Publications

Refereed

1. N. Hossain, S. K. Bhattacharia, C.-C. Chen, "Temperature Dependence of Interaction Parameters in Electrolyte NRTL Model", AIChE Journal, 62 (4), 1244-1253 (2016).
2. M. Wang, Y. Hao, M. R. Islam, C.-C. Chen, "Aggregation Thermodynamics for Asphaltene Precipitation", AIChE Journal , 62 (4), 1254-1264 (2016).
3. M. Wang, Y. Yu, C.-C. Chen, "Modeling Mixed-Solvent Electrolyte Systems", Chemical Engineering Progress, 112 (2), 34-42 (2016).
4. N. H. Nguyen, F. Hussain, C.-C. Chen, "Correlations for Densities of Aqueous Electrolyte Solutions", Journal of Chemical and Engineering Data, 61 (2), 740-747 (2016).
5. S. Tanveer, C.-C. Chen, "Thermodynamic Modeling of Aqueous Ca²⁺ - Na⁺ - K⁺ - Cl ^- Quarternary System", Fluid Phase Equilibria, 409, 193-206 (2016) (DOI: 10.1016/j.fluid.2015.09.048).
6. M. Wang, M. B. Gorensek, C.-C. Chen, "Thermodynamic Representation of Aqueous Sodium Nitrate and Nitric Acid Solution with Electrolyte NRTL Model", Fluid Phase Equilibria, 407, 105-116 (2016) (DOI: 10.1016/j.fluid.2015.04.015).
7. S. K. Bhattacharia, C.-C. Chen, "Thermodynamic Modeling of KCl + H₂O and NaCl + NaCI + H₂ Systems using Electrolyte NRTL Model", Fluid Phase Equilibria, 387, 169-177 (2015) (DOI: 10.1016/j.fluid.2014.12.014)
8. S. Tanveer, C.-C. Chen, "Thermodynamic Modeling of Aqueous Ca²⁺ - Na⁺ - K⁺ - Cl ^- Quarternary System", Fluid Phase Equilibria, 409, 193-206 (2016) (DOI: 10.1016/j.fluid.2015.09.048)
9. N. Hossain, S. K. Bhattacharia, C.-C. Chen, "Temperature Dependence of Interaction Parameters in Electrolyte NRTL Model," AIChE Journal (2015) (DOI: 10.1002/aic.15080).
10. S. K. Bhattacharia, S. Tanveer, N. Hossain, C.-C. Chen, "Thermodynamic Modeling of Aqueous Na⁺ - K⁺ - Cl^- - SO₄^2- Quaternary System", Fluid Phase Equilibria, 403, 141-149 (2015) (DOI: 10.1016/j.fluid.2015.05.045)
11. S. K. Bhattacharia, N. Hossain, C.-C. Chen, "Thermodynamic Modeling of Aqueous Na⁺ - K⁺ - Cl ^- - SO₄^2- Quaternary System with Electrolyte NRTL Model", Fluid Phase Equilibria , 403, 1-9 (2015) (DOI: 10.1016/j.fluid.2015.05.045)
12. S. K. Bhattacharia, S. Tanveer, N. Hossain, C.-C. Chen, "Thermodynamic Modeling of Aqueous Na+-r-Mg2+-SO42- Quarternary System," Fluid Phase Equilibria, 404, 141-149 (2015) (DOI: 10.1016/j.fluid.2015.07.002).
13. M. Wang, M. B. Gorensek, C.-C. Chen, "Thermodynamic Representation of Aqueous Sodium Nitrate and Nitric Acid Solution with Electrolyte NRTL Model", Fluid Phase Equilibria, SI (2015).
