Process Synthesis

  • Ng, R.T.L.; Patchin, S.; Wu, W.; Sheth, N.; Maravelias, C.T. An optimization-based Web Application for Synthesis and Analysis of Biomass-to-fuels Strategies. Biofuels, Bioproducts & Biorefining, accepted.
  • (DOI: 10.1002/bbb.1821).
  • Kong, L.; Wu, Y.; Maravelias, C.T. Simultaneous Utility and Heat Exchanger Area Targeting for Integrated Process Synthesis and Heat Integration. Industrial & Engineering Chemistry Research, 56, 11847-11859, 2017.
  • Yenkie, K.M.; Wu, W.; Maravelias, C.T. Synthesis and analysis of separation networks for the recovery of intracellular chemicals generated from microbial-based conversions. Biotechnology for Biofuels, 10:119, 2017.
  • Kong, L.; Avadiappan, V.; Huang, K.; Maravelias, C.T. Simultaneous Chemical Process Synthesis and Heat Integration with Unclassified Hot/Cold Process Streams. Computers and Chemical Engineering, 101, 210-225, 2017.
  • Wu, W.; Yenkie, K.; Maravelias, C.T. A Superstructure-based Framework for Bioseparation Network Synthesis. Computers and Chemical Engineering, 96, 1-17, 2017.
    (DOI: 10.1016/j.compchemeng.2016.10.007).
  • Wu, W.; Henao, C.A.; Maravelias, C.T. A Superstructure Representation, Generation, and Modeling Framework for Chemical Process Synthesis. AIChE J., 62 (9), 3199-3214, 2016.
    (DOI: 10.1002/aic.15300).
  • Kong, L.; Sen, S.M.; Henao, C.A.; Dumesic, J.A.; Maravelias, C.T. A Superstructure-based Framework for Simultaneous Process Synthesis, Heat Integration, and Utility Plant Design. Computers and Chemical Engineering, 91, 68-84, 2016.
    (DOI:10.1016/j.compchemeng.2016.02.013).
  • Henao, C. A.; Maravelias, C. T.  Process superstructure optimization using surrogate models. AIChE J., 57(5), 1216-1232, 2011.
    (DOI: 10.1002/aic.12341).