MIGUEL J. BAGAJEWICZ

100 E. Boyd St., T-335, Norman, OK 73019-0628, bagajewicz@ou.edu



ARTICLES ON ENERGY & WORK INTEGRATION (HEAT+POWER+H2 NETWORKS)
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      Articles Submitted

  1. Hui T., M. J. Bagajewicz, A. L. H. Costa and Z. Liao. On a Novel Branch and Bound Method for the Synthesis of Globally Optimal Minimal Heat Exchanger Networks: Part I: Methodology. Chemical Engineering Science.
  2. Hui T., M. J. Bagajewicz, A. L. H. Costa and Z. Liao. On a Novel Branch and Bound Method for the Synthesis of Globally Optimal Minimal Heat Exchanger Networks: Part II: General Superstructures and Parallel Processing. Chemical Engineering Science.

      Articles Accepted

          None

      Articles

  1. Oliva D., A. L. M. Nahes, J. Lemos J., A. L. H. Costa and M. Bagajewicz. Globally Optimal Simultaneous Heat Exchanger Network Synthesis and Basic Heat Exchanger Design. AICHE J. DOI: 10.1002/aic.18450 (2024)  
  2. Lin, Q., Z. Liao, M. Bagajewicz. Globally Optimal Design of Minimal WHEN Systems Using Enumeration. AIChE Journal https://doi.org/10.1002/aic.17878 (2023). 
  3. Chang C., Z. Liao and M. J. Bagajewicz. New Superstructure-Based Model for the Globally Optimal Synthesis of Hydrogen Networks. Journal of Cleaner Production. Volume 292, 10 April (2021).
  4. Chang C., Z. Liao, A.L.H. Costa and M. Bagajewicz. Globally Optimal Synthesis of Heat Exchanger Networks - Part III - Non Isothermal Mixing in Minimal and Non-Minimal Networks. AIChE Journal. 67, 11 (2021).
  5. Chang C., Z. Liao, A.L.H. Costa and M. Bagajewicz. Globally Optimal Synthesis of Heat Exchanger Networks - Part II - Non-Minimal Networks. AIChE Journal. 66, 7 (2020).
  6. Chang C., A. Peccini, Y. Wang, A.L.H. Costa and M. Bagajewicz. Globally Optimal Synthesis of Heat Exchanger Networks - Part I - Minimal Networks. AIChE Journal., 66, 7 (2020).
  7. Kim S. Y. and M. Bagajewicz. Global Optimization of Heat Exchanger Networks. Part I: Stages/Substages Superstructure. Industrial and Engineering Chemistry Research. v. 56, 5944-5957 (2017).
  8. Kim S. Y. and M. Bagajewicz. Global Optimization of Heat Exchanger Networks. Part II: Stages/Substages Superstructure with variable Cp. Industrial and Engineering Chemistry Research. v. 56, 5958−5969 (2017).
  9. Kim S. Y. and M. Bagajewicz . Global Optimization for Heat Exchanger Network Design using a Generalized Superstructure. Chemical Engineering Science, 147, pp. 30-46 (2016).

  10. Faria D., S. Y. Kim and M. Bagajewicz.Global Optimization of the Stage-wise Superstructure Model for Heat Exchanger Networks. Industrial and Engineering Chemistry Research. Vol. 54 No 5, pp 1595–1604 (2015).

  11. Bagajewicz M., G. Valtinson and D. Nguyen. On the Minimum Number of Units in Heat Exchanger Networks. Industrial and Engineering Chemistry Research. Vol. 52, No 42, pp. 14913-14926 (2013)

  12. Bagajewicz M., G. Valtinson and D. Nguyen. Retrofit of Crude Units Pre-Heating Trains: Mathematical Programming vs. Pinch Technology. Industrial and Engineering Chemistry Research. Vol. 52, No 42, pp. 14913-14926 (2013).

  13. Nguyen D. Q., A. Barbaro, D. Q. Nguyen, N. Vipanurat and M. J. Bagajewicz. All-at-once and Step-wise Detailed Retrofit of Heat Exchanger Networks Using an MILP Model. Industrial and Engineering Chemistry Research. 49, No 13, pp. 6080–6103 (2010).