14. S. Saravi, S. Honarparvar, C.-C. Chen, "Modeling Aqueous Electrolyte Systems", CEP, 111 (3), 65-75 (2015).
15. S. K. Bhattacharia, C.-C. Chen, “Thermodynamic Modeling of KCl+H₂O and KCl+NaCl+H₂O Systems Using Symmetric Electrolyte NRTL Model,” Fluid Phase Equilibria, 387, 169-177 (2015) (DOI: 10.1016/j.fluid.2014.12.014)
16. Md R. Islam, C.-C. Chen, “COSMO-SAC Sigma Profile Generation with Conceptual Segment Concept,” Industrial & Engineering Chemistry Research, 54, 4441-4454 (2015) (DOI: 10.1021/ie503829b)
17. S. Tanveer, Y. Hao, C.-C. Chen, “Introduction to Solid-Fluid Equilibrium Modeling”, Chemical Engineering Progress , 110, 9, 37-47 (2014).
18. Y. Zhang, C.-C. Chen, “Modeling CO₂ Absorption and Desorption by Aqueous Monoethanolamine Solution with Aspen Rate-Based Model”, Energy Procedia, 37, 1584-1596 (2013).
19. E. Sheikholeslamzadeh, C.-C. Chen, S. Rohani “Optimal Solvent Screening for the Crystallization of Pharmaceutical Molecules from Multi-Solvent Systems”, Industrial & Engineering Chemistry Research, 51, 13792-13802 (2012).
20. B. Hanley, C.-C. Chen, “Useful Mass Transfer Correlations for Packed Towers”, AIChE Journal, 58, 132-152 and 2290-2293 (2012).
21. Y. Zhang, H. Que, C.-C. Chen, “Thermodynamic Modeling of CO₂ Absorption in Aqueous MEA Solution with Electrolyte NRTL Model”, Fluid Phase Equilibria, 311, 68-76 (2011).
22. H. Que, C.-C. Chen, “Thermodynamic Modeling of the NH₃-CO₂-H₂O System with Electrolyte NRTL Model”, Industrial & Engineering Chemistry Research, 50, 11406-11421 (2011).
23. M. D. Meixell, Jr., B. Gochenour, C.-C. Chen, “Industrial Applications of Plant-Wide Equation-Oriented Process Modeling - 2010”, Advances in Chemical Engineering, 40, 119-152 (2011).
24. L. Zong, C.-C. Chen, “Thermodynamic Modeling of CO₂ and H₂S Solubilities in Aqueous DIPA Solution, Aqueous Sulfolane-DIPA Solution, and Aqueous Sulfolane-MDEA Solution with Electrolyte NRTL Model”, Fluid Phase Equilibria, 306, 190-203 (2011).
25. Y. Yan, C.-C. Chen, “Thermodynamic Representation of the NaCl-Na2SO4-H2O System with Electrolyte NRTL Model”, Fluid Phase Equilibria, 306, 149-161 (2011).
26. H. Que, Y. Song, C.-C. Chen, “Thermodynamic Modeling of the Sulfuric Acid-Water-Sulfur Trioxide System with the Symmetric Electrolyte NRTL Model”, Journal of Chemical and Engineering Data, 56, 963-977 (2011).
27. Y. Zhang, C.-C. Chen, “Modeling Gas Solubilities in Aqueous Methyldiethanolamine Solution”, Industrial & Engineering Chemistry Research, 50, 6436-6446 (2011).
28. S. Wang, Y. Song, C.-C. Chen, “Extension of COSMO-SAC Solvation Method for Electrolytes”, Industrial & Engineering Chemistry Research, 50, 176-187 (2011).
29. Y. Zhang, C.-C. Chen, “Thermodynamic Modeling of CO₂ Absorption in Aqueous Methyldiethanolamine Solution with Electrolyte NRTL Model”, Industrial & Engineering Chemistry Research, 50, 163-175 (2011).
30. Y. Yan, C.-C. Chen, “Thermodynamic Modeling of CO₂ Solubility in Aqueous Solutions of NaCl and Na₂ SO₄,” Journal of Supercritical Fluids, 55, 623-634 (2010).
