Bjarne Andresen

Publications in finite-time thermodynamics

 

1c.     B. Andresen, R. S. Berry, P. Salamon: Optimization of processes with finite-time thermodynamics; I International Conference on Energy Use Management, 2, 1–9 (1977).

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.       M. J. Ondrechen, B. Andresen, M. Mozurkewich, 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).

12c.   M. H. Rubin, B. Andresen, R. S. Berry: Finite time constraints and availability; in R. A. Fazzolare, C. B. Smith (eds.): “Beyond the energy crisis opportunity and challenge” (Pergamon Press, New York, 1982), p. 1177–1183.

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 binary 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, 647–650 (1996).

47.     B. Andresen: Finite-time thermodynamics and simulated annealing; in J. S. Shiner (ed.): Entropy and entropy generation (Kluwer, 1996), p. 111–127.

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.     A. DeVos, J. Chen, 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.     M. Breitbart, P. Salamon, B. Andresen, J. Mahaffy, A. M. Segall, D. Mead, F. Azam, F. Rohwer: 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.     P. Salamon, B. Andresen, J. D. Nulton: Staged optimal externally-controlled systems and method thereof; patent No. US 6605190 B1(2003); WO9835737-A1 (1998).

76.     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).

77.     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).

78.     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).

79.     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).

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

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

82.     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.

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

84.     B. Andresen: Findes der en global temperatur? — fundamentet for hele klimadebatten; Geologisk Nyt, Nr. 2, 30–33 (2008).

85.     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.

86.     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.

87.     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.

88.     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.

89.     B. Andresen: 6 spørgsmål om klima — og 36 spændende svar; Geologisk Nyt, Nr. 2, 8 (2009).

90.     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.

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

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

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

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

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

96.     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).

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

98.     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).

99.     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).

100.   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).

101.   B. Andresen: Book Review. The second law of economics: Energy, entropy, and the origins of wealth; J. Non-Equil. Thermod. 37, 205–207 (2012).

102.   F. Boldt, J. D. Nulton, B. Andresen, P. Salamon, K. H. Hoffmann: Casimir companion: An invariant of motion for Hamiltonian systems; Phys. Rev. A 87, 022116-1 – 4 (2013).

103.   S. Zarei, A. Mirtar, B. Andresen. P. Salamon: Modeling the airflow in a lung with cystic fibrosis; J. Non-Equil. Thermod. 38, 119–140 (2013).

104.   K. H. Hoffmann, B. Andresen, P. Salamon: Optimal control of a collection of parametric oscillators; Phys. Rev. E. 87, 062106-1 – 9 (2013).

105.   B. Andresen: Book Review. Design in Nature; J. Non-Equil. Thermod. 38, 287–290 (2013).

106.   C. Essex, B. Andresen: The principal equations of state for classical particles, photons, and neutrinos; J. Non-Equil. Thermod. 38, 293–312 (2013).

107.   B. Andresen: Videnskabens Verden, Danish Radio DR1. Om spejle; 10 Dec. 2013.

108.   P. Salamon, B. Andresen, K. H. Hoffmann, J. D. Nulton, A. M. Segall, F. L. Rohwer: Free energies of staging a scenario and perpetual motion machines of the third kind; Proceedings of the 240 conference: Sciences's great challenges; Adv. Chem. Phys. 157, 43–56 (2015).

109.   K. H. Hoffmann, B. Andresen, P. Salamon: Finite-time thermodynamics tools to analyze dissipative processes; Proceedings of the 240 conference: Sciences's great challenges; Adv. Chem. Phys. 157, 57–67 (2015).

110.   C. Essex, B. Andresen: Maxwellian velocity distributions in slow time; J. Non-Equil. Thermod. 40, 139–151 (2015).

111.   B. Andresen: Metrics and Energy Landscapes in Irreversible Thermodynamics; Entropy 17, 6304–6317 (2015).

112.   P. Salamon, D. Wales, A. Segall, Yi-An Lai, J. C. Schön, K. H. Hoffmann, B. Andresen: Rate constants, timescales, and free energy barriers; J. Non-Equil. Thermod. 41, 13–18 (2016).

113.   L. Teodoros, B. Andresen: Thermoeconomic optimization of a combined heating and humidification coil for HVAC systems; J. Non-Equil. Thermod. 41, 237–247 (2016).

114.   A. Insinga, B. Andresen, P. Salamon: Thermodynamical analysis of a quantum heat engine based on harmonic oscillators; Phys. Rev. E. 94, 012119-1 – 10 (2016).

115.   B. Andresen, C. Essex: Eigentimes and very slow processes; Entropy 19, 492 (2017).