Simultaneous optimization of working fluid and process for organic rankine cycles using PC-SAFT

Industrial and Engineering Chemistry Research

Volumn 53, Issue 21, 2014, Pages 8821-8830

  Lampe, M ^a   Stavrou, M ^b   Bucker, H M ^c   Gross, J ^b   Bardow, A ^a  

^a RWTH AACHEN UNIVERSITY   (Germany)

^b UNIVERSITY OF STUTTGART   (Germany)

^c FRIEDRICH SCHILLER UNIVERSITY JENA   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

EQUATIONS OF STATE; OPTIMIZATION; RANKINE CYCLE;

HEURISTIC KNOWLEDGE; LOW TEMPERATURE HEAT SOURCES; ORGANIC RANKINE CYCLES; ORGANIC RANKINE CYCLES (ORCS); QUANTITATIVE STRUCTURE PROPERTY RELATIONSHIPS; SIMULTANEOUS OPTIMIZATION; SUBOPTIMAL SOLUTION; WORKING FLUID SELECTIONS;

FLUIDS;

EID: 84901707433     PISSN: 08885885     EISSN: 15205045     Source Type: Journal    
DOI: 10.1021/ie5006542     Document Type: Article

References (45)

1. Wang, Z.; Zhou, N.; Guo, J.; Wang, X. Fluid selection and parametric optimization of organic Rankine cycle using low temperature waste heat Energy 2012, 40 (1) 107-115
2. Tchanche, B. F.; Papadakis, G.; Lambrinos, G.; Frangoudakis, A. Fluid selection for a low-temperature solar organic Rankine cycle Appl. Therm. Eng. 2009, 29 (11-12) 2468-2476
3. Heberle, F.; Brüggemann, D. Exergy based fluid selection for a geothermal Organic Rankine Cycle for combined heat and power generation Appl. Therm. Eng. 2010, 30 (11-12) 1326-1332
4. Siddiqi, M.; Atakan, B. Investigation of the Criteria for Fluid Selection in Rankine Cycles for Waste Heat Recovery Int. J. Thermodyn. 2011, 14 (3) 117-123
5. Saleh, B.; Koglbauer, G.; Wendland, M.; Fischer, J. Working fluids for low-temperature organic Rankine cycles Energy 2007, 32 (7) 1210-1221
6. Papadopoulos, A. I.; Stijepovic, M.; Linke, P. On the systematic design and selection of optimal working fluids for Organic Rankine Cycles Appl. Therm. Eng. 2010, 30 (6-7) 760-769
7. Quoilin, S.; Declaye, S.; Tchanche, B. F.; Lemort, V. Thermo-economic optimization of waste heat recovery Organic Rankine Cycles Appl. Therm. Eng. 2011, 31 (14-15) 2885-2893
8. Stijepovic, M. Z.; Linke, P.; Papadopoulos, A. I.; Grujic, A. S. On the role of working fluid properties in Organic Rankine Cycle performance Appl. Therm. Eng. 2012, 36, 406-413
9. Borsukiewicz-Gozdur, A. Pumping work in the organic Rankine cycle Appl. Therm. Eng. 2013, 51 (1-2) 781-786
10. Chen, H.; Goswami, D. Y.; Stefanakos, E. K. A review of thermodynamic cycles and working fluids for the conversion of low-grade heat Renewable Sustainable Energy Rev. 2010, 14 (9) 3059-3067
11. Quoilin, S.; Broek, M. V. D.; Declaye, S.; Dewallef, P.; Lemort, V. Techno-economic survey of Organic Rankine Cycle (ORC) systems Renewable Sustainable Energy Rev. 2013, 22, 168-186
12. Hostrup, M.; Harper, P. M.; Gani, R. Design of environmentally benign processes: integration of solvent design and separation process synthesis Comput. Chem. Eng. 1999, 23, 1395-1414
13. Eden, M. R.; Jorgensen, S. B.; Gani, R.; El-Halwagi, M. M. A novel framework for simultaneous separation process and product design Chem. Eng. Process. 2004, 43, 595-608
