Updated: March 11, 2014

REFEREED JOURNAL AND BOOK ARTICLES OF THE CENTRE FOR ADVANCED PROCESS OPTIMIZATION (since 1991)


 
125 Vance, L., H. Cabezas, I. Heckl, B. Bertok, and F. Friedler, Synthesis of Sustainable Energy Supply Chain by the P-graph Framework, Industrial & Engineering Chemistry Research, 52(1), 266-274 (2013).
124 Yun, C., T. Y. Kim, T. Zhang, Y. Kim, S. Y. Lee, S. Park, F. Friedler, and B. Bertok, Determination of the Thermodynamically Dominant Metabolic Pathways, Industrial & Engineering Chemistry Research, 52(1), 222-229 (2013).
123 Bertok, B., K. Kalauz, Z. Sule, and F. Friedler, Combinatorial Algorithm for Synthesizing Redundant Structures to Increase Reliability of Supply Chains: Application to Biodisel Suplly, Industrial & Engineering Chemistry Research, 52(1), 181-186 (2013).
122 Bertok, B., M. Barany, and F. Friedler, Generating and Analyzing Mathematical Programming Models of Conceptual Process Design by P-graph Software, Industrial & Engineering Chemistry Research, 52(1), 166-171 (2013).
121 Barany, M., B. Bertok, L. T. Fan, and F. Friedler, Relationship between extreme pathways and structurally minimal pathways, Bioprocess and Biosystems Engineering (in press).
120 Nemet, A., M. Hegyhati, J. Klemes, and F. Friedler, Increasing solar energy utilisation by rescheduling operations with heat and electricity demand, Chemical Engineering Transactions, 49, 1483 - 1488 (2012).
119 Holczinger, T., M. Hegyhati, and F. Friedler, Simultaneous Heat Integration and Batch Process Scheduling, Chemical Engineering Transactions, 49, 337-342 (2012).
118 Varbanov, P. S., H. L. Lam, F. Friedler, and J. J. Klemes, Energy Generation and Carbon Footprint of Waste to Energy: Centralised vs. Distributed Processing, Computer Aided Chemical Engineering, 31 , 1402-1406 (2012).
117 Friedler, F. and K. M. Ng, Process systems engineering, Current Opinion in Chemical Engineering, 1(4), 418-420 (2012).
116 Kalauz, K., Z. Sule Z., B. Bertok, F. Friedler, and L. T. Fan, Extending process-network synthesis algorithms with time bounds for supply network design, Chemical Engineering Transactions, 29, 259-264 (2012).
115 Solving a separation-network synthesis problem adopting interval optimization techniques, Chemical Engineering Transactions, 29, 1525-1530 (2012).
114 Garcia-Ojeda, J. C., B. Bertok, F. Friedler, Planning evacuation routes with the P-graph framework, Chemical Engineering Transactions, 29, 1531-1536 (2012).
113 Fan, L. T., Y.-C. Lin, S. Shafie, B. Bertok, and F. Friedler, Exhaustive Identification of Feasible Pathways of the Reaction Catalyzed by a Catalyst with Multiactive Sites via a Highly Effective Graph-Theoretic Algorithm: Application to Ethylene Hydrogenation, Industrial & Engineering Chemistry Research, 51(6), 2548-2552 (2012).
112 Barany, M., B. Bertok, C. Imreh, L. T. Fan, and F. Friedler, On the equivalence of direct mechanisms and structurally minimal pathways, Journal of Mathematical Chemistry, 50(5), 1347-1361 (2012).
111 Kettl, K. H., N. Niemetz, N. Sandor, M. Eder, I. Heckl, and M. Narodoslawsky, Regional Optimizer (RegiOpt) - Sustainable energy technology network solutions for regions, Computer-Aided Chemical Engineering, 29, 1959-1963, (2011).
110 Hegyhati, M. and F. Friedler, The Role of Energy Consumption in Batch Process Scheduling, Computer-Aided Chemical Engineering, 29, 1979-1983 (2011).
109 Bertok, B., R. Adonyi, F. Friedler, and L. T. Fan, Superstructure Approach to Batch Process Scheduling by S-graph Representation, Computer-Aided Chemical Engineering, 29, 1105-1109 (2011).