31. L. Zong, S. Ramanathan, C.-C. Chen, “Predicting Thermophysical Properties of Mono- and Diglycerides with the Chemical Constituent Fragment Approach”, Industrial & Engineering Chemistry Research, 49, 5479-5484 (2010).
32. L. Zong, S. Ramanathan, C.-C. Chen, “Fragment-Based Approach for Estimating Thermophysical Properties of Fats & Vegetable Oils for Modeling Biodiesel Production Processes”, Industrial & Engineering Chemistry Research, 49, 876-886 and 3022-3023 (2010).
33. Y. Zhang, H. Chen, J. Plaza, R. Dugas, G. Rochelle, C.-C. Chen, “Rate-Based Process Modeling Study of CO₂ Capture with Aqueous MEA Solution”, Industrial & Engineering Chemistry Research, 48, 9233-9246 (2009).
34. Y. Song, C.-C. Chen, “Symmetric Electrolyte Nonrandom Two-Liquid Activity Coefficient Model”, Industrial & Engineering Chemistry Research, 48, 7788-7797 (2009).
35. Y. Song, C.-C. Chen, “Symmetric Nonrandom Two-Liquid Segment Activity Coefficient Model for Electrolytes”, Industrial & Engineering Chemistry Research, 48, 5522-5529 (2009).
36. S. Wang, S. Watanasiri, S.-T. Lin, C.-C. Chen, “Use of GAMESS/COSMO Program in Support of COSMO-SAC Model Applications in Phase Equilibrium Prediction Calculations”, Fluid Phase Equilibria, 276, 38-46 (2009).
37. L. D. Simoni, J. F. Brennecke, M. A. Stadtherr, C.-C. Chen, “Correlation and Prediction of Phase Behavior of Organic Compounds in Ionic Liquids Using NRTL-SAC”, Industrial & Engineering Chemistry Research, 47, 7081-7093 (2008).
38. G. M. Bollas, C.-C. Chen, P. I. Barton, “Refined Electrolyte-NRTL Model: Activity Coefficient Expressions for Application to Multi-Electrolyte Systems”, AIChE Journal, 54, 1608-1624 (2008).
39. P. B. Kokikar, E. Plocharczyk, C.-C. Chen, “Modeling Drug Molecule Solubility to Identify Optimal Solvent Systems for Crystallization”, Organic Process Research & Development, 12, 249-256 (2008).
40. H.-H. Tung, J. Tabora, N. Variankaval, D. Bakken, C.-C. Chen, “Prediction of Pharmaceutical Solubility via NRTL-SAC and COSMO-SAC”, Journal of Pharmaceutical Sciences, 97, 1813-1820 (2008).
41. S. Wang, C.-C. Chen, S. I. Sandler, “Refinement of COSMO-SAC and the Applications”, Industrial & Engineering Chemistry Research, 46, 7275-7288 (2007).
42. C.-C. Chen, P. A. Crafts, “Correlation and Prediction of Drug Molecule Solubility in Mixed Solvent Systems with the Non-Random Two-Liquid Segment Activity Coefficient (NRTL-SAC) Model”, Industrial & Engineering Chemistry Research, 45, 4816-4824 (2006).
43. C.-C. Chen, P. A. Crafts, “Correlation and Prediction of Drug Molecule Solubility with the NRTL-SAC Model”, Computer Aided Chemical Engineering, 21, Part 1, 859-864 (2006).
44. E. Mullins, R. Oldland, Y. A. Liu, S. Wang, S. I. Sandler, M. Zwolak, K. C. Seavey, C.-C. Chen, “Sigma-Profile Database for Using COSMO-Based Thermodynamic Methods”, Industrial & Engineering Chemistry Research, 45 , 4389-4415 (2006).
45. C.-C. Chen, “Toward Development of Activity Coefficient Models for Process and Product Design of Complex Chemical Systems”, Fluid Phase Equilibria, 241, 103-112 (2006).