  14. Bagajewicz M., Thang Cao, Robbie Crosier, Scott Mullin, Jacob Tarver, and DuyQuang Nguyen. Method for Evaluation of Thermochemical and Hybrid Water-Splitting Cycles.Industrial and Engineering Chemistry Research. 48, 19, pp. 8985-8998 (2009).

  15. Bogataj M. and M. Bagajewicz. Synthesis of non-isothermal heat integrated water networks in chemical processes. Computers and Chemical Engineering.

  16. Barbaro A., M. Bagajewicz, N. Vipanurat, K. Siemanond. An MILP Model For Heat Exchanger Networks Retrofit. Chemical Engineering Transactions. Vol 6. AIDIC Servizi S.r.l. (2005).

  17. Lavaja J. and M. Bagajewicz. A New MILP Model for the Planning of Heat Exchanger Network Cleaning. Part III: Multiperiod Cleaning under Uncertainty with Financial Risk Management. Industrial and Engineering Chemistry Research. Vol. 44, 21, pp. 8136-8146 (2005).

  18. Lavaja J. and M. Bagajewicz. A New MILP Model for the Planning of Heat Exchanger Network Cleaning. Part II: Throughput Loss Considerations. Industrial and Engineering Chemistry Research . Vol. 44, 21, pp. 8046-8056 (2005).

  19. Lavaja J. and M. Bagajewicz. A New MILP Model for the Planning of Heat Exchanger Network Cleaning. Industrial and Engineering Chemistry Research. Special issue honoring Arthur Westerberg. Vol. 43, No 14, pp. 3924 – 3938 (2004).

  20. Barbaro A. and M. Bagajewicz. New Rigorous One-Step MILP Formulation for Heat Exchanger Network Synthesis. Computers and Chemical Engineering. Vol 29, 9, pp. 1945-1976 (2005).

  21. Lavaja J. and M. Bagajewicz. Managing Financial Risk in the Planning of HEN Cleaning. Computer Aided Chemical Engineering, 20, pp. 235-240 (2004).

  22. Bagajewicz M. and A. F. Barbaro. Financial Risk Management in the Planning of Energy Recovery in the Total Site. Industrial and Engineering Chemistry Research. Vol. 42, No 21, pp. 5239-5248 (2003).

  23. Bagajewicz M., A. F. Barbaro. On the Use of Heat Pumps in Total Site Heat Integration. Computers and Chemical Engineering. Vol. 27, No 11 , pp. 1707-1719 (2003).

  24. Bagajewicz M. and H. Rodera. Multiple Plant Heat Integration in the Total Site. AIChE J. Vol. 48, No. 10, pp. 2255-2270. (2002).

  25. Bagajewicz M., H. Rodera and M. Savelski. Energy Efficient Water Utilization Systems in Refineries and Process Plants.Computers and Chemical Engineering. Vol. 26, No 1, pp. 56-79 (2002).

  26. Bagajewicz M., Shuncheng Ji and J. Soto. Heat Exchanger Networks for Petroleum Fractionation Units Handling Crudes of Different Density.. Latin American Applied Research. 31, 4, pp. 339-344 (2001).

  27. Bagajewicz M. and H. Rodera. On the use of Heat Belts for Energy Integration across many Plants in the Total Site.. The Canadian Journal of Chemical Engineering., A7(6), pp. 633-642 (2001).

  28. Rodera H. and M. Bagajewicz. Targeting Procedures for Energy Savings in the Total Site. Latin American Applied Research. 31, 5, pp. 477-482 (2001).

  29. Rodera H. and M. Bagajewicz. Multipurpose Heat Exchanger Networks for Heat Integration across Chemical Plants. Industrial and Engineering Chemistry Research. Vol. 40, No 23, pp. 5585-5603 (2001).

  30. Rodera H., M. Savelski and M. Bagajewicz (University Of Oklahoma); F. Hess and T. Seidel (Phillips Petroleum). Energy Retrofit with Simultaneous Energy Optimization for a Crude Fractionation Unit. Latin American Applied Research. 31, 5, pp. 483-486 (2001).

  31. Bagajewicz M. and H. Rodera. Energy Savings in the Total Site. Heat Integration across many Plants. Computers and Chemical Engineering, 24, No 2-7, pp. 1237-1242 (2000). This paper has a Corrigendum

  32. Rodera H. and M.  Bagajewicz. Targeting Procedures for Energy Savings through Heat Integration across Plants. AIChE J. Vol. 45, No. 8, pp. 1721-1742 (1999).