108 Barany, M., B. Bertok, Z. Kovacs, F. Friedler, and L. T. Fan, Solving vehicle assignment problems by process-network synthesis to minimize cost and environmental impact of transportation, Clean Technologies and Environmental Policy, 13(4), 637-642 (2011).
107 Hegyhati, M., T. Holczinger, A. Szoldatics, and F. Friedler, Combinatorial Approach to Address Batch Scheduling Problems with Limited Storage Time, Chemical Engineering Transactions, 25, 495-500 (2011).
106 Sule, Z., B. Bertok, F. Friedler, and L. T. Fan, Optimal Design of Supply Chains by P-graph Framework Under Uncertainties, Chemical Engineering Transactions, 25, 453-458 (2011).
105 Varbanov, P. S., J. J. Klemes, and F. Friedler, Cell-Based Dynamic Heat Exchanger Models - Direct Determination of the Cell Number and Size, Computers & Chemical Engineering, 35(5), 943-948 (2011).
104 Hegyháti, M. and F. Friedler, Combinatorial Algorithms of the S-Garph Framework for Batch Scheduling, Industrial & Engineering Chemistry Research, 50(9), 5169-5174 (2011).
103 Heckl, I., K. Kalauz, P. Kalocsai, and L. Halasz, Custom simulator for logistic networks in downstream, Clean Technology and Environmental Policy, 12, 627-634 (2010).
102 Smidla, J. and I. Heckl, S-graph Based Scheduling Method for Parallel Architecture, Chemical Engineering Transactions, 21, 937-942 (2010).
101 Varga, V., I. Heckl, F. Friedler, and L. T. Fan, PNS Solutions: A P-graph based programming framework for process-network synthesis problems, Chemical Engineering Transactions, 21, 1387-1392 (2010).
100 Adonyi, R., I. Heckl, A. Szalamin, and F. Olti, Routing of railway systems with the S-graph framework, Chemical Engineering Transactions, 21, 913-918 (2010).
99 Sandor, N., M. Eder, N. Niemetz, K.-H. Kettl, M. Narodoslawsky, and L. Halasz, Optimizing the energy link between city and industry, Chemical Engineering Transactions, 21, 295-300 (2010).
98 Hegyhati, M. and F. Friedler, Overview of Industrial Batch Process Scheduling, Chemical Engineering Transactions, 21, 895-900 (2010).
97 Barany, M., B. Bertok, Z. Kovacs, F. Friedler, and L. T. Fan, Optimization Software for Solving Vehicle Assignment Problems to Minimize Cost and Environmental Impact of Transportation, Chemical Engineering Transactions, 21, 499-504 (2010).
96 Lam, H. L., J. J. Klemes, F. Friedler, Z. Kravanja, and P. S. Varbanov, Software Tools Overview: Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Chemical Engineering Transactions, 21, 487-492 (2010).
95 Halasz, L., M. Eder, N. Sandor, N. Niemetz, K. H. Kettl, H. Tomo, and M. Narodoslawsky, Optimal integration of sustainable technologies in industrial parks, Chemical Engineering Transactions, 19, 43-48 (2010).
94 Friedler, F., Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, Applied Thermal Engineering, 30(16), 2270-2280 (2010).
93 Lainez, J. M., M. Hegyhati, F. Friedler, and L. Puigjaner, Using S-graph to address uncertainty in batch plants, Clean Technologies and Environmental Policy, 12(2), 105-115 (2010).
92 Heckl, I., F. Friedler, and L. T. Fan, Solution of separation network synthesis problems by the P-graph methodology, Computers & Chemical Engineering, 34(5), 700-706 (2010).
91 Lin, Y.-C., L. T. Fan, S. Shafie, B. Bertok, and F. Friedler, Graph-theoretic approach to the catalytic-pathway identification of methanol decomposition, Computers & Chemical Engineering, 34(5), 821-824 (2010).
90 Adonyi, R., E. Shopova, and N. Vaklieva-Bancheva, Optimal schedule of a dairy manufactory, Chem. Biochem. Eng. Q., 23 (2), 231-237 (2009).
89 Tomo, H., M. Eder, N. Sandor, L. Halasz, and M. Narodoslawsky, Tailor-made solutions for a local industrial centre, Chemical Engineering Transactions, 18, 511-516 (2009).
