Page 366 - Sustainability in the Process Industry Integration and Optimization
P. 366
Bibl iog r aph y 343
design. In H. Alfadala, G. V. R. Reklaitis, and M. M. El-Halwagi (Eds.),
Proceedings of the 1st Annual Gas Processing Symposium. Amsterdam: Elsevier.
Zamora, J.M., Grossmann, I.E., 1998. A global MINLP optimization algorithm for
the synthesis of heat exchanger networks with no stream splits. Computers &
Chemical Engineering, 22(3), 367–384.
Zecchin, A. C., Simpson, A. R., Maier, H. R., Leonard, M., Roberts, A. J., Berrisford,
M. J., 2006. Application of two ant colony optimisation algorithms to water
distribution system optimization. Mathematical and Computer Modelling, 44,
451–468.
Zhang, R., El-Mashad, H. M., Hartman, K., Wang, F., Liu, G., Choate, C., Gamble,
P., 2007. Characterization of food waste as feedstock for anaerobic digestion.
Bioresource Technology, 98(4), 929–935.
Zhang, X., Sargent, R. W. H., 1996. The optimal operation of mixed production
facilities. Part A. General formulation and some solution approaches for the
solution. Computers & Chemical Engineering, 20, 897–904.
Zhelev, T. K., 1998. Pinch principles for environment protection. In Proceedings of
the 8th International Summer School of Chemical Engineering (Sozopol, Bulgaria),
pp. 213–216. Sofia: Institute of Chemical Engineering, Bulgarian Academy of
Sciences.
Zhelev, T. K., 2005a. On the integrated management of industrial resources
incorporating finances. Sustainable systems theory: ecological and other
aspects. Journal of Cleaner Production, 13, 469–474.
Zhelev, T. K., 2005b. On the optimal synthesis of a micro polymerase chain reactor
system for DNA analysis. Computer Aided Chemical Engineering, 20(B), 1579–
1584.
Zhelev, T. K., 2005c. Water conservation through energy management. Journal of
Cleaner Production, 13, 1461–1470.
Zhelev, T, 2007. The conceptual design approach—A process integration approach
on the move. Resources, Conservation and Recycling, 50, 143–157.
Zhelev, T. K., Bhaw, N., 2000. Combined water–oxygen pinch analysis for better
wastewater treatment management. Waste Management, 20(8), 665–670.
Zhelev, T., Ntlhakana, L., 1999. Energy-environment closed loop through oxygen
pinch. Computers & Chemical Engineering, 23(Suppl.), 79–83.
Zhelev, T. K., Ridolfi, R., 2006. Energy recovery and environmental concerns
addressed through emergy–pinch analysis, Energy, 31, 2486–2498.
Zhelev, T. K., Wagenknecht, M., Hartmann, K., Kauschus, W., 1985. Comparative
analysis of synthetic methods for the structuring of heat transfer systems.
Wissenschaftliche Zeitschrift THLM, 27, 70–89 (in German).
Zheng, X., Kim, J.-K., Smith, R., 2008a. Design of heat-integrated power systems
with decarbonisation. Computer Aided Chemical Engineering, 25, 1089–1094.
Zheng, X., Kim, J.-K., Smith, R., 2008b. Heat integrated power systems with carbon
capture. 11th Conference on Process Integration, Modelling and Optimisation for
Energy Saving and Pollution Reduction—PRES 2008 (Prague, 24–28 August).
Zhu, X. X., 1997. Automated design method for heat exchanger networks using
block decomposition and heuristic rules. Computers & Chemical Engineering,
21(10), 1095–1104.
Zhu, X. X., O’Neill, B. K., Roach, J. R., Wood, R. M., 1995. Area-targeting methods
for the direct synthesis of heat exchanger networks with unequal film
coefficients. Computers & Chemical Engineering, 19(2), 223–239.
Zhu, X. X., Zanfir, M., Klemeš, J., 2000. Heat transfer enhancement for heat
exchanger network retrofit. Heat Transfer Engineering, 21(2), 7–18.
