Lektorált nemzetközi folyóiratcikkek
1. Heckl, I., Kovács, Z., Friedler, F., Fan, L. T., Liu, J., Algorithmic Synthesis of an Optimal Separation Network Comprising Separators of Different Classes, Chemical Engineering and Processing, in Press. (IF=1,159; 2005-ben)
2. Heckl, I., Friedler, F., Fan, L. T., Integrated Synthesis of Optimal Separation and Heat Exchanger Networks Involving Separations Based on Various Properties, Heat Transfer Engineering, 26, pp. 25-41, 2005. (IF=0,495)
3. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., An Accelerated Branch and Bound Algorithm for Assignment Problems of Utility Systems, Computers &
Chemical Engineering, 26, pp. 617-630, 2002. (IF=0,784)
4. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., Customized Solvers for the Operational Planning and Scheduling of Utility Systems, Computers & Chemical Engineering, 24, pp. 487-493, 2000. (IF=0,709)
További lektorált folyóiratcikkek
1. Heckl, I., Kovács, Z., Friedler, F., Fan, L. T., Super-structure Generation for Separation Network Synthesis Involving Different Separation Methods, Chemical Engineering Transactions, 3, pp. S1209-S1214, 2003.
2. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., An Accelerated Branch and Bound Algorithm for Assignment Problems of Utility Systems, Computer-Aided Chemical Engineering, 9, pp. S541-S546, 2001.
3. Heckl, I., Kovács, Z., Ercsey, Z., A matematikai szigorúság fontossága a kiindulási struktúra meghatározásakor szétválasztási hálózatok szintézise esetén (in Hungarian), Magyar Kémikusok Lapja, 56, pp. 372-377, 2001.
Előadások nemzetközi konferencián
1. Weber, C., Heckl, I., Friedler, F., Maréchal, F., Favrat, D., Network synthesis for a district energy system: A step towards sustainability, presented at ESCAPE-16, Garmisch-Partenkirchen, Germany, July 9 - 13, 2006.
2. Heckl, I., Friedler, F., Fan, L. T., Algorithmic Synthesis of Optimal Heat Integrated Separation Networks, presented at PRES'03, Hamilton, Ontario, Canada, October 26-29, 2003.
3. Heckl, I., Kovács, Z., Friedler, F., Fan, L. T., Super-Structure Generation for Separation-Network Synthesis Involving Different Separation Methods, presented at ICheaP-6, Pisa, Italy, June 8-11, 2003.
4. Holczinger, T., Heckl, I., Kokossis, A. C., Friedler, F., Accelerated contextual optimization for scheduling large-scale HPC liquid factories, presented at the AIChE Annual Meeting, Reno, NV, U.S.A., November 4-9, 2001.
5. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., An Accelerated Branch and Bound Algorithm for Assignment Problems of Utility Systems, presented at ESCAPE-11 (Eleventh European Symposium on Computer Aided Process Engineering), Kolding, Denmark, May 27-30, 2001.
6. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., Flexible Utility Networks for Maintenance and Operational Variations: A Customised Framework and an Accelerated Branch and Bound Algorithm, presented at the AIChE Annual Meeting, Los Angeles, CA, U.S.A., November 12-17, 2000.
7. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., Accelerated Branch and Bound Methods for Utility Network Optimisation, presented at the CHISA 2000 (14th International Congress of Chemical and Process Engineering), Praha, Czech Republic, August 27-31, 2000.
8. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., Customized Solvers for the Operational Planning and Scheduling of Utility Systems, presented at the PSE 2000 (7th International Symposium on Process System Engineering), Keystone, CO, U.S.A., July, 16-21, 2000.
9. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., The Design of Intelligent Optimization Solvers for Utility Networks, presented at the AIChE Annual Meeting, Dallas, TX, U.S.A., October 31 - November 5, 1999.
10. Strouvalis, A., Heckl, I., Friedler, F., Kokossis, A. C., Intelligent Solvers for Utility Networks, presented at the AIChE Annual Meeting, Dallas, TX, U.S.A., October 31 - November 5, 1999.
Irodalomjegyzék
Aggarwal, A., Floudas, C. A., Synthesis of general distillation sequences – nonsharp separation, Computers & Chemical Engineering, 14, pp. 631-653, 1990.
Aggarwal, A., Floudas, C. A., Synthesis of heat integrated nonsharp distillation sequences, Computers & Chemical Engineering, 16, pp. 89-108, 1992.
Bamopoulos, G., Nath, R., Motard, R. L., Heuristic synthesis of nonsharp separation sequences, AIChE Journal, 34, pp. 763-780, 1988.