88 Klemes, J. and F. Friedler, Advances in process integration, energy saving and emissions reduction, Applied Thermal Engineering, 30(1), 1-5 (2010).
87 Lin, Y.-C., L. T. Fan, S. Shafie, B. Bertok, and F. Friedler, Graph-theoretic Approach to the Catalytic-Pathway Identification of Methanol Decomposition, Computer Aided Chemical Engineering, 26, 1293-1298 (2009).
86 Fan, L. T., Y. Kim, C. Yun, S. B. Park, S. Park, B. Bertok, and F. Friedler, Design of Optimal and Near-Optimal Enterprise-Wide Supply Networks for Multiple Products in the Process Industry, Ind. Eng. Chem. Res., 48, 2003-2008 (2009).
85 Lin, Y.-C., L. T. Fan, S. Shafie, B. Bertok, and F. Friedler, Generation of Light Hydrocarbons through Fischer.Tropsch Synthesis: Identification of Potentially Dominant Catalytic Pathways via the Graph.Theoretic Method and Energetic Analysis, Comput. Chem. Eng., 33, 1182-1186 (2009).
84 Heckl, I., F. Friedler, and L.T. Fan, Solution of separation network synthesis problems by the P-graph methodology, Computer-Aided Chemical Engineering, 26, S641-S646 (2009).
83 Heckl, I., P. Kalocsai, L. Halasz, and K. Kalauz, Event driven process simulation of pipeline networks, Chemical Engineering Transactions, 18, 737-742 (2009).
82 Dovi, V. G., F. Friedler, D. Huisingh, and J. Klemes, Cleaner energy for sustainable future, Journal of Cleaner Production, 17, 889-895 (2009).
81 Hegyháti, M., T. Majozi, T. Holczinger, and F. Friedler, Practical infeasibility of cross-transfer in batch plants with complex recipes: S-graph vs MILP methods, Chemical Engineering Science, 64, 605-610, (2009).
80 Heckl, I., F. Friedler, and L.T. Fan, Reduced Super-structure for a Separation Network Comprising Separators effected by Different Methods of Separation, Computers Chem. Engng., 33, 687-698 (2009).
79 Friedler, F. and P. Varbanov, Modelling and optimisation tools for water minimisation in the food industry, Handbook of water and energy management in food processing (Eds: J. Klemes, R. Smith, and J.-K. Kim), pp. 200-220, Woodhead Publishing Limited, Cambridge, England, 2008.
78 Kim, Y., L. T. Fan, C. Yun, S. B. Park, S. Park, B. Bertok, and F. Friedler, Graph-Theoretic Approach to Optimal Synthesis of Supply Networks: Distribution of Gasoline from a Refinery, Computer Aided Chemical Engineering, 25, 247-252 (2008).
77 Varbanov, P. and F. Friedler, P-graph methodology for cost-effective reduction of carbon emissions involving fuel cell combined cycles, Applied Thermal Engineering 28, 2020.2029 (2008).
76 Fan, L. T., Y-C. Lin, S. Shafie, K. L. Hohn, B. Bertok, and F. Friedler, Graph-theoretic and energetic exploration of catalytic pathways of the water-gas shift reaction, J. Chin. Inst. Chem. Eng., 39, 467-473 (2008).
75 Fan, L. T., T. Zhang, J. Liu, P. A. Seib, F. Friedler, and B. Bertok, Price-Targeting Through Repeated Flowsheet Re-Synthesis In Developing Novel Processing Equipment: Pervaporation, Ind. Eng. Chem. Res., 47, 1556-1561 (2008).
74 Lin, Y.-C., L. T. Fan, S. Shafie, K. L. Hohn, B. Bertok, and F. Friedler, Catalytic Pathways Identification for Partial Oxidation of Methanol on Copper-Zinc Catalysts: CH3OH + 1/2 O2 <-> CO2 + 2 H2, Ind. Eng. Chem. Res., 47, 2523-2527 (2008).
73 Adonyi, R., G. Biros, T. Holczinger, and F. Friedler, Effective scheduling of a large-scale paint production system, Journal of Cleaner Production, 16 (2), 225-232 (2008).
72 Narodoslawsky, M., A. Niederl, and L. Halasz, Utilising renewable resources economically - new challenges and chances for process development, Journal of Cleaner Production, 16 164-170 (2008).
