Ahlgren, S., Björklund, A., Ekman, A., Karlsson, H., Berlin, J., Börjesson, P., Ekvall, T., Strid, I., Review of methodological choices in LCA of biorefinery systems-Key issues and recommendations (2015) Biofuels, Bioproducts & Biorefining, 9 (5), pp. 606-619
Ahmetovic, E., Grossmann, I.E., Global superstructure optimization for the design of integrated process water networks (2011) AIChE Journal, 57 (2), pp. 434-457
Antonis, C.K., Aidong, Y., Marinella, T., Ta-Chen, L., Systematic screening of multiple processing paths in biorefineries. In P. R. Stuart and M. El-Halwagi (eds.) (2012) Integrated Biorefineries: Design, Analysis and Optimization., , Boca Raton, FL: CRC Press
Ataman, M., Hatzimanikatis, V., Heading in the right direction: Thermodynamicsbased network analysis and pathway engineering (2015) Current Opinion in Biotechnology, 36, pp. 176-182
Baliban, R.C., Elia, J.A., Floudas, C.A., Biomass to liquid transportation fuels (BTL) systems: Process synthesis and global optimization framework (2013) Energy & Environmental Science, 6, pp. 267-287
Bednarz, A., Rüngeler, B., Pfennig, A., Use of cascaded option trees in chemicalengineering process development (2014) Chemie Ingenieur Technik, 86 (5), pp. 611-620
Birkenmeier, M., Mack, M., Roder, T., A coupled thermodynamic and metabolic control analysis methodology and its evaluation on glycerol biosynthesis in (2014) Saccharomyces cerevisiae. Biotechnology Letters, 37, pp. 307-316
Caliandro, P., Tock, L., Ensinas, A.V., Maréchal, F., Thermo-economic optimization of a solid oxide fuel cell-Gas turbine system fueled with gasified lignocellulosic biomass (2014) Energy Conversion and Management, 85, pp. 764-773
Celebi, A.D., Ensinas, A.V., Sharma, S., Marechal, F., (2016) Early-stage decision making approach for the selection of optimally integrated biorefinery processes, p. 508. , Presented at the 29th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impacts of Energy System, Portoroz, Slovenia, June 19-23, 2016
Douglas, J., (1988) Conceptual Design of Chemical Processes., , New York: McGraw-Hill
Duran, M.A., Grossmann, I.E., A mixed-integer nonlinear programming algorithm for process systems synthesis (1986) AIChE Journal, 32 (4), pp. 592-606
El-Halwagi, M.M., Pinch Analysis and Process Integration: A User Guide on Process Integration for the Efficient Use of Energy by Ian C. Kemp, 2nd ed (2008) AIChE Journal, 54 (11), p. 3031
El-Halwagi, M.M., Manousiouthakis, V., Synthesis of mass exchange networks (1989) AIChE Journal, 35 (8), pp. 1233-1244
El-Halwagi, M.M., Manousiouthakis, V., Automatic synthesis of mass-exchange networks with single-component targets (1990) Chemical Engineering Science, 45 (9), pp. 2813-2831
Finley, S.D., Broadbelt, L.J., Hatzimanikatis, V., Thermodynamic analysis of biodegradation pathways (2009) Biotechnology and Bioengineering, 103 (3), pp. 532-541
Frenzel, P., Fayyaz, S., Hillerbrand, R., Pfennig, A., Biomass as feedstock in the chemical industry-An examination from an exergetic point of view (2013) Chemical Engineering and Technology, 36 (2), pp. 233-240
Frenzel, P., Hillerbrand, R., Pfennig, A., Exergetical evaluation of biobased synthesis pathways (2014) Polymers, 6, pp. 327-345
Frenzel, P., Hillerbrand, R., Pfennig, A., Increase in energy and land use by a bio-based chemical industry (2014) Chemical Engineering Research & Design, 92, pp. 2006-2015
Frenzel, P., Pfennig, A., (2016) Methodik zur schnellen Bewertung von Syntheserouten auf Basis von Exergiebilanzen, , http://orbi.ulg.ac.be/handle/2268/201884, Presented at the ProcessNet-Jahrestagung und 32. DECHEMA-Jahrestagung der Biotechnologen, Aachen, Germany, September 12-15, 2016
Gassner, M., Maréchal, F., Thermo-economic process model for thermochemical production of synthetic natural gas (SNG) from lignocellulosic biomass (2009) Biomass and Bioenergy, 33 (11), pp. 1587-1604
Gebreslassie, B.H., Yao, Y., You, F., Multi-objective optimization of hydrocarbon biorefinery supply chain designs under uncertainty (2012) 51st IEEE Conference on Decision and Control, p. 509. , 5560-5565. Maui, HI, December 10-13, 2012
Geraili, A., Romagnoli, J.A., A multi-objective optimization framework for design of integrated biorefineries under uncertainty (2015) AIChE Journal, 61 (10), pp. 3208-3222
Gerber, L., Gassner, M., Maréchal, F., Systematic integration of LCA in process systems design: Application to combined fuel and electricity production from lignocellulosic biomass (2011) Computers & Chemical Engineering, 35 (7), pp. 1265-1280
Grossmann, I., Caballero, J., Yeomans, H., Mathematical programming approaches to the synthesis of chemical process systems (1999) Korean Journal of Chemical Engineering, 16 (4), pp. 407-426
Gundersen, T., (2000) A process integration PRIMER, , Trondheim, Norway: SINTEF Energy Research, International Energy Agency