Barbaro, A., Bagajewicz, M. J., New rigorous one-step MILP formulation for heat exchanger network synthesis, Computers & Chemical Engineering, 29, pp. 1945-1976, 2005.
Biegler, L. T., Grossmann, I. E., Westerberg, A. W., Systematic methods of chemical process design, Prentice Hall PTR, 1997.
Caballero, J. A., Grossmann, I. E., Generalized disjunctive programming model for the optimal synthesis of the thermally linked distillation columns, Industrial &
Engineering Chemistry Research, 40, pp. 2260-2274, 2001.
Caballero, J. A., Grossmann, I. E., Thermodynamically equivalent configurations for thermally coupled distillation, AIChE Journal, 49, pp. 2864-2884, 2003.
Cerda, J., Westerberg, A. W., Mason, D. R., Linnhoff, B., Minimum utility usage in heat exchanger network synthesis: A transportation problem, Chemical Engineering Science, 38, pp. 373-387, 1983.
Cheng, S-H., Liu, Y. A., Studies in chemical processes design and synthesis. 8. A simple heuristic method for the synthesis of initial sequences for sloppy multicomponent separations, Industrial & Engineering Chemistry Research, 27, pp.
2304-2322, 1988.
Ciric, A. R., Floudas, C. A., Heat-exchanger network synthesis without decomposition, Computers & Chemical Engineering, 15, pp. 385-396, 1991.
Cisternas, L. A., Guerrero, C. P., Swaney, R. E., Separation system synthesis of fractional crystallization processes with heat integration, Computers & Chemical Engineering, 25, pp. 595-607, 2001.
Demicoli, D., Stichlmair, J., Novel operational strategy for the separation of ternary mixtures via cyclic operation of a batch distillation column with side withdrawal, Chemical Engineering Transactions, 3, pp. 361-366, 2003.
Douglas, J. M., Conceptual design of chemical processes, McGraw-Hill, New York, 1988.
Douglas, J. M., Malone, M. F., Doherty, M. F., The interaction between separation system synthesis and process synthesis, Computers & Chemical Engineering, 9, pp.
447-462, 1985.
Emtir, M., Rév, E., Mizsey, P., Fonyó, Z., Comparison of integrated and coupled distillation schemes using different utility prices, Computers & Chemical Engineering, S23, pp. 799-802, 1999.
Ercsey, Z., Szétválasztási hálózatok szintézise: Feladatosztályok tulajdonságai, PhD disszertáció, 2000.
Finn, A., Rapid assessment of thermally coupled side columns, Gas Separation &
Purification, 10, pp. 169-175, 1996.
Floquet, P., Domenech, S., Pibouleau, L., Aly, D. M., Some complement in combinatorics of sharp separation system synthesis, AIChE Journal, 39, pp. 975-978, 1993.
Floudas, C. A., Separation synthesis of multicomponent feed streams into multicomponent product streams, AIChE Journal, 33, pp. 540-550, 1987.
Fonyó, Z., Mészáros, I., Rév, E., Kaszás M., Pinch oriented synthesis strategy for multicomponent separation systems with energy integration, Hungarian Journal of Industrial Chemistry, 13, pp. 121-134, 1985.
Fraga, E. S., McKinnon, K. I. M., Process synthesis using parallel graph traversal, Computers & Chemical Engineering, S18, pp. 119-123, 1994.
Fraga, E. S., Zilinskas, A., Evolution of hybrid optimization methods for the optimal design of heat integrated distillation sequences, Advances in engineering software, 34, pp. 73-86, 2003.
Friedler, F., Tarján, K., Huang, Y. W., Fan, L. T., Combinatorial algorithms for process synthesis, Computers & Chemical Engineering, S16, pp. 313-320, 1992.
Friedler, F., Tarján, K., Huang, Y. W., Fan, L. T., Graph-theoretic approach to process synthesis: axioms and theorems, Chemical Engineering Science, 47, pp.
1973-1988, 1992.
Friedler, F., Tarján, K., Huang, Y. W., Fan, L. T., Graph-theoretic approach to process synthesis: polynomial algorithm for maximal structure generation, Computers & Chemical Engineering, 17, pp. 929-942, 1993.
Furman, K. C., Sahinidis, N. V., A critical review and annotated bibliography for heat-exchanger network synthesis in the 20th century, Industrial & Engineering Chemistry Research, 41, pp. 2335-2370, 2002.
Gadalla, M., Olujic, Ž., de Rijke, A., Jansens, P.J., Reducing CO2 emissions of internally heat-integrated distillation columns for separation of close boiling mixtures, Energy (In Press), 2006.
Gomez, A. M., Seader, J. D., Separation sequence synthesis by a predictor based ordered search, AIChE Journal, 22, pp. 970-979, 1976.