71 Fan, L. T., T. Zhang, J. Liu, J. R. Schlup, F. Friedler, and B. Bertok, Assessment of Sustainability-Potential: Hierarchical Approach, Ind. Eng. Chem. Res., 46, 4506-4516 (2007).
70 Fan, L.T., Y.-C. Lin, S. Shafie, K. L. Hohn, B. Bertok, and F.Friedler, Comment on: An improved microkinetic model for the water-gas shift reaction on copper [Surf. Sci. 541 (2003) 21-30], Surf. Sci., 601, 2401-2405 (2007).
69 Halasz, L., G. Gwehenberger, and M. Narodoslawsky, Process Synthesis for the Sugar Sector - Computer Based Insight in Industrial Development, Computer-Aided Chemical Engineering, 24, 431-436 (2007).
68 Holczinger, T., T. Majozi, M. Hegyhati, and F. Friedler, An Automated Algorithm for Throughput Maximization Under Fixed Time Horizon in Multipurpose Batch Plants: S-Graph Approach, presented at the ESCAPE-17, Bucharest, Romania, May 27-30, 2007, also published in Computer-Aided Chemical Engineering, 24, 649-654.
67 Klemes, J., I. Bulatov, J. Koppejan, F. Friedler, and J. Hetland, Novel Energy Saving Technologies Evaluation Tool, presented at the ESCAPE-17, Bucharest, Romania, May 27-30, 2007, also published in Computer-Aided Chemical Engineering, 24, 1035-1040.
66 Varbanov, P., J. Klemes, and F. Friedler, Integration of Fuel Cells into Combined Power Cycles, presented at the ESCAPE-17, Bucharest, Romania, May 27-30, 2007, also published in Computer-Aided Chemical Engineering, 24, 1089-1094.
65 Heckl, I., Z. Kovács, F. Friedler, L. T. Fan, and J. Liu, Algorithmic Synthesis of an Optimal Separation Network Comprising Separators of Different Classes, Chemical Engineering and Processing, 46, 656-665 (2007).
64 Friedler, F., Effective Modeling for Process Synthesis, J. Chin. Inst. Chem. Eng., 37, 481-490 (2006).
63 Tick, J., Z. Kovács, and F. Friedler, Synthesis of Optimal Workflow Structure, Journal of Universal Computer Science, 12, 1385-1392 (2006).
62 Majozi, T. and F. Friedler, Maximization of Throughput in a Multipurpose Batch Plant Under Fixed Time Horizon: S-Graph Approach, Ind. Eng. Chem. Res., 45, 6713-6720 (2006).
61 Klemes, J., F. Friedler, and N. Lior, Editorial Introduction, PRES conferences: Energy efficiency and environmental protection, Energy, 31(13), 2059-2061 (2006).
60 Weber, C., I. Heckl, F. Friedler, F. Maréchal, and D. Favrat, Network synthesis for a district energy system: A step towards sustainability, Computer-Aided Chemical Engineering, 21, 1869-1874 (2006).
59 Liu, J., L. T. Fan, P. A. Seib, F. Friedler, and B. Bertok, Holistic Approach to Process Retrofitting: Application to Downstream Process for Biochemical Production of Organics, Ind. Eng. Chem. Res., 45, 4200-4207 (2006).
58 Fan, L. T., S. Shafie, B. Bertok, F. Friedler, D.-Y. Lee, H. Seo, S. Park, and S.-Y. Lee, Graph-Theoretic Approach for Identifying Catalitic or Metabolic Pathways, Journal of the Chinese Institute of Engineers, 28, 1021-1037 (2005).
57 Heckl, I., F. Friedler, and L. T. Fan, Integrated Synthesis of Optimal Separation and Heat Exchanger Networks Involving Separations Based on Various Properties, Heat Transfer Engineering, 26(5), 25-41 (2005).
56 Halasz, L., G. Povoden and M. Narodoslawsky, Sustainable processes synthesis for renewable resources, Resources, Conservation and Recycling, 44, 293-307 (2005).
55 Lee, D.-Y., L. T. Fan, S. Park, S. Y. Lee, S. Shafie, B. Bertok, and F. Friedler, Complementary Identification of Multiple Flux Distributions and Multiple Metabolic Pathways, Metab. Eng., 7, 182-200 (2005).
