Bjarne Andresen

Publications in finite-time thermodynamics

 

1.       B. Andresen, R. S. Berry, A. Nitzan, P. Salamon: Thermodynamics in finite time. I. The step-Carnot cycle; Phys. Rev. A 15, 2086 (1977).

2.       P. Salamon, B. Andresen, R. S. Berry: Thermodynamics in finite time. II. Potentials for finite-time processes; Phys. Rev. A 15, 2094 (1977).

3.       B. Andresen, P. Salamon, R. S. Berry: Thermodynamics in finite time: Extremals for imperfect heat engines; J. Chem. Phys. 66, 1571 (1977).

4.       M. J. Ondrechen, R. S. Berry, B. Andresen: Thermodynamics in finite time: A chemically driven engine; J. Chem. Phys. 72, 5118 (1980).

5.       P. Salamon, A. Nitzan, B. Andresen, R. S. Berry: Minimum entropy production and the optimization of heat engines; Phys. Rev. A. 21, 2115 (1980).

6.       P. Salamon, B. Andresen, P. D. Gait, R. S. Berry: The significance of Weinhold's length; J. Chem. Phys. 73, 1001; 5407E (1980).

7.       M. J. Ondrechen, B. Andresen, R. S. Berry: Thermodynamics in finite time: Processes with temperature-dependent chemical reactions; J. Chem. Phys. 73, 5838 (1980).

8.       B. Andresen, M. J. Ondrechen, R. S. Berry: Maximum work from a finite reservoir by sequential Carnot cycles; Am. J. Phys. 49, 681 (1981).

9.       M. H. Rubin, B. Andresen: Optimal staging of endoreversible heat engines; J. Appl. Phys. 53, 1 (1982).

10.     R. S. Berry, B. Andresen: Thermodynamic constraints in economic analysis; chapter 20 in W. C. Schieve, P. M. Allen (eds.): “Self-organization and structures. Applications in the physical and social sciences” (University of Texas Press, Austin, 1982), p. 323.

11.     B. Andresen: Endelig-tids termodynamik; Gamma, No. 51 (December 1982).

12.     B. Andresen, M. H. Rubin, R. S. Berry: Availability for finite-time pro­cesses. General theory and a model; J. Phys. Chem. 87, 2704 (1983).

13.     B. Andresen, F. M. Poulsen: Elementer af endelig-tids termodynamik; Fysisk Tidsskrift 81, 49 (1983).

14.     B. Andresen: Finite-time thermodynamics (Physics Laboratory II, University of Copenhagen, 1983, ISBN 87-88318-02-8).

15.     B. Andresen, R. S. Berry, M. J. Ondrechen, P. Salamon: Thermodynamics for processes in finite time; Acc. Chem. Res. 17, 266 (1984).

16.     B. Andresen, P. Salamon, R. S. Berry: Thermodynamics in finite time; Physics Today 37 (9), 62 (1984).

17.     B. Andresen, E. C. Zimmermann, J. Ross: Objections to a proposal on the rate of entropy production in systems far from equilibrium; J. Chem. Phys. 81, 4676 (1984).

18.     J. Nulton, P. Salamon, B. Andresen, Q. Anmin: Quasistatic processes as step equilibrations; J. Chem. Phys. 83, 334 (1985).

19.     T. Feldmann, B. Andresen, A. Qi, P. Salamon: Thermodynamic lengths and intrinsic time scales in molecular relaxation; J. Chem. Phys. 83, 5849 (1985).

20.     B. Månsson, B. Andresen: Optimal temperature profile for an ammonia reactor; Ind. Eng. Chem. Process Des. Dev. 25, 59 (1986).

21.     G. R. Brown, S. Snow, B. Andresen, P. Salamon: Finite-time thermodynamics of a porous plug; Phys. Rev. A 34, 4370 (1986).

22.     P. Salamon, J. Komlos, B. Andresen, J. D. Nulton: A geometric view of welfare gains with non-instantaneous adjustment; Math. Soc. Sci. 13, 153 (1987).

