R. Agrawal, Chemical Engineering for a Solar Economy, Chemical Engineering Science, vol.210, p.115215, 2019.

B. A. Aguado, J. C. Grim, A. M. Rosales, J. J. Watson-capps, and K. S. Anseth, Engineering 657 precision biomaterials for personalized medicine, Science Translational Medicine, vol.10, 2018.

M. R. Allen, O. P. Dube, W. Solecki, F. Aragón-durand, W. Cramer et al.,

N. Kala, Y. Mahowald, R. Mulugetta, M. Perez, K. Wairiu et al., , p.661, 2018.

, An IPCC Special Report on the impacts of global warming 662 of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the 663 context of strengthening the global response to the threat of climate change, sustainable 664 development, and efforts to eradicate poverty, Global Warming of 1.5°C

J. Roberts, P. R. Skea, A. Shukla, W. Pirani, C. Moufouma-okia et al., , p.666

J. B. Matthews, Y. Chen, X. Zhou, M. I. Gomis, E. Lonnoy et al.,

. Waterfield,

M. Atasoy, I. Owusu-agyeman, E. Plaza, and Z. Cetecioglu, Bio-based volatile fatty acid 670 production and recovery from waste streams: Current status and future challenges, Bioresource 671 Technology, vol.268, pp.773-786, 2018.

K. Binnemans, P. T. Jones, B. Blanpain, T. Van-gerven, Y. Yang et al., , 2013.

, Recycling of rare earths: a critical review, Journal of Cleaner Production, vol.51

B. Brunaud, J. M. Laínez-aguirre, J. M. Pinto, and I. E. Grossmann, Inventory policies and safety 676 stock optimization for supply chain planning, AIChE Journal, vol.65, pp.99-112, 2019.

P. Butz and B. Tauscher, Emerging technologies: chemical aspects, Food Research International, vol.678, pp.279-284, 2002.

J. Charpentier, The Future of Chemical Engineering in the Global Market Context : Market 680 Demands versus Technology Offers, Kem. Ind, vol.52, pp.397-419, 2003.

C. H. Christensen, J. Rass-hansen, C. C. Marsden, E. Taarning, and K. Egeblad, The Renewable 682 Chemicals Industry, ChemSusChem, vol.1, pp.283-289, 2008.

S. Chu and A. Majumdar, Opportunities and challenges for a sustainable energy future, Nature, vol.488, pp.22-294, 2012.

J. M. Clomburg, A. M. Crumbley, and R. Gonzalez, Industrial biomanufacturing: The future of 686 chemical production, Science, vol.355, p.804, 2017.

J. L. Cordiner, Challenges for the PSE community in formulations, Computers & Chemical 688 Engineering, vol.29, pp.83-92, 2004.

M. O. Coppens, A nature inspired approach to reactor and catalysis engineering, Current 690 Opinion in Chemical Engineering, vol.1, pp.281-289, 2012.

E. L. Cussler and G. D. Moggridge, Chemical Product Design, 2001.

A. M. Davy, H. F. Kildegaard, and M. F. Andersen, Cell factory engineering. Cell Systems, vol.4, p.275, 2017.

M. S. Dresselhaus and I. L. Thomas, Alternative energy technologies, Nature, vol.414, pp.332-337, 2001.

V. ?. Ediger, E. Ho?gör, A. N. Sürmeli, and H. Tatl?dil, Fossil fuel sustainability index: An 697 application of resource management, Energy Policy, vol.35, pp.2969-2977, 2007.

G. Forte, A. Albano, M. J. Simmons, H. E. Stitt, E. Brunazzi et al., Assessing 700 Blending of Non-Newtonian Fluids in Static Mixers by Planar Laser-Induced Fluorescence, p.701, 2019.

, Electrical Resistance Tomography. Chemical Engineering and Technology, vol.42, issue.8, pp.1602-1610

M. Geissdoerfer, P. Savaget, N. M. Bocken, and E. J. Hultink, The Circular Economy -A new 703 sustainability paradigm, Journal of Cleaner Production, vol.143, pp.757-768, 2017.

