Yuhe Tian

Ph.D. Student ytian@tamu.edu

Publications

  1. Pistikopoulos, E. N.; Tian, Y Synthesis and Operability Strategies for Computer-Aided Modular Process Intensification; Elsevier, 2022.
  2. Tian, Y.; Meduri, V.; Bindlish, R.; Pistikopoulos, E. N A Process Intensification Synthesis Framework for the Design of Dividing Wall Column Systems. Computers & Chemical Engineering 2022, 107679.
  3. Tian, Y.; Pappas, I.; Burnak, B.; Katz, J.; Pistikopoulos, E. N. Simultaneous Design & Control of a Reactive Distillation System - A Parametric Optimization & Control Approach. Chemical Engineering Science 2021, 116232.
  4. Pistikopoulos, E. N.; Tian, Y.; Bindlish, R. Operability and Control in Process Intensification and Modular Design: Challenges and Opportunities. AIChE Journal 2021, Available online.
  5. Vedant, S.; Atencio, M. R.; Tian, Y.; Meduri, V.; Pistikopoulos, E. N Towards a Software Prototype for Synthesis of Operable Process Intensification Systems. Computer Aided Chemical Engineering; Elsevier, 2021; pp 767-772.
  6. Tian, Y.; Pistikopoulos, E. N. A process intensification synthesis framework for the design of extractive separation systems with material selection. Journal of Advanced Manufacturing and Processing 2021,.
  7. Avraamidou, S.; Baratsas, S.; Tian, Y.; Pistikopoulos, E. N. Circular Economy - a challenge and an opportunity for Process Systems Engineering. Computers & Chemical Engineering 2020, 133, 106629.
  8. Tian, Y.; Pappas, I.; Burnak, B.; Katz, J.; Pistikopoulos, E. N. A Systematic Framework for the Synthesis of Operable Process Intensification Systems - Reactive Separation Systems. Computers & Chemical Engineering 2020, 134, 106675.
  9. Tian, Y.; Pistikopoulos, E. N. Operability and Safety Considerations in Process Intensification. In IFAC-PapersOnLine, IFAC-PapersOnLine; IFAC-PapersOnLine, 2020; Paper 2, pp 11434-11439.
  10. Tian, Y.; Pistikopoulos, E. N. Towards an Envelope of Design Solutions for Combined/Intensified Reaction/Separation Systems. Industrial and Engineering Chemistry Research 2020, 59 (24), 11350-11354.
  11. Tian, Y.; Pistikopoulos, E. N. Synthesis of Operable Process Intensification Systems - Steady-state Design with Safety and Operability Considerations. Industrial & Engineering Chemistry Research 2019, 58 (15), 6049-6068.
  12. Tian, Y.; Pistikopoulos, E. N. Synthesis of operable process intensification systems: advances and challenges. Current Opinion in Chemical Engineering 2019, 25, 101-107.
  13. Tian, Y.; Pappas, I. S.; Katz, J.; Burnak, B.; Avraamidou, S.; Diangelakis, N. A.; Pistikopoulos, E. N. Towards a systematic framework for the synthesis of operational process intensification systems - Application to reactive distillation systems. 29th European Symposium on Computer-Aided Process Engineering (ESCAPE-29); Elsevier, 2019; pp 73-78.
  14. Tian, Y.; Pistikopoulos, E. N. Generalized modular representation framework for the synthesis of extractive separation systems. Foundations of Computer-Aided Process Design (FOCAPD 2019); Elsevier, 2019; pp 475-480.
  15. Tian, Y.; Mannan, M. S.; Pistikopoulos, E. N. Towards a systematic framework for the synthesis of operable process intensification systems. 13th International Symposium on Process Systems Engineering (PSE 2018); Elsevier, 2018; pp 2383-2388.
  16. Tian, Y.; Mannan, M. S.; Kravanja, Z.; Pistikopoulos, E. N. Towards the synthesis of modular process intensification systems with safety and operability considerations - application to heat exchanger network. 28th European Symposium on Computer-Aided Process Engineering (ESCAPE-28); Elsevier, 2018; pp 705-710.
  17. Tian, Y.; Demirel, S. E.; Hasan, M. M. F.; Pistikopoulos, E. N. An Overview of Process Systems Engineering Approaches for Process Intensification: State of the Art. Chemical Engineering & Processing: Process Intensification 2018, 133, 160-210.
  18. Niziolek, A. M.; Onel, O.; Tian, Y.; Floudas, C. A.; Pistikopoulos, E. N. Municipal Solid Waste to Liquid Transportation Fuels - Part III: An Optimization-Based Nationwide Supply Chain Management Framework. Computers & Chemical Engineering 2018, 116, 468-487.

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