulated annealing algorithms. Journal of the Chinese Institute of
Chemical Engineers, 38, 321–331.
Yamamoto, O., 2000. Solid oxide fuel cells: Fundamental aspects and prospects.
Electrochimica Acta, 45, 2423–2435.
Yang, H., Li, Y., Shen, J., Hu, S., 2002. Evaluating waste treatment. Recycle and
reuse in industrial system: An application of the emergy approach. Ecological
Modelling, 160(12), 13–21.
Yin, Q., Smith, R., 2008. Incorporating reliability, availability and maintainability
(RAM) into process synthesis. AIChE 2008 Spring National Meeting (New
Orleans, LA).
Yin, Q., Valls, P., Zheng, X., Smith, R., 2009. Minimizing life cycle cost by
incorporating reliability, availability and maintainability (RAM) into process

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