P. H. Gleick, Water strategies for the next administration, Science, 2016.

A. Glindkamp, D. Riechers, C. Rehbock, B. Hitzmann, T. Scheper et al., , p.707, 2009.

, Disposable Bioreactors Status and Trends

, Advances in Biochemical Engineering / Biotechnology, vol.115

I. Grossmann, Enterprise-wide optimization: A new frontier in process systems engineering, 2005.

, AIChE Journal, vol.51, pp.1846-1857

V. Hessel, D. Kralisch, N. Kockmann, T. Noël, and Q. Wang, Novel Process Windows for, p.713, 2013.

, Uplifting Flow Chemistry, ChemSusChem, vol.6, pp.746-789

M. Hill, Product and process design for structured products, AIChE Journal, vol.50, 2004.

H. S. Kang, J. Y. Lee, S. Choi, H. Kim, J. H. Park et al., Smart 720 manufacturing: Past research, present findings, and future directions, International Journal, vol.721, p.23, 2016.

, Precision Engineering and Manufacturing-Green Technology, vol.3, pp.111-128

K. Klatt and W. Marquardt, Perspectives for process systems engineering -per-sonal views from 724 academia and industry, Comput Chem Eng, vol.33, pp.536-50, 2009.

W. Keller, Berufe 4.0 -Wie Chemiker und Ingenieure in der digitalen Chemie arbeiten, 2018.

D. Kolberg and D. Zühlke, Lean Automation enabled by Industry 4.0 Technologies, 2015.

, PapersOnLine, vol.48, issue.3, pp.1870-1875

M. Kummu, H. De-moel, M. Porkka, S. Siebert, O. Varis et al., Lost food, wasted 732 resources: Global food supply chain losses and their impacts on freshwater, cropland, and fertiliser 733 use, Science of The Total Environment, vol.438, pp.477-489, 2012.

Q. Liu, L. Zhang, L. Liu, J. Du, A. K. Tula et al., OptCAMD: An optimization-735 based framework and tool for molecular and mixture product design, Computers & Chemical 736 Engineering, vol.124, pp.285-301, 2019.

R. Monastersky, Global carbon dioxide levels near worrisome milestone, Nature, vol.497, pp.13-14, 2013.

C. Negro, F. Garcia-ochoa, P. Tanguy, G. Ferreira, J. Thibault et al., , 2018.

, Barcelona Declaration -10th World Congress of Chemical Engineering, pp.1-5, 2017.

, Chemical Engineering Research and Design, vol.129

E. Papargyropoulou, R. Lozano, K. Steinberger, J. Wright, N. Ujang et al., The food waste 743 hierarchy as a framework for the management of food surplus and food waste, Journal of Cleaner, vol.744, 2014.

H. M. Pereira, P. W. Leadley, V. Proenca, R. Alkemade, J. P. Scharlemann et al., , p.746

J. F. Araujo, M. B. Balvanera, P. Biggs, R. Cheung, W. W. Chini et al., , p.747

E. L. Guenette, S. Hurtt, G. C. Huntington, H. P. Mace, G. M. Oberdorff et al., , p.748

P. Rodrigues, R. J. Scholes, U. R. Sumaila, and M. Walpole, Scenarios for Global Biodiversity 749 in the 21st Century, Science, vol.330, pp.1496-1501, 2010.

T. P. Pham, R. Kaushik, G. K. Parshetti, R. Mahmood, and R. Balasubramanian, Food waste-to-751 energy conversion technologies: Current status and future directions, Waste Management, vol.38, p.408, 2015.

P. M. Piccione, Industrial Reflections on Modelling of Fine Chemicals and Seeds, 2014.

, Process/Product Design, vol.34

P. M. Piccione, Realistic interplays between data science and chemical engineering in the first 757 quarter of the 21st century: Facts and a vision, vol.147, pp.668-675, 2019.

J. M. Prausnitz, Hercules and Nausica: Three dimensions of chemical engineering in the 760 24 twenty-first century, Fluid Phase Equilibria, vol.261, issue.1-2, pp.3-17, 2007.

D. M. Roberge, B. Zimmermann, F. Rainone, M. Gottsponer, M. Eyholzer et al., , 2008.

, Microreactor Technology and Continuous Processes in the Fine Chemical and Pharmaceutical 763 Industry: Is the Revolution Underway?, Organic Process Research & Development, vol.12

R. Rosen, G. Von-wichert, G. Lo, and K. D. Bettenhausen, About The Importance of Autonomy 766 and Digital Twins for the Future of Manufacturing, IFAC-PapersOnLine, vol.48, pp.567-572, 2015.

I. Rossetti and M. Compagnoni, Chemical reaction engineering, process design and scale-up issues 769 at the frontier of synthesis: Flow chemistry, Chemical Engineering Journal, vol.17, pp.56-70, 2016.