Gundersen, T., Naess, L., The synthesis of cost optimal heat exchanger networks, Computers & Chemical Engineering, 12, pp. 503-530, 1988.
Hu, Z., Chen, B., He, X., Heuristic synthesis for multicomponent products with simple and sharp separators, Computers & Chemical Engineering, 17, pp. 379-397, 1993.
Iwakabe, K., Nakaiwa, M., Huang, K., Nakanishi, T., Røsjorde, A., Ohmori, T., Endo A., Yamamoto T., Energy saving in multicomponent separation using an internally heat-integrated distillation column (HIDiC), Applied Thermal Engineering, 26, pp.
1362-1368, 2006.
Kaibel, G., Distillation columns with vertical partitions, Chemical Engineering Technology, 10, pp. 92-98, 1987.
Kim, Y. H., Choi, D. W., Hwang, K. S., Industrial application of an extended fully thermally coupled distillation column to btx separation in a naphta reforming plant, Korean Journal of Chemical Engineering, 20, pp. 755-761, 2003.
King, C. J., Separation Processes, McGraw-Hill, New York, 1980.
Kovács, Z., Ercsey, Z., Friedler, F., Fan, L. T., Exact super-structure for the synthesis of separation-networks with multiple feed-streams and sharp separators, Computers
& Chemical Engineering, S23, pp. 1007-1010, 1999.
Kovács, Z., Ercsey, Z., Friedler, F., Fan, L. T., Separation-network synthesis: global optimum through rigorous super-structure, Computers & Chemical Engineering, 24, pp. 1881-1900, 2000.
Kovács, Z., Friedler, F., Fan, L. T., Parametric study of separation network synthesis:
extreme properties of optimal structures, Computers & Chemical Engineering, S19, pp. 107-112, 1995.
Kovács, Z., Friedler, F., Fan, L. T., Recycling in a separation process structure, AIChE Journal, 39, pp. 1087-1089, 1993.
Kovács, Z., Szétválasztási rendszerek szintézise: Matematikai modell algoritmikus generálása, PhD disszertáció, 2000.
Lin, B., Miller, D. C., Solving heat exchanger network synthesis problems with tabu search, Computers & Chemical Engineering, 28, pp. 1451-1464, 2004.
Linnhoff, B., Ahmad, S., Cost optimum heat exchanger networks - 1. Minimum energy and capital using simple models for capital cost, Computers & Chemical Engineering, 14, pp. 729-750, 1990.
Linnhoff, B., Flower, J. R., Synthesis of heat-exchanger networks, part 1, systematic generation of energy optimal networks, AIChE Journal, 24, pp. 633-654, 1978.
Linnhoff, B., Hindmarsh, E., The pinch design method for heat exchanger networks, Chemical Engineering Science, 38, pp. 745-763, 1983.
Linnhoff, B., Mason D. R., Wardle, I., Understanding heat exchanger networks, Computers & Chemical Engineering, 3, pp. 295-302, 1979.
Lu, M. D., Motard, R., Computer-aided total flowsheet synthesis, Computers &
Chemical Engineering, 9, pp. 431-445, 1985.
Mahalec, V., Motard, R. L., Procedures for the initial design of chemical processing systems, Computers & Chemical Engineering, 1, pp. 57-68, 1977.
Mészáros, Cs., Fast cholesky factorization for interior point methods of linear programming, Computers & Mathematics with Applications, 31, pp. 49-51, 1996.
Mizey, P., A Global Approach to the Synthesis of Entire Chemical Processes, PhD disszertáció, 1991.
Mizsey, P., Fonyó, Z., A predictor-based bounding strategy for synthesizing energy integrated total flowsheets, Computers & Chemical Engineering, 14, pp. 1303-1310, 1990.
Mizsey, P., Fonyó, Z., Toward a more realistic overall process synthesis—the combined approach, Computers & Chemical Engineering, 14, pp. 1213-1236, 1990.
Muraki, M., Hayakawa, T., Separation process synthesis for multicomponent products, Journal of Chemical Engineering of Japan, 17, pp. 533-538, 1984.
Muraki, M., Hayakawa, T., Synthesis of a multicomponent, multiproduct separation process with nonsharph separators, Chemical Engineering Science, 43, pp. 259-268, 1988.
Muraki, M., Kataoka, K., Hayakawa, T., Evolutionary synthesis of a multicomponent, multiproduct separation process, Chemical Engineering Science, 41, pp. 1843-1851, 1986.
Nagy, A. B., Adonyi, R., Halasz, L., Friedler, F., Fan, L. T., Integrated synthesis of process and heat-exchanger networks: algorithmic approach, Applied Thermal Engineering, 21, pp. 1407-1427, 2001.