14. Papadopoulos, A. I.; Linke, P. Integrated solvent and process selection for separation and reactive separation systems Chem. Eng. Process. 2009, 48, 1047-1060
15. Bardow, A.; Steur, K.; Gross, J. Continuous-Molecular Targeting for Integrated Solvent and Process Design Ind. Eng. Chem. Res. 2010, 49 (6) 2834-2840
16. Pereira, F. E.; Keskes, E.; Galindo, A.; Jackson, G.; Adjiman, C. S. Integrated solvent and process design using a SAFT-VR thermodynamic description: High-pressure separation of carbon dioxide and methane Comput. Chem. Eng. 2011, 35 (3) 474-491
17. Kosmadakis, G.; Manolakos, D.; Kyritsis, S.; Papadakis, G. Comparative thermodynamic study of refrigerants to select the best for use in the high-temperature stage of a two-stage organic Rankine cycle for RO desalination Desalination 2009, 243 (1-3) 74-94
18. Papadopoulos, A. I.; Stijepovic, M.; Linke, P.; Seferlis, P.; Voutetakis, S. Toward Optimum Working Fluid Mixtures for Organic Rankine Cycles using Molecular Design and Sensitivity Analysis Ind. Eng. Chem. Res. 2013, 52, 12116-12133
19. Gani, R.; Achenie, L. E. K.; Venkatasubramanian, V. Introduction to CAMD. In Computer Aided Molecular Design: Theory and Practice; Achenie, L. E. K.; Gani, R.; Venkatasubramanian, V., Eds.; Elsevier: Amsterdam, The Netherlands, 2003; pp 3-21.
20. Quoilin, S.; Declaye, S.; Tchanche, B. F.; Lemort, V. Thermo-economic optimization of waste heat recovery Organic Rankine Cycles Appl. Therm. Eng. 2011, 31 (14-15) 2885-2893
21. Wei, D.; Lu, X.; Lu, Z.; Gu, J. Performance analysis and optimization of organic Rankine cycle (ORC) for waste heat recovery Energy Convers. Manage. 2007, 48, 1113-1119
22. Mikielewicz, D.; Mikielewicz, J. A thermodynamic criterion for selection of working fluid for subcritical and supercritical domestic micro CHP Appl. Therm. Eng. 2010, 30 (16) 2357-2362
23. Kuo, C.-R.; Hsu, S.-W.; Chang, K.-H.; Wang, C.-C. Analysis of a 50 kW organic Rankine cycle system Energy 2011, 36 (10) 5877-5885
24. Lampe, M.; Gross, J.; Bardow, A. Simultaneous process and working fluid optimization for Organic Rankine Cycles (ORC) using PC-SAFT. In Proceedings of the 22nd European Symposium on Computer Aided Process Engineering, June 17-20, 2012, London; Bogle, I. D. L.; Fairweather, M., Eds.; Elsevier: Amsterdam, The Netherlands, 2012.
25. Knuth, D. Axioms and Hulls; Lecture Notes in Computer Science 606; Springer-Verlag: Heidelberg, Germany, 1992.
26. Barber, C. B.; Dobkin, P. D.; Huhdanpaa, H. The Quickhull Algorithm for Convex Hulls ACM Trans. Math. Software 1996, 22 (4) 469-483
27. Pedrosa, N.; Vega, L. F.; Coutinho, J. A. P.; Marrucho, I. M. Phase Equilibria Calculations of Polyethylene Solutions from SAFT-Type Equations of State Macromolecules 2006, 39 (12) 4240-4246
28. Gross, J.; Sadowski, G. Perturbed-Chain SAFT: An Equation of State Based on a Perturbation Theory for Chain Molecules Ind. Eng. Chem. Res. 2001, 40 (4) 1244-1260