K. Sanford, G. Chotani, N. Danielsen, and J. A. Zahn, Scaling up of renewable chemicals. Current 771 Opinion in, Biotechnology, vol.38, pp.112-122, 2016.

R. R. Schaller, Moore's law: past, present and future, IEEE Spectrum, vol.34, 1997.

R. A. Sheldon, Creen and sustainable manufacture of chemicals from biomass: state of the art, 2014.

, Green Chemistry, vol.16, pp.950-963

A. I. Stankiewicz, Y. , and P. , The missing link unearthed: Materials and process intensification, 2019.

, Industrial & Engineering Chemistry Research, vol.58, issue.22, pp.9212-9222

A. J. Straathof, S. A. Wahl, K. R. Benjamin, R. Takors, N. Wierckx et al., Grand 779 research challenges for sustainable industrial biotechnology, Trends in Biotechnology, vol.37, 2019.

H. S. Tapp, A. J. Peyton, E. K. Kemsley, and R. H. Wilson, Chemical engineering applications of 782 electrical process tomography, Sensors and Actuators B: Chemical, vol.92, pp.17-24, 2003.

Y. Tian, S. E. Demirel, M. Hasan, and E. N. Pistikopoulos, An overview of process systems 784 engineering approaches for process intensification: State of the art. Chemical Engineering & 785 Processing: Process Intensification, vol.133, pp.160-210, 2018.

P. Trogadas and M. O. Coppens, , 2020.

, Sustainable Nanoscale 788

, , pp.19-31

A. K. Tula, M. R. Eden, and R. Gani, Computer-Aided Process Intensification: Challenges, Trends 790 and Opportunities, AIChE Journal, vol.66, p.16819, 2020.

S. Validi, A. Bhattacharya, and P. J. Byrne, A case analysis of a sustainable food supply chain 792 distribution system-A multi-objective approach, International Journal of Production Economics, vol.793, pp.71-87, 2014.

J. E. Van-dam, B. De-klerk-engels, P. C. Struik, and R. Rabbinge, Securing renewable resource 795 supplies for changing market demands in a bio-based economy, Industrial Crops and Products, vol.21, pp.129-144, 2005.

K. M. Van-geem, V. V. Galvita, and G. B. Marin, Making chemicals with electricity, Science, p.364, 2019.

V. Venkatasubramanian, The promise of artificial intelligence in chemical engineering: Is it 800 here, finally?, AIChE Journal, vol.65, pp.466-478, 2019.

R. Vooradi, M. Bertran, R. Frauzem, S. B. Anne, and R. Gani, Sustainable chemical processing 802 and energy-carbon dioxide management: Review of challenges and opportunities, Chemical 803 Engineering Research and Design, vol.131, pp.440-464, 2018.

Z. Wang and A. Krupnick, A Retrospective Review of Shale Gas Development in the United 805 States: What Led to the Boom?, Economics of Energy & Environmental Policy, vol.4, issue.1, p.806, 2015.

J. Wei, T. W. Russel, and M. W. Swartzlander, The structure of the chemical processing 808 industries: function and economics, 1979.

S. T. Wismann, J. S. Engbaek, S. B. Vendelbo, F. B. Bendixen, W. L. Eriksen et al., , p.810

C. Frandsen, I. Chorkendorff, and P. M. Mortensen, Electrified methane reforming: A compact 811 approach to greener industrial hydrogen production, Science, vol.364, pp.756-759, 2019.

J. M. Woodley, Accelerating the implementation of biocatalysis in industry, Applied 814 Microbiology and Biotechnology, vol.103, pp.4733-4739, 2019.

F. You, L. Tao, D. J. Graziano, and S. W. Snyder, Optimal design of sustainable cellulosic biofuel 816 supply chains: Multiobjective optimization coupled with life cycle assessment and input-output 817 analysis, AIChE Journal, vol.58, pp.1157-1180, 2012.

L. Zhang, D. K. Babi, and R. Gani, New Vistas in Chemical Product and Process Design, Annual 819 Review of Chemical and Biomolecular Engineering, vol.7, pp.557-582, 2016.

L. Zhang, K. Y. Fung, C. Wibowo, and R. Gani, Advances in chemical product design, Reviews in, p.822, 2018.

, Chemical Engineering, vol.34, pp.319-340

J. Wu and J. M. Prausnitz, 110 th Anniversary: Molecular Thermodynamics -An Endless Frontier 824 IECR, vol.58, pp.9707-9708, 2019.