Nath, R., Motard, R. L., Evolutionary synthesis of separation processes, AIChE Journal, 27, pp. 578-587, 1981.
Papoulias, S. A., Grossmann, I. E., A structural optimization approach in process synthesis-ii: heat recovery networks, Computers & Chemical Engineering, 7, pp. 695-706, 1983.
Petlyuk, F. B., Platonov, V. M., Slavinskii, D.M., Thermodynamically optimal method for separating multicomponent mixtures, International Chemical Engineering, 5, pp. 555-561, 1965.
Pettersson, F., Synthesis of large-scale heat exchanger networks using a sequential match reduction approach, Computers & Chemical Engineering, 29, pp. 993-1007, 2005.
Proios, P., Goula, N. F., Pistikopoulos, E. N., Generalized modular framework for the synthesis of heat integrated distillation column sequences, Chemical Engineering Science, 60, pp. 4678-4701, 2005.
Quesada, I., Grossmann, I. E., Global optimization of bilinear process networks with multicomponent flows, Computers & Chemical Engineering, 19, pp. 1219-1242, 1995.
Rathore, R. N. S., Van Wormer, K. A., Powers, G. J., Synthesis of distillation systems with energy integration, AIChE Journal, 20, pp. 940-950, 1974.
Rathore, R. N. S., Van Wormer, K. A., Powers, G. J., Synthesis strategies for multicomponent separation systems with energy integration, AIChE Journal, 20, pp.
491-502, 1974.
Ravagnani, M. A. S. S., Silva, A. P., Arroyo, A. P., Constantino, A. A., Heat exchanger network synthesis and optimisation using genetic algorithm, Applied Thermal Engineering, 25, pp. 1003-1017, 2005.
Rudd, D. F., Powers, J., Siirola, J. J., Process synthesis, Prentice-Hall, Englewood Cliffs, New Jersey, 1973.
Seader, J. D., Westerberg, A. W., A combined heuristic and evolutionary strategy for synthesis of simple separation sequences, AIChE Journal, 23, pp. 951-954, 1977.
Shah, P., Kokossis, A., Design targets of separator and reactor-separator systems using conceptual programming, Computers & Chemical Engineering, S21, pp. 1013-1018, 1997.
Siirola, J. J., Rudd, D. F., Computer-aided synthesis of chemical process design, Industrial Engineering Chemical Fundamentals, 10, pp. 353-362, 1971.
Sobocan, G., Glavic, P., A simple method for systematic synthesis of thermally integrated distillation sequences, Chemical Engineering Journal, 89, pp. 155-172, 2002.
Stephanopoulos, G., Westerberg, A. W., Studies in process synthesis—II:
evolutionary synthesis of optimal process flowsheets, Chemical Engineering Science, 31, pp. 195-204, 1976.
Thompson, R. W., King, C. J., Systematic synthesis of separation schemes, AIChE Journal, 18, pp. 941-948, 1972.
Varga, J. B., Friedler, F., Fan, L. T., Parallelization of the accelerated branch-and-bound algorithm of process synthesis: application in total flowsheet synthesis, Acta Chimica Slovenica, 42, pp. 15-20, 1995.
Wahl, P. E., Lien, K. M., Combinatorial aspects of sharp split separation system synthesis, AIChE Journal, 36, pp. 1601-1604, 1990.
Wang, K., Quian, Y., Yuan, Y., Yao, P., Synthesis and optimization of heat integrated distillation systems using an improved genetic algorithm, Computers & Chemical Engineering, 23, pp. 125-136, 1998.
Wehe, R. R., Westerberg, A. W., An algorithmic procedure for the synthesis of distillation sequences with bypass, Computers & Chemical Engineering, 11, pp. 619-627, 1987.
Wehe, R., Westerberg, A., A bounding procedure for the minimum number of columns in nonsharp distillation sequences, Chemical Engineering Science, 45, pp. 1-11, 1989.
Westerberg, A. W., Stephanopoulos, G., Shah, J., The synthesis problem with some thoughts on evolutionary synthesis in the design of engineering systems, in: W. R.
Spillers: Basic questions of design theory, American Elsevier, 1974.
Westerberg, A. W., The synthesis of distillation-based separation systems, Computers
& Chemical Engineering, 9, pp. 421-429, 1985.
Yee, T. F., Grossmann, I. E., Simultaneous optimization model for heat exchanger network synthesis, Chemical engineering optimization models with GAMS, CACHE-6, 1991.
Yeomans, H., Grossmann, I. E., Nonlinear disjunctive programming models for the synthesis of heat integrated distillation sequences, Computers & Chemical Engineering, 23, pp. 1135-1151, 1999.