54 Klemes, J. and F. Friedler, Editorial, Recent novel developments in heat integration - total site, trigeneration, utility systems and cost-effective decarbonisation. Case studies waste thermal processing, pulp and paper and fuel cells, Applied Thermal Engineering, 25, 953 (2005).
53 Liu, J., L. T. Fan, P. Seib, F. Friedler, and B. Bertok, Downstream Process Synthesis for Biochemical Production of Butanol, Ethanol, and Acetone from Grains: Generation of Optimal and Near-Optimal Flowsheets with Conventional Operating Units, Biotechnol. Prog., 20, 1518 - 1527 (2004).
52 Illes, T. and A. B. Nagy, New and elementary proof of a sufficient optimality criteria for constrained, concave minimization problems, accepted for publication in Journal of Optimization Theory and Applications (2004).
51 Romero, J., L. Puigjaner, T. Holczinger, and F. Friedler, Scheduling Intermediate Storage Multipurpose Batch Plants Using the S-Graph, AIChE J., 50(2), 403-417 (2004).
50 Illes, T., and A. B. Nagy, Egy elegseges optimalitasi kriterium szeparabilis konkav minimalizalasi feladatra, publikaciora elfogadva, SZIGMA, 2003.
49 Angelelli, E., A. B. Nagy, M. G. Speranza, and Z. Tuza, The On-line Multiprocessor Scheduling Problem with Known Sum of the Tasks, Journal of Scheduling, 7, 421-428 (2004).
48 Adonyi, R., J. Romero, L. Puigjaner, and F. Friedler, Incorporating heat integration in batch process scheduling, Applied Thermal Engineering, 23, 1743-1762 (2003).
47 Holenda, B., A. Dallos, A. B. Nagy, F. Friedler, and L. T. Fan, A Combinatorial Approach for Generating Environmentally Benign Solvents and Separation Agents, published in Chemical Engineering Transactions, 3, S871-S876 (2003).
46 Heckl, I., Z. Kovacs, F. Friedler, and L. T. Fan, Super-structure Generation for Separation Network Synthesis Involving Different Separation Methods, Chemical Engineering Transactions, 3, S1209-S1214 (2003).
45 Novaki, S., B. Bertok, F. Friedler, L. T. Fan, and G. Feng, Rigorous Algorithm for Synthesizing Azeotropic-Distillation Systems, Chemical Engineering Transactions, 3, S1123-S1127 (2003).
44 Sarkozi, N., B. Bertok, F. Friedler, and L. T. Fan, Software Tool for Formulating and Solving Various Process-Synthesis Problems, Chemical Engineering Transactions, 3, S1203-S1208 (2003).
43 Feng, G., L. T. Fan, P. A. Seib, B. Bertok, L. Kalotai, and F. Friedler, A Graph-Theoretic Method for the Algorithmic Synthesis of Azeotropic-Distillation Systems, Ind. Eng. Chem. Res., 42, 3602-3611 (2003).
42 Romero, J., A. Espuna, F. Friedler, and L. Puigjaner, A New Framework for Batch Process Optimization Using the Flexible Recipe, Industrial and Engineering Chemistry Research, 42(2), 370-379 (2003).
41 Holczinger, T., J. Romero, L. Puigjaner, and F. Friedler, Scheduling of Multipurpose Batch Processes with Multiple Batches of the Products, Hung. J. Ind. Chem., 30, 305-312 (2002).
40 Halasz, L., A. B. Nagy, T. Ivicz, F. Friedler, L. T. Fan, Optimal Retrofit Design and Operation of the Steam-Supply System of a Chemical Complex, Applied Thermal Engineering 22, 939 -947 (2002).
39 Hertwig, T. A., A. Xu, A. B. Nagy, R. W. Pike, J. R. Hopper, and C. L. Yaws, A Prototype System for Economic, Environmental and Sustainable Optimization of a Chemical Complex, Clean Techn. Environ. Policy, 3, 363-370, (2002).
38 Fan, L. T., B. Bertok, and F. Friedler, A Graph-Theoretic Method to Identify Candidate Mechanisms for Deriving the Rate Law of a Catalytic Reaction, Computers and Chemistry, 26, 265-292 (2002).