46. C.-C. Chen, Y. Song, “Extension of NonRandom Two-Liquid Segment Activity Coefficient Model for Electrolytes”, Industrial & Engineering Chemistry Research, 44, 8909-8921 (2005).
47. C.-C. Chen, Y. Song, “Solubility Modeling with NonRandom Two-Liquid Segment Activity Coefficient Model”, Industrial & Engineering Chemistry Research, 43, 8354-8362 (2004).
48. L. T. Novak, Y. Song, C.-C. Chen, “Segment-Based Eyring-NRTL Viscosity Model for Mixtures Containing Polymers”, Industrial & Engineering Chemistry Research, 43, 6231-6237 (2004).
49. K. C. Seavey, Y. A. Liu, T. Lee, N. P. Khare, B. Lucas, J. Pettrey, T. N. Williams, J. Mattson, C. Larkin, E. Schoenborn, C.-C. Chen, “New Mass-Transfer Model for Simulating Industrial Nylon-6 Production Trains”, Industrial & Engineering Chemistry Research, 43, 5063-5076 (2004).
50. Y. Song, C.-C. Chen, “Generalized Electrolyte NRTL Model for Mixed-Solvent Electrolyte Systems,” AIChE Journal, 50, 1928-1941 (2004)
51. N. P. Khare, B. Lucas, K. C. Seavey, Y. A. Liu, A. Sirohi, S. Ramanathan, Y. Song, S. Lingard, C.-C. Chen, “Steady State and Dynamic Modeling of Gas-Phase Polypropylene Processes Using Stirred-Bed Reactors”, Industrial & Engineering Chemistry Research, 43, 884-900 (2004).
52. K. C. Seavey, N. P. Khare, Y. A. Liu, T. Bremner, C.-C. Chen, “Quantifying Relationships among Molecular Weight Distribution, Non-Newtonian Shear Viscosity, & Melt Index for Linear Polymers”, Industrial & Engineering Chemistry Research, 42, 5354-5362 (2003).
53. K. C. Seavey, N. P. Khare, Y. A. Liu, T. N. Williams, C.-C. Chen, “A New Phase-Equilibrium Model for Simulating Nylon-6 Polymerization Processes”, Industrial & Engineering Chemistry Research, 42, 3900-3913 (2003).
54. Y. Song, P. M. Mathias, D. A. Tremblay, C.-C. Chen, “Liquid Viscosity Model for Polymer Solutions and Mixtures”, Industrial & Engineering Chemistry Research, 42, 2415-2422 (2003).
55. S. Behme, G. Sadowski, Y. Song, C.-C. Chen, “A Multicomponent Flash Algorithm for Mixtures Containing Polydisperse Polymers”, AIChE Journal, 49, 258-268 (2003).
56. N. P. Khare, K. C. Seavey, Y. A. Liu, S. Ramanathan, S. Lingard, C.-C. Chen, “Steady-State and Dynamic Modeling of Commercial Slurry High-Density Polyethylene (HDPE) Processes”, Industrial & Engineering Chemistry Research , 41, 5601-5618 (2002).
57. P. M. Mathias, N. Orbey, C.-C. Chen, “Hasan Orbey-An Exceptional Applied Thermodynamicist and A Special Friend”, Industrial & Engineering Chemistry Research, 41, 5, 885-886 (2002).
58. E. L. Cheluget, C. P. Bokis, L. Wardhaugh, J. Fisher, C.-C. Chen, “Modeling Polyethylene Fractionation Using the Perturbed-Chain Statistical Associating Fluid Theory Equation of State”, Industrial & Engineering Chemistry Research, 41, 968-988 (2002).
59. C.-C. Chen, P. M. Mathias, "Applied Thermodynamics for Process Modeling", AIChE Journal, 48, 194-200 (2002).
60. C.-C. Chen, C. P. Bokis, P. M. Mathias, “Segment-Based Excess Gibbs Energy Model for Aqueous Organic Electrolyte Systems”, AIChE Journal, 47, 2593-2602 (2001).
