Reiner Kümmel
Reiner Kümmel | |
|---|---|
 Reiner Kümmel in March 2005, photographed by Thomas Obermeier | |
| Born | 1939-07-09 Fulda, Germany |
| Alma mater | TH Darmstadt, Goethe Universität Frankfurt |
| Known for | LINEX-function for exogenous growth model |
| Scientific career | |
| Fields | physics & economics |
| Institutions | Universidad del Valle, University of Würzburg |
| Thesis | A: Schichtdicken-abhängiger Quantisierungseffekt in Tunnelkontakten : B: Untersuchungen zum Zwischenzustand und gemischten Zustand von Supraleitern 1. und 2. Art (1968) |
| Doctoral advisor | Peter Fulde |
| Other academic advisors | John Bardeen |
Reiner Kümmel (born 9 July 1939 in Fulda[1]) is a German physicist specialised in solid-state physics, thermodynamics and econophysics.[2]
Scientific career
Reiner Kümmel studied physics and mathematics at TH Darmstadt from 1959 to 1964. He received a scholarship from the Cusanuswerk and completed his doctorate on superconductivity at Frankfurt University in 1968,[1] where he also habilitated in theoretical physics in 1973. During his doctorate and habilitation, he also conducted research abroad, such as from 1965 to 1967 as a research assistant under the two-time Nobel Prize winner in physics John Bardeen at the University of Illinois at Urbana-Champaign.[3] From 1970 to 1972, he worked in Colombia at the Universidad del Valle in Cali,[2] where he helped to set up a master's programme in physics on a DAAD scholarship, which served to develop the next generation of academics. During this time, he focussed on thermodynamics.
In 1974, he took up a professorship for theoretical physics in Würzburg, which was also characterised by numerous research visits abroad. In the 1970s, the time of the first and second oil price shocks, his interest in economics as a second mainstay began to grow. A lively exchange developed with Wolfgang Eichhorn, who worked as an economist (and mathematician) at the Faculty of Economics at the University of Karlsruhe.[4] His research in physics focussed on the theory of inhomogeneous superconductors and mesoscopic heterocontacts.[5] His economic interests focussed on energy use and emission reduction. From 1996 to 1998, Reiner Kümmel chaired the Energy Working Group of the German Physical Society.[6] He retired in October 2004. Nevertheless, he remained associated with the university with a teaching assignment for the lecture Thermodynamics and Economics[7] until the summer semester 2015.[8]
Work
Kümmel's work on economics intends to improve the mathematical structure of macroeconomic growth models, so that they don't contradict the findings of applied physics, in particular thermodynamics.[9] He uses the so called LINEX function, which depends linearly on energy and exponentially on quotients of capital, labor, and energy. With the use of energy or more precise exergy as input factor, the unexplained growth e.g. as in Solow's growth model, which is often attributed to technological progress, is minimised.[10] Consequently, so called technological progress in neoclassical models can be explained as the ability of mankind to integrate increasing energy flows into the economic process and to transform it with high efficiency into useful energy.[11]
In his book The Second Law of Economics, he discusses the influence of energy conservation and entropy on prosperity and adds to the production theory of economics the important scientific component of energy, without which a modern economy cannot be understood.[12] He calls for energy taxes to alleviate the pressure to grow, based on the much higher production elasticity of energy than labour.
Publications
- Arne Jacobs, Reiner Kümmel: Dynamics of conversion of supercurrents into normal currents and vice versa. In: Phys. Rev. B, Vol. 64, No. 10, 2001.
- Reiner Kümmel, Robert U. Ayres, Dietmar Lindenberger: Thermodynamic laws, economic methods and the productive power of energy. In: Journal of Non-Equilibrium Thermodynamics, Vol. 35, No. 2, 2010, pp. 145–179.
- Reiner Kümmel: The Second Law of Economics: Energy, Entropy, and the Origins of Wealth. Springer, Berlin 2011, ISBN 978-1-4419-9364-9.
- Reiner Kümmel, Dietmar Lindenberger: How energy conversion drives economic growth far from the equilibrium of neoclassical economics. In: New Journal of Physics 16, Dec. 2014, 125008.
- Reiner Kümmel, Dietmar Lindenberger, Florian Weiser: The economic power of energy and the need to integrate it with energy policy. In: Energy Policy 86 (2015), 833–843.
- Reiner Kümmel, Dietmar Lindenberger: Energy, Entropy, Constraints, and Creativity in Economic Growth and Crises. In: Entropy. Band 22, Nr. 10, 14. Oktober 2020, ISSN 1099-4300, 1156.
See also
References
- ^ a b Kümmel, Reiner (1968). A: Schichtdicken-abhängiger Quantisierungseffekt in Tunnelkontakten – B: Untersuchungen zum Zwischenzustand und gemischten Zustand von Supraleitern 1. und 2. Art [A: Layer thickness dependent quantisation effect in tunnel contacts – B: Investigations on the intermediate state and mixed state of superconductors of the 1st and 2nd kind] (Thesis) (in German). Frankfurt am Main: Goethe-Universität Frankfurt. Retrieved 2025-01-10.
