School of Chemical Engineering

Crystallization and Particle Technology
Systems Engineering

Previous Publications

At Purdue University
  • Içten, E., Giridhar, A., Nagy, Z.K., Reklaitis, G.V. Drop-on-Demand System for Manufacturing of Melt-based Solid Oral Dosage: Effect of Critical Process Parameters on Product Quality. AAPS PharmSciTech. 2016. 17. 284-293.
  • Ridder, B.J., Majumder, A., Nagy, Z.K. Parametric, Optimization-Based Study on the Feasibility of a Multisegment Antisolvent Crystallizer for in Situ Fines Removal and Matching of Target Size Distribution. Industrial and Engineering Chemistry Research. 2016. 55. 2371-2380.
  • Yang, Y., Song, L., Zhang, Y., Nagy, Z.K. Application of wet milling-based automated direct nucleation control in continuous cooling crystallization processes. Industrial and Engineering Chemistry Research. 2016.55. 4987-4996
  • Içten, E., Giridhar, A., Taylor, L.S., Nagy, Z.K., Reklaitis, G.V. Dropwise additive manufacturing of pharmaceutical products for melt-based dosage forms. Journal of Pharmaceutical Sciences. 2015. 104. 1641-1649.
  • Koswara, A., Nagy, Z.K. Anti-fouling control of plug-flow crystallization via heating and cooling cycle. IFAC Proceedings Volumes (IFAC-PapersOnline). 2015. 48. 193-198.
  • Yang, Y., Song, L., Nagy, Z.K. Automated Direct Nucleation Control in Continuous Mixed Suspension Mixed Product Removal Cooling Crystallization. Crystal Growth and Design. 2015. 15. 5893-5848.
  • Lu J., Litster J.D., Nagy Z.K. Nucleation Studies of Active Pharmaceutical Ingredients in an Air-Segmented Microfluidic Drop-Based Crystallizer. Crystal Growth and Design. 2015. 15. 3645-3651.
  • Içten, E., Nagy, Z.K., Reklaitis, G.V. Modelling of Crystallization of Solid Oral Drug Forms in a Dropwise Additive Manufacturing System. Computer Aided Chemical Engineering.2015. 37. 2195-2200
  • Yang, Y., Song, L., Gao, T., Nagy, Z.K. Integrated Upstream and Downstream Application of Wet Milling with Continuous Mixed Suspension Mixed Product Removal Crystallization. Crystal Growth and Design. 2015. 15. 5879-5885.
  • Peña R., Nagy Z.K. Process Intensification through Continuous Spherical Crystallization Using a Two-Stage Mixed Suspension Mixed Product Removal (MSMPR) System. Crystal Growth and Design. 2015. 15. 4225-4236.
  • Yang, Y., Nagy, Z.K. Combined cooling and antisolvent crystallization in continuous mixed suspension, mixed product removal cascade crystallizers: Steady-state and startup optimization. Industrial and Engineering Chemistry Research. 2015.54. 5673-5682.
  • Acevedo, D., Tandy, Y., Nagy, Z.K. Multiobjective optimization of an unseeded batch cooling crystallizer for shape and size manipulation. Industrial and Engineering Chemistry Research. 2015. 54. 2156-2166.
  • Yang, Y., Nagy, Z.K. Advanced control approaches for combined cooling/antisolvent crystallization in continuous mixed suspension mixed product removal cascade crystallizers. Chemical Engineering Science. 2015. 127. 362-373.
  • Ridder, B.J., Majumder, A., Nagy, Z.K. Population balance model-based multiobjective optimization of a multisegment multiaddition (MSMA) continuous plug-flow antisolvent crystallizer. Industrial and Engineering Chemistry Research. 2014.53. 4387-4397.
  • Icten, E.Z., Nagy, Z.K., Reklaitis, G.V. Supervisory control of a drop on demand mini-manufacturing system for pharmaceuticals. Computer Aided Chemical Engineering. 2014. 33. 535-540.
  • Acevedo, D., Nagy, Z.K. Systematic classification of unseeded batch crystallization systems for achievable shape and size analysis. Journal of Crystal Growth. 2014. 394. 97-105.