Ahmetovic, E., Ibric, N. & Kravanja, Z. 2014. Optimal design for heat-integrated water-using and wastewater treatment networks. Applied Energy, 135, 791-808.
Ahmetovic, E. & Kravanja, Z. 2012. Solution strategies for the synthesis of heat integrated process water networks. Chemical Engineering Transactions, 20 (29), 1015-1020.
Bagajewicz, M., Rodera, H. & Savelski, M. 2002. Energy efficient water utilization systems in process plants. Computers and Chemical Engineering, 26 (1), 59-79.
Bagajewicz, M. J., Pham, R. & Manousiouthakis, V. 1998. On the state space approach to mass/heat exchanger network design. Chemical Engineering Science, 53, 2595-2621.
Chen, Z., Hou, Y., Li, X. & Wang, J. 2014. Simultaneous optimization of water and heat exchange networks. Korean Journal of Chemical Engineering, 31 (4), 558-567.
Chen, Z. Y. & Wang, J. T. 2012. Heat, mass, and work exchange networks. Chemical Science Engineering, 6, 484-502.
Dong, H. G., Lin, C. Y. & Chang, C. T. 2008. Simultaneous optimization approach for integrated water-allocation and heat-exchange networks. Chemical Engineering Science, 63 (14), 3664-3674.
Feng, X., Li, Y. & Yu, X. 2008. Improving energy performance on water allocation networks through appropriate stream merging. Chinese Journal of Chemical Engineering, 16, 480-484.
Hou, Y., Wang, J., Chen, Z., Li, X. & Zhang, J. 2014. Simultaneous integration of water and energy on conceptual methodology for both single- and multi-contaminant problems. Chemical Engineering Science, 117, 436-444.
Leewongtanawit, B. & Kim, J. K. 2009. Improving energy recovery for water minimisation. Energy, 34 (7), 880-893.
Liao, Z., Rong, G., Wang, J. & Yang, Y. 2011. Systematic optimization of heat-integrated water allocation networks. Industrial and Engineering Chemistry Research, 27 (11), 6713-6727.
Linnhoff, B., Townsend, D. W., Boland, D., Hewitt, G. F., Thomas, B. E. A. & Guy, A. R. 1982. A user guide on process integration for the efficient use of energy. IChemE, 1, 12-120.
Liu, Z. Y., Yang, Y., Wan, L. Z., Wang, X. & Hou, K. H. 2009. A heuristic design procedure for water-using networks with multiple contaminants. AICHE, 55, 374-382.
Manan, Z. A., Tea, S. Y. & Alwi, S. R. W. 2009. A new technique for simultaneous water and energy minimisation in process plant. Chemical Engineering Research, 87, 1509-1519.
Pan, C. H., Shi, J. & Liu, Z. Y. 2012. An iterative method for design of water-using networks with regeneration recycling. AICHE., 58, 456-465.
Patino, M. J., Nunez, P. M., Serra, L. M. & Verda, V. 2011. Design of water and energy networks using temperature–concentration diagrams. Energy, 36 (6), 3888-3896.
Polley, G. T., Nunez, P. M. & Maciel, L. J. L. 2010. Design of water and heat recovery networks for the simultaneous minimization of water and energy consumption. Applied Thermal Engineering, 30, (16), 2290-2299.
Sahu, G. C. & Bandyopadhyay, S. 2012. Energy optimization in heat integrated water allocation networks. Chemical Engineering Science, 69 (1), doi: 10.1016/) ces. 2011.10.054
Savelski, M. & Bagajewicz, M. 1997. Design and retrofit of water utilization systems in refineries and process plants. AICHE, 2, 1-100.
Savulescu, L. E., Kim, J. K. & Smith, R. 2005a. Studies on simultaneous energy and water minimisationdpart II: systems with maximum re-use of water. Chemical Engineering Science, 60 (2), 3291-3308.
Savulescu, L. E., Kim, J. K. & Smith, R. 2005b. Studies on simultaneous energy and water minimisationePart I: systems with no water re-use. Chemical Engineering Science, 60, (12), 3279-3290
Savulescu, L. E., Sorin, M. & Simth, R. 2002. Direct and indirect heat transfer in water network systems. Applied Thermal Engineering, 22 (8), 981-988.
Sorin, M. & Savulescu, B. 2004. On minimization of the number of heat exchangers in water networks. Heat Transfer Engineering, 25, 30-38.