23.     J. D. Flick, P. Salamon, B. Andresen: Metric bounds on losses in adaptive coding; Info. Sci. 42, 239 (1987).

24.     B. Andresen, R. S. Berry, R. Gilmore, E. Ihrig, P. Salamon: Thermodynamic geometry and the metrics of Weinhold and Gilmore; Phys. Rev. A 37, 845 (1988).

25.     B. Andresen, R. S. Berry, E. Ihrig, P. Salamon: Inducing Weinhold's metric from Euclidean and Riemannian metrics; Phys. Rev. A 37, 849 (1988).

26.     B. Andresen, K. H. Hoffmann, K. Mosegaard, J. Nulton, J. M. Pedersen, P. Salamon: On lumped models for thermodynamic properties of simulated annealing problems; J. Phys. (France) 49, 1485 (1988).

27.     K. H. Hoffmann, B. Andresen, P. Salamon: Measures of dissipation; Phys. Rev. A 39, 3618 (1989).

28.     B. Andresen: Finite-time thermodynamics; chapter 40 in P. L. Christiansen, R. D. Parmentier (eds.): “Structure, coherence and chaos in dynamical systems” (Manchester University Press, Manchester, 1989), p. 529.

29.     B. Andresen: Finite-time thermodynamics and simulated annealing; in W. Ebeling, H. Ulbricht (eds.): “Irreversible processes and self organization” (Teubner Texte zur Physik 23, 171 (1989), B. G. Teubner, Leipzig), p. 171.

30.     P. Salamon, J. Bernholc, R. S. Berry, M. E. Carrera-Patino, B. Andresen: The wetted solid - A generalization of Plateau's problem and its implications for sintered materials; J. Math. Phys. 31, 610 (1990).

31.     B. Andresen: The use of simulated annealing to solve extremely large and complex problems; in G. J. MacDonald, L. Sertorio (eds.): “Global climate and ecosystem change”. NATO ASI series, vol. B240 (Plenum, 1990), p. 239.

32.     B. Andresen: Optimering med endelig-tids termodynamik; chapter in notes for Temadag: Energibesparelser i industrien gennem anvendelse af nye energioptimeringsteknikker" under EFP-90 (dk-Teknik, Copenhagen, 1990).

33.     B. Andresen: Finite-time thermodynamics; in S. Sieniutycz, P. Salamon (eds): “Non-equilibrium thermodynamics” (Taylor and Francis, 1990), p. 66.

34.     B. Andresen: Modeling of complex systems by simulated annealing; in E. Mosekilde, L. Mosekilde (eds.): “Complexity, chaos, and biological evolution”. NATO ASI series, vol. B270 (Plenum, 1991), p. 267.

35.     B. Andresen, J. M. Gordon: Optimal heating and cooling strategies for heat exchanger design; J. Appl. Phys. 71, 76 (1992).

36.     B. Andresen, J. M. Gordon: Optimal paths for minimizing entropy generation in a common class of finite-time heating and cooling processes; Int. J. Heat Fluid Flow 13, 294 (1992).

37.     J. C. Schön, B. Andresen: Finite-time optimization of chemical reactions and connections to thermodynamic speed: in W. Ebeling, W. Muschik (eds.): “Statistical physics and thermodynamics of nonlinear non-equilibrium systems”, 101. WE Heraeus seminar (World Scientific, 1993), p. 97.

38.     B. Andresen, J. M. Gordon: Analytic constant thermodynamic speed-cooling strategies in simulated annealing; Open Systems & Information Dynamics 2, 1 (1993).

39.     B. Andresen, J. M. Gordon: Constant thermodynamic speed for minimizing entropy production in thermodynamic processes and simulated annealing; Phys. Rev. E 50, 4346 (1994).

40.     J. Chen, B. Andresen: Optimal analysis of primary performance parameters for an endoreversible absorption heat pump; Heat Recovery Systems & CHP 15, 723 (1995).

41.     J. Chen, B. Andresen: The maximum coefficient of performance of thermoelectric heat pumps; Int. J. Ambient Energy 17, 22 (1996).

42.     J. C. Schön, B. Andresen: Finite-time optimization of chemical reactions: nA <=> mB; J. Phys. Chem. 100, 8843 (1996).

43.     J. C. Schön, B. Andresen: Multiple modes for the operation of a distillation column; Ind. Eng. Chem. Res. 35, 2327 (1996).