29. Nannan, N. R.; De Servi, C. M.; van der Stelt, T.; Colonna, P.; Bardow, A. An Equation of State Based on PC-SAFT for Physical Solvents Composed of Polyethylene Glycol Dimethylethers Ind. Eng. Chem. Res. 2013, 52 (51) 18401-18412
30. Lai, N. A.; Wendland, M.; Fischer, J. Description of linear siloxanes with PC-SAFT equation Fluid Phase Equilib. 2009, 283 (1-2) 22-30
31. Lai, N. A.; Wendland, M.; Fischer, J. Working fluids for high-temperature organic Rankine cycles Energy 2011, 36 (1) 199-211
32. Oyewunmi, O.; Taleb, A.; Haslam, A.; Markides, C. An Assessment of Working-Fluid Mixtures in Organic Rankine Cycles for Waste-Heat Recovery using SAFT-VR. Presented at the 2nd International Seminar on ORC Power Systems, 2013. Abstract retrieved from http://www.asme-orc2013.nl/program/show-slot/22.
33. Vatani, A.; Khazaeli, A.; Roshandel, R.; Panjeshahi, M. H. Thermodynamic analysis of application of organic Rankine cycle for heat recovery from an integrated DIR-MCFC with pre-reformer Energy Convers. Manage. 2013, 67, 197-207
34. Gross, J.; Vrabec, J. An equation-of-state contribution for polar components: Dipolar molecules AIChE J. 2006, 52 (3) 1194-1204
35. Vrabec, J.; Gross, J. Vapor-Liquid Equilibria Simulation and an Equation of State Contribution for Dipole-Quadrupole Interactions J. Phys. Chem. B 2008, 112 (1) 51-60
36. Gross, J. An equation-of-state contribution for polar components: Quadrupolar molecules AIChE J. 2005, 51 (9) 2556-2568
37. Rowley, R. L.; Wilding, W. V.; Oscarson, J. L.; Yang, Y.; Zundel, N. A.; Daubert, T. E.; Danner, R. P. DIPPR Data Compilation of Pure Chemical Properties; Design Institute for Physical Properties, Brigham Young University: Provo, UT, 2006.
38. Coniglio, L.; Daridon, J. A group contribution method for estimating ideal gas heat capacities of hydrocarbons Fluid Phase Equilib. 1997, 139 (1-2) 15-35
39. Maizza, V.; Maizza, A. Unconventional working fluids in organic Rankine-cycles for waste energy recovery systems Appl. Therm. Eng. 2001, 21 (3) 381-390
40. Wang, D.; Ling, X.; Peng, H. Performance analysis of double organic Rankine cycle for discontinuous low temperature waste heat recovery Appl. Therm. Eng. 2012, 48, 63-71
41. Mago, P. J.; Chamra, L. M.; Srinivasan, K.; Somayaji, C. An examination of regenerative organic Rankine cycles using dry fluids Appl. Therm. Eng. 2008, 28 (8-9) 998-1007
42. Vetter, C.; Wiemer, H.-J.; Kuhn, D. Comparison of sub- and supercritical Organic Rankine Cycles for power generation from low-temperature/low-enthalpy geothermal wells; considering specific net power output and efficiency Appl. Therm. Eng. 2013, 51 (1-2) 871-879
43. Bischof, C.; Khademi, P.; Mauer, A.; Carle, A. Adifor 2.0: automatic differentiation of Fortran 77 programs IEEE Comput. Sci. Eng. 1996, 3 (3) 18-32
44. Kazakov, A.; McLinden, M. O.; Frenkel, M. Computational Design of New Refrigerant Fluids Based on Environmental, Safety, and Thermodynamic Characteristics Ind. Eng. Chem. Res. 2012, 51 (38) 12537-12548
45. Andersen, W. C.; Bruno, J.; Rapid, T. J. Screening of Fluids for Chemical Stability in Organic Rankine Cycle Applications Ind. Eng. Chem. Res. 2005, 44 (15) 5560-5566