61. C.-C. Chen, P. M. Mathias, H. Orbey, “Use of Hydration and Dissociation Chemistries with the Electrolyte NRTL Model”, AIChE Journal, 45, 1576-1586 (1999).
62. C. P. Bokis, H. Orbey, C.-C. Chen, “A Segment Contribution Method for the Vapor Pressure of Tall-Oil Chemicals”, Fluid Phase Equilibria, 155, 193-203 (1999).
63. C. P. Bokis, H. Orbey, C.-C. Chen, “Properly Model Polymer Processes”, Chemical Engineering Progress, 95 , 39-52 (1999).
64. H. Orbey, C. P. Bokis, C.-C. Chen, “Equation of State Modeling of Phase Equilibrium in the Low-Density Polyethylene Process: The Sanchez-Lacombe, Statistical Associating Fluid Theory, and Polymer-Soave-Redlich-Kwong Equations of State”, Industrial & Engineering Chemistry Research, 37, 4481-4491 (1998).
65. H. Orbey, C. P. Bokis, C.-C. Chen, “An Extension of Cubic Equations of State to Vapor-Liquid Equilibria in Polymer-Solvent Mixtures”, Fluid Phase Equilibria, 145, 169-192 (1998).
66. H. Orbey, C. P. Bokis, C.-C. Chen, “Polymer-Solvent Vapor-Liquid Equilibrium: Equations of State versus Activity Coefficient Models”, Industrial & Engineering Chemistry Research, 37, 1567-1573 (1998).
67. C.-C. Chen, "Molecular Thermodynamic Model for Gibbs Energy of Mixing of Nonionic Surfactant Solutions", AIChE Journal, 42, 3231-3240 (1996)
68. J. King, D. I. C. Wang, C.-C. Chen, “A Molecular Thermodynamic Model for Helix-Helix Docking and Protein Aggregation”, AIChE Journal, 41, 1015-1024 (1995).
69. C.-C. Chen, “A Segment-Based Local Composition Model for the Gibbs Energy of Polymer Solutions”, Fluid Phase Equilibria, 83, 301-312 (1993).
70. C.-C. Chen, Y. Zhu, J. King, L. B. Evans, “Molecular Thermodynamic Model to Predict the α-Helical Secondary Structure of Polypeptides Chains in Solution”, Biochemistry, 31, 10591-10601 (1992).
71. C.-C. Chen, Y. Zhu, J. King, L. B. Evans, “A Molecular Thermodynamic Approach to Predict the Secondary Structure of Homo-polypeptides in Aqueous Systems”, Biopolymers, 32, 1375-1392 (1992).
72. G. H. Ko, M. M. Osias, D. T. Tremblay, M. D. Barrera, C.-C. Chen, “Process Simulation in Polymer Manufacturing”, Computers & Chemical Engineering, 16, S481-S490 (1992).
73. I. Farag, P. C. Wu, J. B. Rosen, C.-C. Chen, “Modeling Pollution Prevention”, ChemTech, 22, 54-62 (1992).
74. D. Austgen, G. T. Rochelle, C.-C. Chen, “Model of Vapor-Liquid Equilibria for Aqueous Acid Gas-Alkanolamine Systems. II. Representation of H₂S and CO₂ Solubility in Aqueous MDEA with MEA or DEA”, Industrial & Chemical Engineering Research, 30, 543-555 (1991).
75. Y. Zhu, L. B. Evans, C.-C. Chen, “Representation of Phase Equilibrium Behavior of Antibiotics”, Biotechnology Progress, 6, 266-272 (1990).
76. M. Modell, P. Evanich, S. Anavi, J. Mai, C.-C. Chen, “The Role of Computerized Modeling and Simulation in the Development of Life-Support System Technologies”, Advances in Space Research, 9, 121-131 (1989).