44.     V. Badescu, B. Andresen: Probabilistic finite-time thermodynamics: A chemically driven engine; J. Non-Equil. Thermod. 21, 291 (1996).

45.     B. Andresen: Global optimization using ensembles; in F. Schweitzer (ed.): Self-organization of complex structures: From individual to collective dynamics, Vol. 1 (1996), p. 143.

46.     B. Andresen: Finite-time thermodynamics and thermodynamic length; Rev. Gen. Therm. 35, 647 (1996).

47.     B. Andresen: Finite-time thermodynamics and simulated annealing; in J. S. Shiner (ed.): Entropy and entropy generation (Kluwer, 1996), p. 111.

48.     В. А. Миронова, А. М. Чирлин, Б. Андресен, П. Саламон: Производимая энтропия как критерий оптимальности химико-технологических процессов; Хим. пром. 299 (№5), 25-29 (1996).

49.     J. Chen, B. Andresen: New bounds on the performance of a thermo­elec­tric generator; Int. J. Power & Energy Syst. 17, 23, (1997).

50.     J. Chen, A. DeVos, B. Andresen: Analysis of combined systems of two endoreversible engines; Open Syst. & Info. Dyn. 4, 3 (1997).

51.     J. Chen, Z. Yan, L. Chen, B. Andresen: Efficiency bound of a solar-driven Stirling heat engine system; Int. J. Energy Res. 22, 805 (1998).

52.     Y. Nourani, B. Andresen: A comparison of simulated annealing cooling strategies; J. Phys. A: Math. Gen. 31, 8373 (1998).

53.     S. A. Amelkin, B. Andresen, P. Salamon, A. M. Tsirlin, V. N. Yumaguzhina: Extreme efficiency of thermomechanical systems. Processes with one source, Izvestija of Russian Academy of Sciences. Energetica, No.2, 118-126 (1998).

54.     С. А. Амелькин, Б. Андресен, П. Саламон, А. М. Чирлин, В. Н. Юмагужина: Предельные Возможности тепломеханических систем. Процессы с одним источником; Известия Академии наук. Энергетика №2, 118-126 (1998).

55.     S. A. Amelkin, B. Andresen, P. Salamon, A. M. Tsirlin, V. N. Yumaguzhina: Extreme efficiency of thermomechanical systems. Processes with several sources, Izvestija of Russian Academy of Sciences. Energetica, No.1, 152-159 (1999).

56.     С. А. Амелькин, Б. Андресен, П. Саламон, А. М. Чирлин, В. Н. Юмагужина: Предельные Возможности тепломеханических систем с несколькими источниками; Известия Академии наук. Энергетика №1, 152-159 (1999).

57.     Y. Nourani, B. Andresen: Exploration of NP-hard enumeration prob­lems by simulated annealing - the spectrum values of permanents; Theor. Comp. Sci. 215, 51 (1999).

58.     J. Chen, B. Andresen: Diagrammatic representation of the optimal performance of an endoreversible Carnot engine at maximum power output; Eur. J. Phys. 20, 21 (1999).

59.     J. Chen, B. Andresen: Optimal performance of an endoreversible Carnot engine used as a cooler; in C. Wu, L. Chen, J. Chen (eds.): Recent advances in finite-time thermodynamics (Nova Science Publishers, 1999), p. 37.

60.     B. Andresen: Minimizing losses - Tools of finite-time thermodynamics; in A. Bejan, E. Mamut (eds.): Thermodynamic optimization of complex energy systems, NATO ASI Science series 3/69 (1999), p. 411.

61.     А. М. Чирлин, Б. Андресен, К. Х. Хоффман: Использование методов теродинамики конечного времени при проектировании зкологически безопасных производств; in Программные системы. Теоретические основы и приложения (Наука Физматлит, Moscow, 1999), p. 72-77.

62.     B. Andresen, P. Salamon: Optimal distillation using thermodynamic geometry; in S. Sieniutycz, A. De Vos (eds.): Thermodynamics of energy conversion and transport (Springer, 2000), p. 319-331.

63.     B. Andresen, P. Salamon: Optimal distillation calculated by thermodynamic geometry; Entropie 224/225, 4-10 (2000).