37 Sanmarti, E., T. Holczinger, L. Puigjaner, and F. Friedler, Combinatorial Framework for Effective Scheduling of Multipurpose Batch Plants, AIChE Journal, 48(11), 2557-2570 (2002).
36 Strouvalis, A., I. Heckl, F. Friedler, and A. C. Kokossis, An Accelerated Branch and Bound Algorithm for Assignment Problems of Utility Systems, Computers Chem. Engng. 26, 617-630 (2002).
35 Heckl, I., Z. Kovacs, and Z. Ercsey, A matematikai szigorúság fontossága a kiindulási struktúra meghatározásakor szétválasztási hálózatok szintézise esetén (in Hungarian), Magyar Kémikusok Lapja, 56, 372-377 (2001).
34 Fan, L. T., B. Bertok, F. Friedler, and S. Shafie, Mechanisms of Ammonia-Synthesis Reaction Revisited with the Aid of a Novel Graph-Theoretic Method for Determining Candidate Mechanisms in Deriving the Rate Law of a Catalytic Reaction, Hungarian Journal of Industrial Chemistry, 29, 71-80 (2001).
33 Seo, H., D.-Y. Lee, S. Park, L. T. Fan, S. Shafie, B. Bertok, and F. Friedler, Graph-Theoretical Identification of Pathways for Biochemical Reactions, Biotechnology Letters, 23, 1551-1557 (2001).
32 Bertok, B., F. Friedler, G. Feng, and L.T. Fan, Systematic Generation of the Optimal and Alternative Flowsheets for Azeotropic Distillation Systems, Computer-Aided Chemical Engineering, 9, S351-S356 (2001).
31 Strouvalis, A., I. Heckl, F. Friedler, and A. C. Kokossis, An Accelerated Branch and Bound Algorithm for Assignment Problems of Utility Systems, Computer-Aided Chemical Engineering, 9, S541-S546 (2001).
30 Suh, M.-H., F. Friedler, S. Park, and T.-Y. Lee, Retrofit Design of Chemical Processing Networks under Uncertainties: Application to Petrochemical Industry, Computer-Aided Chemical Engineering, 9, S547-S552 (2001).
29 Nagy, A. B., R. Adonyi, L. Halasz, F. Friedler, and L. T. Fan, Integrated Synthesis of Process and Heat Exchanger Networks: Algorithmic Approach, Applied Thermal Engineering, 21(13-14), 1407-1427 (2001).
28 Hertwig, T. A., A. Xu, A. B. Nagy, R. W. Pike, J. R. Hopper, and C. L. Yaws, A Prototype System for Economic, Enviromental and Sustainable Optimization of a Chemical Complex, Computer-Aided Chemical Engineering, 9, S1017-S1022 (2001).
27 Feng, G., L. T. Fan, F. Friedler, and P. A. Seib, Identifying Operating Units for the Design and Synthesis of Azeotropic-Distillation Systems, Ind. Eng. Chem. Res., 39, 175-184 (2000).
26 Kovacs, Z., Z. Ercsey, F. Friedler, and L. T. Fan, Separation-Network Synthesis: Global Optimum through Rigorous Super-Structure, Computers Chem. Engng, 24, 1881-1900 (2000).
25 Brendel, M. H., F. Friedler, and L. T. Fan, Combinatorial Foundation for Logical Formulation in Process Network Synthesis, Computers Chem. Engng, 24, 1859-1864 (2000).
24 Klemes, J. and F. Friedler, Editorial, Applied Thermal Engineering, 20, 1335 (2000).
23 Strouvalis, A. M., I. Heckl, F. Friedler, and A. C. Kokossis, Customized Solvers for the Operational Planning and Scheduling of Utility Systems, Computers Chem. Engng, 24, 487-493 (2000).
22 Friedler, F. and J. Klemes, Editorial, Waste Management, 20, vii (2000).
21 Feng, G., L. T. Fan, and F. Friedler, Synthesizing Alternative Sequences via a P-Graph-Based Approach in Azeotropic Distillation Systems, Waste Management, 20, 639-643 (2000).
