Optimal design of heat exchanger networks  317


              Xiao, Y., Zhu, M., Wang, B., 1993. A comprehensive approach to optimal synthesis of heat
                 exchanger networks. J. Chem. Ind. Eng. 44 (6), 635–643 (in Chinese).
              Xiao, W., Yao, P.J., Luo, X., Roetzel, W., 2006. A new and efficient NLP formulation for
                 synthesizing large scale multi-stream heat exchanger networks. J. Chin. Inst. Chem. Eng.
                 37 (4), 383–394.
              Xiao, Y., Cui, G., Sun, T., Chen, J., 2018. An integrated random walk algorithm with com-
                 pulsive evolution and fine-search strategy for heat exchanger network synthesis. Appl.
                 Therm. Eng. 128, 861–876.
              Yan, L., Huo, Z., Yin, H., 2009. Synthesis of heat exchanger network using particle swarm
                 optimization algorithm. Chem. Ind. Eng. Prog. 28 (S1), 439–442 (in Chinese).
              Yee, T.F., Grossmann, I.E., 1990. Simultaneous optimization models for heat integration—
                 II. Heat exchanger network synthesis. Comput. Chem. Eng. 14 (10), 1165–1184.
              Yee, T.F., Grossmann, I.E., Kravanja, Z., 1990. Simultaneous optimization models for heat
                 integration—I. Area and energy targeting and modeling of multi-stream exchangers.
                 Comput. Chem. Eng. 14 (10), 1151–1164.
              Yerramsetty, K.M., Murty, C.V.S., 2008. Synthesis of cost-optimal heat exchanger networks
                 using differential evolution. Comput. Chem. Eng. 32 (8), 1861–1876.
              Yu, H., Fang, H., Yao, P., Yuan, Y., 2000. A combined genetic algorithm/simulated anneal-
                 ing algorithm for large scale system energy integration. Comput. Chem. Eng.
                 24, 2023–2035.
              Zamora, J.M., Grossmann, I.E., 1998. A global MINLP optimization algorithm for the syn-
                 thesis of heat exchanger networks with no stream splits. Comput. Chem. Eng. 22 (3),
                 367–384.
              Zhang, C., Cui, G., Peng, F., 2016a. A novel hybrid chaotic ant swarm algorithm for heat
                 exchanger networks synthesis. Appl. Therm. Eng. 104, 707–719.
              Zhang, C., Cui, G., Chen, S., 2016b. An efficient method based on the uniformity principle
                 for synthesis of large-scale heat exchanger networks. Appl. Therm. Eng. 107, 565–574.
              Zhang, H., Cui, G., Xiao, Y., Chen, J., 2017. A novel simultaneous optimization model with
                 efficient stream arrangement for heat exchanger network synthesis. Appl. Therm. Eng.
                 110, 1659–1673.
              Zhu, X.X., 1997. Automated design method for heat exchanger network using block
                 decomposition and heuristic rules. Comput. Chem. Eng. 21 (10), 1095–1104.
              Zhu, X.X., O’Neill, B.K., Roach, J.R., Wood, R.M., 1995. A method for automated heat
                 exchanger network synthesis using block decomposition and non-linear optimization.
                 Trans. Inst. Chem. Eng. 73 (Pt. A), 919–930.