64.     B. Andresen, P. Salamon: Thermodynamic geometry determines optimal temperature profile in distillation column; in P. C. Hansen, B. H. Jacobsen, K. Mosegaard (eds.): Methods and applications of inversion (Springer Verlag, 2000), p. 15-30.

65.     J. Chen, Z. Yan, G. Lin, B. Andresen: On the Curzon-Ahlborn efficiency and its connection with the efficiencies of real heat engines; Energy Conv. Mangmnt. 42, 173-181 (2001).

66.     P. Salamon, K. H. Hoffmann, S. Schubert, R. S. Berry, B. Andresen: What conditions make minimum entropy production equivalent to maximum power production?; J. Non-Equil. Thermod. 26, 73-83 (2001).

67.     E. Sauar, G. Siragusa, B. Andresen: Equal thermodynamic distance and equipartition of forces principles applied to binary distillation; J. Phys. Chem. A 105, 2312-2320 (2001).

68.     Z. Yan, J. Chen, B. Andresen: Nernst's postulate derived directly from the vanishing heat capacity at zero temperature; Europhys. Lett. 55, 623-625 (2001).

69.     M. Schaller, K. H. Hoffmann, G. Siragusa, P. Salamon, B. Andresen: Numerically optimized performance of diabatic distillation columns; Comp. Chem. Eng. 25, 1537-1548 (2001).

70.     B. Andresen: Comment on "A fallacious argument in the finite time thermodynamic concept of endoreversibility"; J. Appl. Phys. 90, 6557-6559 (2001).

71.     B. Andresen, J. Shiner, D. E. Uehlinger: Allometric scaling and maximum efficiency in physiological eigen time; Proc. Natl. Acad. Sci. USA 99, 5822-5824 (2002).

72.     M. Schaller, K. H. Hoffmann, R. Rivero, B. Andresen, P. Salamon: The influence of heat transfer irreversibilities on the optimal performance of diabatic distillation columns; J. Non-Equil. Thermod. 27, 257-269 (2002).

73.     F. Rohwer, M. Breitbart, J. Mahaffy, P. Salamon, B. Andresen: Genomic analysis of a marine viral community; Proc. Natl. Acad. Sci. USA. 99, 14250-14255 (2002).

74.     T. A. Bak, P. Salamon, B. Andresen: Optimal behavior of consecutive chemical reactions A<=>B<=>C; J. Phys. Chem. A 106, 10961-10964 (2002).

75.     S. A. Amelkin, B. Andresen, J. M. Burzler, K. H. Hoffmann, A. M. Tsirlin: Maximum power processes for multi-source endoreversible heat engines; J. Phys. D: Appl. Phys. 37, 1400-1404 (2004).

76.     E. S. Jimenez, P. Salamon, R. Rivero, C. Rendon, K. H. Hoffmann, M. Schaller, B. Andresen: Optimization of a diabatic distillation column with sequential heat exchangers; Ind. Eng. Chem. Res.  43, 7566-7571 (2004).

77.     S. A. Amelkin, B. Andresen, J. M. Burzler, K. H. Hoffmann, A. M. Tsirlin: Thermomechanical systems with several heat reservoirs: Maximum power processes; J. Non-Equil. Thermod. 30, 67-80 (2005).

78.     S. Bertuglia, A. Limon, B. Andresen, K. H. Hoffmann, C. Essex, P. Salamon: Transport of O2 from arterioles; J. Non-Equil. Thermod. 30, 151-162 (2005).

79.     M. Huleihil, B. Andresen: Convective heat transfer law for an endoreversible engine; J. Appl. Phys. 100, 014911 1-4 (2006).

80.     M. Huleihil, B. Andresen: Optimal piston trajectories for adiabatic processes in the presence of friction; J. Appl. Phys. 100, 114914 1-6 (2006).

81.     P. Salamon, B. Andresen, J. Nulton, A. K. Konopka: The mathematical structure of thermodynamics; in A. K. Konopka (ed.): Handbook of systems biology (CRC Press, Boca Raton, 2007), p. 207-221.

