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Sustainability: The Water and Energy Problem, and the Natural Design Solution

Published online by Cambridge University Press:  22 September 2015

Adrian Bejan
Adrian Bejan*
Affiliation:
Duke University, Durham, North Carolina 27708-0300, USA. E-mail: abejan@duke.edu
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Abstract

People like to say that energy and water are two problems, two vital commodities in short supply. Here I draw attention to the emerging literature and physics principle (constructal law) that provide the scientific foundation for sustainability. I show that the sustainability need is about flow: the flow of energy and the flow of water through the inhabited space. All the flows needed for human life (transportation, heating, cooling, water) are driven by the purposeful consumption of fuels. This is why the wealth of a country (the GDP) is directly proportional to the annual consumption of fuel in that country. This hierarchical organization happens; it is natural and efficient. Sustainability is the one-word need that covers all the specific needs. Sustainability comes from greater freedom in changing the organization – the flow architecture – that sustains life. Greater freedom to change the design (from water and power to laws and government) leads to greater flow, wealth, life and staying power, i.e. sustainability.

Type
Articles
Information
European Review , Volume 23 , Issue 4 , October 2015 , pp. 481 - 488
Copyright
© Academia Europaea 2015 

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References

1.Bejan, A. and Zane, J. P. (2012) Design in Nature: How the Constructal Law Governs Evolution in Biology, Physics, Technology and Social Organization (New York: Doubleday).Google Scholar
2.Bejan, A. and Lorente, S. (2011) The constructal law and the evolution of design in nature. Physics of Life Reviews, 8, pp. 209240.CrossRefGoogle ScholarPubMed
3.Basak, T. (2011) The law of life: the bridge between physics and biology. Physics of Life Reviews, 8, pp. 249252.CrossRefGoogle Scholar
4.Reis, A. H. (2006) Constructal theory: from engineering to physics, and how flow systems develop shape and structure. Applied Mechanics Reviews, 59, pp. 269282.CrossRefGoogle Scholar
5.Chen, L. (2012) Progress in study on constructal theory and its applications. Science China Technological Sciences, 55, pp. 802820.CrossRefGoogle Scholar
6.Gierens, K., Sausen, R. and Schumann, U. (1999) A diagnostic study of the global distribution of contrails, Part 2: Future air traffic scenarios. Theoretical and Applied Climatology, 63, pp. 19.CrossRefGoogle Scholar
7.Ledu, S. and Frattini, S. (2009) Atlas des inégalités (Toulouse: Milan Jeunesse)Google Scholar
8.Bejan, A. (2006) Advanced Engineering Thermodynamics, 3rd edn (Hoboken: Wiley).Google Scholar
9.Bornmann, L. and Leydesdorff, L. (2011) Which cities produce worldwide more excellent papers than can be expected? Journal of American Society for Information Science and Technology, 62, 19541962. http://arxiv.org/ftp/arxiv/papers/1103/1103.3216.pdfCrossRefGoogle Scholar
10.Bejan, A. (2014) Maxwell’s demons everywhere: evolving design as the arrow of time. Scientific Reports, 4, no. 4017, DOI: 10.1038/srep04017.CrossRefGoogle ScholarPubMed