77. Y. Zhu, L. B. Evans, C.-C. Chen, “Phase Partitioning of Biomolecules: Solubilities of Amino Acids”, Biotechnology Progress, 5, 111-118 (1989).
78. D. Austgen, G. T. Rochelle, P. Xiao, C.-C. Chen, “A Model of Vapor-Liquid Equilibria in the Aqueous Acid Gas-Alkanolamine System Using the Electrolyte NRTL Equation”, Industrial & Chemical Engineering Research, 28, 1060-1073 (1989).
79. C.-C. Chen, “Some Recent Developments in Process Simulation for Reactive Chemical Systems”, Pure & Applied Chemistry, 59, 1177-1188 (1987).
80. B. Mock, L. B. Evans, C.-C. Chen, “Thermodynamic Representation of Phase Equilibria in Mixed-Solvent Electrolyte Systems”, AIChE Journal, 32, 1655-1664 (1986).
81. C.-C. Chen, “Representation of Solid-Liquid Equilibrium of Aqueous Electrolyte Systems with the Electrolyte NRTL Model”, Fluid Phase Equilibria, 27, 457-474 (1986).
82. C.-C. Chen, L. B. Evans, “Local Composition Model for the Excess Gibbs Energy of Aqueous Electrolyte Systems”, AIChE Journal, 32, 444-454 (1986).
83. C.-C. Chen, L. B. Evans, J. F. Floess, L. Fong, J. P. Longwell, “Modeling of an Oil Shale Fluidized-Bed Retorting Process Using ASPEN”, Energy Progress, 2, 147-150 (1982).
84. C.-C. Chen, J. F. Boston, H. I. Britt, L. B. Evans, “Local Composition Model for the Excess Gibbs Energy of Electrolyte Systems - Part I: Single Solvent, Single Completely Dissociated Electrolyte Systems”, AIChE Journal , 23, 588-596 (1982).
85. C.-C. Chen, J. F. Boston, H. I. Britt, L. B. Evans, “Extension and Application of the Pitzer Equation for Vapor-Liquid Equilibrium of Aqueous Electrolyte Systems with Molecular Solutes”, AIChE Journal, 25, 820-831 (1979).
86. B. A. Solomon, C. K. Colton, C.-C. Chen, “Immobilization of Acetate Kinase on Functional Solid-core Polymeric Beads”, Enzyme Engineering, 4, 105-108 (1978).

Non-Refereed

1. C.-C. Chen, “Solubility: Are You Flying Blind?”, Pharmaceutical Manufacturing, page 30-32, October 2009.
2. C.-C. Chen, “An Industry Perspective on Polymer Process Modeling”, CAST Communications, Summer 2002.
3. V. V. de Leeuw, C.-C. Chen, “Fluid Phase Equilibria in Polymer Systems”, Entropie, 212/213, 57-64 (1998).
4. T. L. Mock, D. A. Tremblay, C.-C. Chen, “Process Modeling to Optimize PET Plants”, Chemical Fibers International , 45, 208-215 (1995).
5. I. H. Farag, P. W. Gallier, C.-C. Chen, “Addressing Hazardous Waste Incineration by Simulation”, Petrochemicals and Refining, page 12-16, July 1992.
6. I. H. Farag, I. Gosling, R. P. Field, C.-C. Chen, “Simulating Wastewater Treatment Processes”, The Chemical Engineer, 481, 31-38 (1990).
7. C.-C. Chen, S. C. Moore, T. M. Piper, “Computer Simulation of An Existing Ammonia Plant”, Ammonia Plant Safety , 26, 56-62 (1986).
8. C.-C. Chen, J. F. Boston, T. J. Galloway, K. Y. Lee, B. Mock, “Bayer Process Simulation by ASPEN”, Light Metals , 295-312 (1983).
9. P. W. Gallier, C.-C. Chen, H. I. Britt, L. B. Evans, “ASPEN: Advanced System for Process Engineering”, Perspectives in Computing, 1, 43-49 (1981).