Hendry, J.E., Rudd, D.F., Seader, J.D., Synthesis in the design of chemical processes (1973) AIChE Journal, 19 (1), pp. 1-15
Hlaváček, V., Synthesis in the design of chemical processes (1978) Computers & Chemical Engineering, 2 (1), pp. 67-75
Hoffmann, P., Voges, M., Held, C., Sadowski, G., The role of activity coefficients in bioreaction equilibria: Thermodynamics of methyl ferulate hydrolysis (2013) Biophysical Chemistry, 173-174, pp. 21-30
Jankowski, M.D., Henry, C.S., Broadbelt, L.J., Hatzimanikatis, V., Group contribution method for thermodynamic analysis of complex metabolic networks (2008) Biophysical Journal, 95, pp. 1487-1499
Kim, J., Sen, S.M., Maravelias, C.T., An optimization-based assessment framework for biomass-to-fuel conversion strategies (2013) Energy & Environmental Science, 6 (4), p. 1093
Linnhoff, B., Pinch analysis: A state-of-the-art overview: Techno-economic analysis (1993) Chemical Engineering Research & Design, 71 (5), pp. 503-522
Maréchal, F., Kalitventzeff, B., Process integration: Selection of the optimal utility system (1998) Computers & Chemical Engineering, 22, pp. S149-S156
Martín, M., Grossmann, I.E., On the systematic synthesis of sustainable biorefineries (2012) Industrial & Engineering Chemistry Research, 52 (9), pp. 3044-3064
Metzger, M., Glasser, B., Patel, B., Hildebrandt, D., Glasser, D., Teaching process design through integrated process synthesis (2012) Chemical Engineering Education, 46 (4), pp. 260-270
Mian, A., Ensinas, A.V., Marechal, F., Multi-objective optimization of SNG production from microalgae through hydrothermal gasification (2015) Computers & Chemical Engineering, 76, pp. 170-183
Murillo-Alvarado, P.E., Ponce-Ortega, J.M., Serna-González, M., Castro-Montoya, A.J., El-Halwagi, M.M., Optimization of pathways for biorefineries involving the selection of feedstocks products, and processing steps (2013) Industrial & Engineering Chemistry Research, 52 (14), pp. 5177-5190
Nishida, N., Stephanopoulos, G., Westerberg, A.W., A review of process synthesis (1981) AIChE Journal, 27 (3), pp. 321-351
Pfeffer, M., Wukovits, W., Beckmann, G., Friedl, A., Analysis and decrease of the energy demand of bioethanol-production by process integration (2007) Applied Thermal Engineering, 27 (16), pp. 2657-2664
Pfennig, A., (2016) Thermal unit operations, lecture manuscript, pp. 838-848. , Lecture at University of Liège for Master students in Chemical Engineering
Prausnitz, J.M., Molecular thermodynamics for some applications in biotechnology (2003) Journal of Chemical Thermodynamics, 35, pp. 21-39
Santibañez-Aguilar, J.E., González-Campos, J.B., Ponce-Ortega, J.M., Serna-González, M., El-Halwagi, M.M., Optimal planning of a biomass conversion system considering economic and environmental aspects (2011) Industrial & Engineering Chemistry Research, 50 (14), pp. 8558-8570
Seaver, S., Gerdes, S., Frelin, O., Lerma-Ortiz, C., Bradbury, L., Zallot, R., Hasnain, G., High-throughput comparison, functional annotation, and metabolic modeling of plant genomes using the PlantSEED resource (2014) Proceedings of the National Academy of Sciences of the United States of America, 111 (26), pp. 9645-9650
Seferlis, P., Georgiadis, M., (2004) The Integration of Process Design and Control., , Amsterdam: Elsevier Science
Smith, R., (1995) Chemical Process Design., , New York: McGraw-Hill, Inc
Stephanopoulos, G., Synthesis of process flowsheets: An adventure in heuristic design or a utopia of mathematical programming? In R. S. H. Mah and W. Seider (eds.) (1981) Foundations of Computer-Aided Chemical Process Design., 2, p. 439. , New York: Engineering Foundation
Tay, D.H.S., Ng, D.K.S., Sammons, N.E., Eden, M.R., Fuzzy optimization approach for the synthesis of a sustainable integrated biorefinery (2011) Industrial & Engineering Chemistry Research, 50 (3), pp. 1652-1665
Trespalacios, F., Grossmann, I.E., Review of mixed-integer nonlinear and generalized disjunctive programming methods (2014) Chemie Ingenieur Technik, 86 (7), pp. 991-1012
Tsatsaronis, G., Exergoeconomics: Is it only a new name? (1996) Chemical Engineering & Technology, 19, pp. 163-169
Turton, R., Bailie, R.C., Whiting, W.B., Shaeiwitz, J.A., (2009) Analysis, Synthesis and Design of Chemical Processes., , 3rd ed. Englewood Cliffs, NJ: Prentice Hall
Wang, Y., Smith, R., Wastewater minimization (1994) Chemical Engineering Science, 49 (7), pp. 981-1006
Westerberg, A.W., A review of process synthesis. In R. G. Squires and G. V. Reklaitis (eds.) (1980) Computer Applications to Chemical Engineering., , http://pubs.acs.org/doi/10.1021/bk-1980-0124.ch003
Yuan, Z., Chen, B., Gani, R., Applications of process synthesis: Moving from conventional chemical processes towards biorefinery processes (2013) Computers & Chemical Engineering, 49, pp. 217-229