- ^ a b "Prof. Dr. Reiner Kümmel". Universität Würzburg. 2013-10-09. Archived from the original on 9 January 2014. Retrieved 2025-01-10.
- ^ R. Kümmel, Reiner; Landwehr, Gottfried (1991). "In memoriam John Bardeen". Physikalische Blätter. 47 (5). Wiley-VCH: 399–400. doi:10.1002/phbl.19910470512. Retrieved 2025-01-10.
- ^ Kümmel, Reiner; Strassl, Wolfgang; Gossner, Alfred; Eichhorn, Wolfgang (1985). "Technical progress and energy dependent production functions Articles". Journal of Economics. 45. Springer: 285–311. doi:10.1007/BF01282565. Retrieved 2025-01-11.
- ^ Kümmel, Reiner. "Welcome to the pages of Prof. Dr. Reiner Kümmel". Fakultät für Physik und Astronomie, Universität Würzburg. Retrieved 2025-01-10.
- ^ "Arbeitskreis Energie (AKE)". www.dpg-physik.de. Bad Honnef: Deutsche Physikalische Gesellschaft. 2024-05-15. Retrieved 2025-01-10.
Vorsitzende seit Gründung des Arbeitskreises
- ^ Kümmel, Reiner (2007-03-24). Energie und Wirtschaftswachstum oder: Wie Arbeitslosigkeit und Umweltbelastungen vermindert werden können [Energy and economic growth or: How unemployment and environmental harm can be reduced] (PDF) (in German). Würzburg: Würzburg University.
- ^ "Sommersemester 2015 – Thermodynamik und Ökonomie: Energie und Wirtschaftswachstum, Entropieproduktion und Emissionsminderung". Würzburg: Würzburg University, Department of Physics. 2015-04-14. Retrieved 2025-01-10.
- ^ Hall, Charles; Lindenberger, Dietmar; Kümmel, Reiner; Kroeger, Timm; Eichhorn, Wolfgang (2001-08-01). "The Need to Reintegrate the Natural Sciences with Economics" (PDF). BioScience. 51 (8). Oxford University Press: 663–673. doi:10.1641/0006-3568(2001)051[0663:TNTRTN]2.0.CO;2. Retrieved 2025-01-13. p. 664:
Past criticisms of neoclassical economics from the perspective of natural scientists can be summarized as three fundamental arguments: (1) The structure of the basic conceptual neoclassical model is unrealistic because it is not based on the biophysical world and the laws governing it, especially thermodynamics (Figure la); (2) the boundaries of analysis are inappropriate because they do not include the real processes of the biosphere that provide the material and energy inputs, the waste sinks, and the necessary milieu for the economic process (Figure 2); and (3) the basic assumptions underlying the models used have not been put forth as testable hypotheses but rather as givens.
- ^ Rifkin, Jeremy (2014). The Zero Marginal Cost Society – The Internet of Things, the Collaborative Commons, and the Eclipse of Capitalism. New York, NY: Palgrave Macmillan. p. 72. ISBN 978-1137278463. Retrieved 2025-01-14.
Over the past 25 years, a number of analysts, including physicist Reiner Kümmel of the University of Würzburg, Germany, and economist Robert Ayres at INSEAD business school in Fontainebleau, France, have gone back and retraced the economic growth of the industrial period using a three-factor analysis of machine capital, labor performance, and thermodynamic efficiency of energy use. [..] In other words, 'energy' is the missing factor.
- ^ Homer-Dixon, Thomas; Garrison, Nick (2009). "Introduction". In Homer-Dixon, Thomas (ed.). Carbon shift - How the the twin crises of oil depletion and climate change will define the future. forword by Ronald Wright. Canada: Random House. p. 6-7. ISBN 978-0-307-35718-2. Retrieved 2025-01-15.
Often overlooked was the role of energy in economic growth. [..] Growth was invariably much higher than he [Solow] predicted, and the difference – that proportion of output growth that could not be explained by the measured inputs – came to be called the 'Solow residual.' But as economist Reiner Kümmel later pointed out, this residual often explains more than Solow's thery itself. After Solow's work, it had been widely assumed that the 'something else' that combines with labour and capital to produce economic growth must be technology. [..] But by counting energy inputs in terms of joules rather than dollars, Kümmel not only produced results matching real-world growth rates and nearly eliminated the Solow residual, he also clarified the importance of energy to the economy.
- ^ Mimkes, Jürgen (2012). "The Second Law of Economics". Book Review. Physik Journal (in German). 11 (6). Wiley-VCH: 67. ISSN 1617-9439. Retrieved 2025-01-13.
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