  33. Bagajewicz M. Energy Savings Horizons for the Retrofit of Chemical Processes. Application to Crude Fractionation Units. Computers and Chemical Engineering, 23, 1, 1-10 (1998).

  34. Bagajewicz M. and V. Manousiouthakis. Mass/Heat-Exchanger Network Representation of Distillation Networks. AIChE Journal, Vol., 38, 11, 1769-1800, (1992).

  35. Bagajewicz M.   Optimal Design of the Steam and Power System in Chemical Plants. Latin American Applied Research, Vol. 18, 2, 105, (1989).

  36. Doldán O., M. Bagajewicz and J. Cerdá. Designing Heat Exchanger Networks for Existing Chemical Plants. Computers and Chemical Engineering. Vol. 9, No 5, (1985).

  37. Doldán O., M Bagajewicz y J. Cerdá. Optimal Synthesis of Heat and Power Generation and Recovery Systems. Part Two: Maximum Profitable Heat Recovery. Latin American Journal of Heat and Mass Transfer. Vol. 9, No 1, (1985).

  38. Doldán O., M. Bagajewicz y J. Cerdá. Optimal Synthesis of Heat and Power Generation and Recovery Systems. Part One: Optimal Heating Utility Assignment. Latin American Journal of Heat and Mass Transfer. Vol. 8 No 3/4, (1984).


    39. Peer Reviewed Conference Proceedings

  39. Jongsuwat Pitak , U. Suriyapraphadilok and M. Bagajewicz, Proceedings of PRES 2014. 17th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction. August 23-27, Prague, Czech Republic. New Heat Exchanger Network Design Model. (2014)

  40. Bagajewicz M., G. Valtinson and D. Nguyen. Energy Retrofit of Crude Units: Pinch Technology vs. Mathematical Programming. Proceedings of the  Sustainable Chemical Product and Process Engineering Conference.  (2103).
  41. Martinez D. E., J. C. Bruno, M. Bagajewicz, A. Coronas. Performance analysis of absorption chillers using data reconciliation, Proceedings of the ASME 2010 10th Biennial Conference on Engineering Systems Design and Analysis,  ESDA2010-24156, July 2010,
  42. Barbaro A., M. Bagajewicz, N. Vipanurat, K. Siemanond. An MILP Model For Heat Exchanger Networks Retrofit. Proceedings of PRES 05. 7th Conference Process Integration, Modeling and Optimisation for Energy Saving and Pollution Reduction. May 15-18. Giardini Naxos. Italy (2005).

  43. Barbaro A. and M. Bagajewicz. New One-Stage MILP Procedure for HEN Design and Retrofit.  Proceedings of PRES 2002. 5th Conference Process Integration, Modeling and Optimisation for Energy Saving and Pollution Reduction. Prague, Czech Republic. August (2002).

  44. Bagajewicz M. and A. Barbaro. Financial Planning with Risk Control of Energy Recovery in the Total Site. Proceedings of ESCAPE 12. The Hague, May (2002).

  45. Barbaro A., P. Charles and M. Bagajewicz. Financial Planning for Energy Recovery in the Total Site. Proceedings of ENPROMER 2001. Third Congress of Process Engineering for the Mercosur.  Santa Fe, Argentina. September (2001).

  46. Barbaro A., H. Rodera and M. Bagajewicz. Use of Heat Pumps for Integration in the Total Site. Proceedings of PRES 2001. 4th Conference Process Integration, Modeling and Optimisation for Energy Saving and Pollution Reduction. Florence, Italy. May (2001).

  47. Rodera H. and M. Bagajewicz. Targeting Procedures for Energy Savings in the Total Site. Proceedings of ENPROMER 99. Florianopolis, Brazil. (2001).

  48. Rodera H. and M. Bagajewicz. Multipurpose Heat Exchanger Networks for Heat Integration across Plants.  Proceedings of PRES 99 Meeting.  Budapest, June (1999).

  49. Bagajewicz M.  Optimal Design of Steam and Power Systems in Chemical Plants. Proceedings of the II Latin American Congress of Heat and Mass Transfer, (1986).