10. C.-C. Chen, L. B. Evans, “More Computer Programs for Chemical Engineers”, Chemical Engineering, page 167-173, May 21, 1979.
11. C.-C. Chen, J. N. Peterson, L. B. Evans, “Computer Programs for Chemical Engineers: 1978, Part 1”, Chemical Engineering, page 145-154, June 5, 1978.
12. C.-C. Chen, J. N. Peterson, L. B. Evans, “Computer Programs for Chemical Engineers: 1978, Part 2”, Chemical Engineering, page 69-84, July 3, 1978.
13. C.-C. Chen, J. N. Peterson, L. B. Evans, “Computer Programs for Chemical Engineers: 1978, Part 3”, Chemical Engineering, page 79-86, July 31, 1978.
14. C.-C. Chen, J. N. Peterson, L. B. Evans, “Computer Programs for Chemical Engineers: 1978, Part 4,” Chemical Engineering, page 107-115, August 28, 1978.

Patents and Pending Patents

1. C.-C. Chen, Md R. Islam, “Apparatus and Computerized Method for Optimizing or Generating a Sigma Profile for a Molecule”, U.S. Provisional Patent Application Serial No: 61/991,597, Date of Filing: May 11, 2014.
2. C.-C. Chen, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment Model”, U.S. Patent No. 8,666,675, March 4, 2014.
3. S. Wang, Y. Song, C.-C. Chen, “Extension of COSMO-SAC Solvation Model for Electrolytes”, U.S. Patent No. 8,660,831, February 25, 2014.
4. C.-C. Chen, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment Model,” U.S. Patent No. 8,527,210, September 3, 2013.
5. L. Zong, S. Ramanathan, C.-C. Chen, “System and Method of Modeling Mono-Glycerides, Di-Glycerides and Triglycerides in Biodiesel Feedstock”, U.S. Patent No. 8,515,722, August 20, 2013.
6. C.-C. Chen, H. Que, “Method of Characterizing Chemical Composition of Crude Oil for Petroleum Processing”, U.S. Patent Application No.: 2013/0185044, July 18, 2013.
7. C.-C. Chen, Y. Song, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment-Based Ionic Activity Coefficient Model”, U.S. Patent No. 8,370,076, February 5, 2013.
8. C.-C. Chen, H. Que, “Method of Characterizing Chemical Composition of Crude Oil for Petroleum Refinery Processing”, European Patent Application No.: 13702132.5-1559, January 11, 2013.
9. C.-C. Chen, “Modeling Physical Properties of Chemical Mixtures and Articles of Use”, U.S. Patent No. 8,346,525 B2, January 1, 2013.
10. X. He, S. Anavi, C.-C. Chen, “Systems and Methods for Modeling of Crystallization Processes”, U.S. Patent No. 8,315,842, November 20, 2012.
11. C.-C. Chen, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment”, C.N. Patent No. 101310282A, April 25, 2012.
12. C.-C. Chen, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment Model”, U.S. Patent No. 8,082,136, December 20, 2011.
13. S. Wang, Y. Song, C.-C. Chen, “Extension of COSMO-SAC Solvation Model for Electrolytes”, European Patent Application No.: 11773157.0-1951, Date of Filing: December 10, 2011. Priority: US/13.10.10/USP 392549.
14. C.-C. Chen, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment Model”, U.S. Patent No. 7,941,277, May 10, 2011.
15. C.-C. Chen, Y. Song, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment-Based Ionic Activity Coefficient Model”, U.S. Patent No. 7,809,540 B2, October 5, 2010.
16. L. Zong, S. Ramanathan, C.-C. Chen, “System and Method of Modeling Mono-Glycerides, Di-Glycerides and Triglycerides in Biodiesel Feedstock”, European Patent Office Application No. 10719478.9-2104 PCT/US2010032069, April 22, 2010.