20 Halasz, L., and K. Rajnai, Nitrocellulózüzem víz- és energiafelhasználásának minimalizálása kombinatorikus módszerrel (in Hungarian), Magyar Kémikusok Lapja, 55, 134-141 (2000).
19 Imreh, B., J. Fulop, and F. Friedler, A Note on the Equivalence of the Set Covering and Process Network Synthesis Problems, Acta Cybernetica, 14, 497-501 (2000).
18 Kovacs, Z., Z. Ercsey, F. Friedler, and L. T. Fan, Exact Super-Structure for the Synthesis of Separation-Networks with Multiple Feed-Streams and Sharp Separators, Computers Chem. Engng, 23, S1007-1010 (1999).
17 Kalotai L., Dallos A., Friedler F., L. T. Fan, Kombinatorikus modszer kivant tulajdonsagu molekulak tervezesehez (in Hungarian), Magyar Kemikusok Lapja, 54, 173-181 (1999).
16 Kovacs, Z., Z. Ercsey, F. Friedler, and L. T. Fan, Redundancy in a Separation-Network, Hungarian Journal of Industrial Chemistry, 26, 213-219 (1998).
15 Fulop, J., B. Imreh, and F. Friedler, On the Reformulation of Some Classes of PNS-Problems as Set Covering Problems, Acta Cybernetica, 13, 329-337 (1998).
14 Sanmarti, E., F. Friedler, and L. Puigjaner, Combinatorial Technique for Short Term Scheduling of Multipurpose Batch Plants Based on Schedule-Graph Representation, Computers Chem. Engng, 22, S847-850 (1998).
13 Friedler, F., L. T. Fan, L. Kalotai, and A. Dallos, A Combinatorial Approach for Generating Candidate Molecules with Desired Properties Based on Group Contribution, Computers Chem. Engng, 22, 809-817 (1998).
12 Friedler, F., L. T. Fan, and B. Imreh, Process Network Synthesis: Problem Definition, Networks, 28, 119-124 (1998).
11 Friedler, F., J. B. Varga, and L. T. Fan, Decision-Mapping: A Tool for Consistent and Complete Decisions in Process Synthesis, Chem. Engng Sci., 50, 1755-1768 (1995).
10 Varga, J. B., F. Friedler, and L. T. Fan, Parallelization of the Accelerated Branch-and-Bound Algorithm of Process Synthesis: Application in Total Flowsheet Synthesis, Acta Chimica Slovenica, 42, 15-20 (1995).
9 Hangos, K. M., J. B. Varga, F. Friedler, and L. T. Fan, Integrated Synthesis of a Process and Its Fault-Tolerant Control System, Computers Chem. Engng, 19, S465-470 (1995).
8 Kovacs, Z., F. Friedler, and L. T. Fan, Parametric Study of Separation Network Synthesis: Extreme Properties of Optimal Structures, Computers Chem. Engng, 19, S107-112 (1995).
7 Friedler, F., K. Tarjan, Y. W. Huang, and L. T. Fan, Graph-Theoretic Approach to Process Synthesis: Polynomial Algorithm for Maximal Structure Generation, Computers Chem. Engng, 17, 929-942 (1993).
6 Kovacs, Z., F. Friedler, and L. T. Fan, Recycling in a Separation Process Structure, AIChE J., 39, 1087-1089 (1993).
5 M. Narodoslawsky, F. Friedler, L. Kiraly, and H. J. Altenburger, SIMBIOS - A New Simulation Program for Biotechnology with Novel Design, Chem. Biochem. Eng. Q., 7, 27-30 (1993).
4 Friedler, F., K. Tarjan, Y. W. Huang, and L. T. Fan, Graph-Theoretic Approach to Process Synthesis: Axioms and Theorems, Chem. Engng Sci., 47, 1973-1988 (1992).
3 Jezowski, J. and F. Friedler, A Simple Approach for Maximum Heat Recovery Calculations, Chem. Engng Sci., 47, 1481-1494 (1992).
2 Friedler, F., K. Tarjan, Y. W. Huang, and L. T. Fan, Combinatorial Algorithms for Process Synthesis, Computers Chem. Engng, 16, S313-320 (1992).
1 Jezowski, J. and F. Friedler, A Note on Targeting in the Design of Cost Optimal Heat Exchanger Networks, Chem. Biochem. Eng. Q., 5, 1-9 (1991).