82.     C. Essex, R. McKitrick, B. Andresen: Does a Global Temperature Exist?; J. Non-Equil. Thermod. 32, 1-27 (2007).

83.     K. B. Frederiksen, B. Andresen: Mitochondrial optimization using thermodynamic geometry; in G. S. Natarajan, A. A. Bhalekar, S. S. Dhondge, H. D. Juneja (eds.): Recent Advances in Thermodynamics Research Including Nonequilibrium Thermodynamics (R. T. M. Nagpur University, Nagpur, India, 2008), p. 10-14.

84.     B. Andresen: Tools of finite-time thermodynamics; in G. S. Natarajan, A. A. Bhalekar, S. S. Dhondge, H. D. Juneja (eds.): Recent Advances in Thermodynamics Research Including Nonequilibrium Thermodynamics (R. T. M. Nagpur University, Nagpur, India, 2008), p. 24-41.

85.     A. A. Bhalekar, B. Andresen: On the nonequilibrium thermodynamic roots of the additional facets of chemical interaction; in G. S. Natarajan, A. A. Bhalekar, S. S. Dhondge, H. D. Juneja (eds.): Recent Advances in Thermodynamics Research Including Nonequilibrium Thermodynamics (R. T. M. Nagpur University, Nagpur, India, 2008), p. 53-62.

86.     B. Andresen: The need for entropy in finite-time thermodynamics and elsewhere; in G. P Beretta. A. Ghoniem, G. Hatsopoulos (eds.): AIP Conference Proceedings 1033, Meeting the Entropy Challenge: International Thermodynamics Symposium in Honor and Memory of Professor Joseph H. Keenan, Cambridge, MA, 4-5 October 2007, MIT (American Institute of Physics, 2008), p. 213-218.

87.     R. K. Niven, B. Andresen: Jaynes' maximum entropy principle, Riemannian metrics and generalised least action bound; in R. L. Dewar, F. Detering (eds.): Complex Physical, Biophysical and Econophysical Systems; World Scientific Lecture Notes in Complex Systems, Vol. 9, Proc. 22nd Canberra International Physics Summer School, The Australian National University, Canberra, 8-19 December 2008 (World Scientific, Hackensack, NJ, 2009, ISBN 978-981-4277-31-0), p. 283-318.

88.     B. Andresen: Guest Editorial – Joint European Thermodynamics Conference 10; J. Non-Equil. Thermod. 35, 195-198 (2010).

89.     B. Andresen: Comment on “Essential discreteness in generalized thermostatistics with non-logarithmic entropy” by Abe Sumiyoshi; EPL 92, 40005 (2010).

90.     M. Huleihil, B. Andresen: Generalized performance characteristics of refrigeration and heat pump systems; Physics Research International 2010, 341016 (2010).

91.     B. Andresen: Current Trends in Finite-Time Thermodynamics; Angew. Chem. Int. Ed. 50, 2690-2704 (2011).

92.     B. Andresen: Aktuelle Trends in der Thermodynamik in endlicher Zeit; Angew. Chem. 123, 2742-2757 (2011).

93.     M. Huleihil, B. Andresen: Effects of heat leak on the performance characteristics of Carnot like heat engines and heat pumps; Lat. Am. J. Phys. Educ 5, 16-21 (2011).

94.     B. Andresen, K. H. Hoffmann, J. Nulton, A. Tsirlin, P. Salamon: Optimal control of the parametric oscillator; Eur. J. Phys. 32, 827-843 (2011).

95.     L. Teodoros, B. Andresen: Optimal control configuration of heating and humidification processes. Part I; U.P.B. Sci. Bull., Series D 73, No. 3, 3-16 (2011).

96.     L. Teodoros, B. Andresen: Optimal control configuration of heating and humidification processes. Part II; U.P.B. Sci. Bull., Series D 73, No. 4, 79-88 (2011).

97.     L. Chen, G. Su, J. Chen, B. Andresen: Oscillating Casimir force between two slabs in Fermi sea; Chin. Phys. B 21, 010501-1 - 5 (2012).

98.     Z. Yan, J. Chen, B. Andresen: Non-equivalence of Nernst’s postulate and the principle of unattainability of absolute zero temperature; (submitted Europhys. Lett.).