17. C.-C. Chen, Y. Song, “Methods of Modeling Physical Properties of Chemical Mixtures and Article of Use”, U.S. Patent No. 7,672,826 B2, March 2, 2010.
18. C.-C. Chen, “Computer Method and System for Predicting Physical Properties Using a Conceptual Segment Model”, European Patent Application No.: 06804184.7-1225, PCT/US2006/037601, Priority US/30.09.05/USA 241675, September 28, 2006.
19. S. Treiber, S. Gorpade, A. Sirohi, S. Ramanathan, S. Lingard, C.-C. Chen, “Computer Method and Apparatus for Determining State of Physical Properties in a Chemical Process”, U.S. Patent No. 6,862,562, March 1, 2005.
20. S. Treiber, R. McLeod, A. Kalafatis, S. Ramanathan, S. Lingard, C.-C. Chen, “Computer Method and Apparatus for Optimized Controller in a Non-Linear Process”, U.S. Patent No. 6,654,649, November 25, 2003.
21. A. E. Hamielec, M. Osias, S. Ramanathan, A. Sirohi, C.-C. Chen, “Property Distribution Functions Methodology and Simulators”, European Patent No. 1070281, July 3, 2002.
22. A. E. Hamielec, M. Osias, S. Ramanathan, A. Sirohi, C.-C. Chen, “Polymer Property Distribution Functions Methodology and Simulators”, U.S. Patent No. 6,093,211, July 25, 2000.
23. M. Barrera, G. Ko, M. Osias, S. Ramanthan, D. A. Tremblay, C.-C. Chen, “Polymer Component Characterization Method and Process Simulation Apparatus,” U.S. Patent No. 5,687,090, November 11, 1997.

Books

1. Thermophysical Properties for Industrial Process Design, co-editor with T. Selover, AIChE Symposium Series No. 298 (1994).

Book Chapters

1. C.-C. Chen, “Molecular Thermodynamics for Pharmaceutical Process Modeling and Simulation”, Chemical Engineering in Pharmaceutical Industry: R&D to Manufacturing, D. J. Am Ende (editor), John Wiley & Sons, 505-519 (2011).
2. C.-C. Chen, S. Watanasiri, P. Mathias, V. de Leeuw, “Economic Value of Thermodynamics in Industry and Major Unmet Needs of Aspen Clients”, Chemical Thermodynamics for Industry, T. Letcher, editor, Royal Society of Chemistry, Cambridge, U.K. (2004).
3. C.-C. Chen, K.-D. Hungenberg, F. Zhang, M. Wulkow, G. Stubbe, U. Nieken, “Design of Polymer Processes Using the Coupling of Commercial Simulation Packages Polymers Plus^® and PREDICI^®”, Dechema-Monographien Band, 137, 237-245 (2001).
4. S. Ramanathan, M. Barrera, M. Osias, G. Ko, C.-C. Chen, “Dynamic Flowsheet Simulation of Polymer Manufacturing Plants”, Dechema-Monographien Band, 127, 123-132 (1992).
5. C.-C. Chen, J. F. Boston, H. I. Britt, W. M. Clarke, “Thermodynamic Property Evaluation in Computerized Process Design Scheme for Aqueous Electrolyte Systems”, AIChE Symposium Series, No. 229, v.79, 126-134 (1983).
6. C.-C. Chen, J. F. Boston, H. I. Britt, L. B. Evans, “Application of the Extended Pitzer Equation and the Local Composition Model to the Vapor-Liquid Equilibrium of the NH₃-CO₂-H₂S-H₂O System”, ACS Symposium Series Supplement, 133, 77-98 (1980).
7. C.-C. Chen, J. F. Boston, H. I. Britt, L. B. Evans, “Two New Activity Coefficient Models for the Vapor-Liquid Equilibrium of Electrolyte Systems”, ACS Symposium Series, 133, 61-89 (1980).