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17 articles
Article 17 June 2023
Wan-Ju Chen, Rong-Ho Lin and Chun-Ling Chuang
This article is part of the Special Issue Capturing the Sustainable Impact of Early-Stage Business Models.
Highlights of Sustainability
Volume 2 (2023), Issue 2, pp. 110–137
Volume 2 (2023), Issue 2, pp. 110–137
1851 Views512 Downloads1 Citations
Short Note 10 February 2023
Simone Pettigrew and Leon Booth
Highlights of Sustainability
Volume 2 (2023), Issue 1, pp. 1–9
Volume 2 (2023), Issue 1, pp. 1–9
1736 Views567 Downloads1 Citations
Article 18 August 2022
Mohammad Valipour, Helaleh Khoshkam, Sayed M. Bateni and Essam Heggy
Highlights of Sustainability
Volume 1 (2022), Issue 3, pp. 171–187
Volume 1 (2022), Issue 3, pp. 171–187
2115 Views705 Downloads3 Citations
Article 11 July 2022
Peter Jean-Paul, Tek Tjing Lie, Timothy N. Anderson and Brice Vallès
Highlights of Sustainability
Volume 1 (2022), Issue 3, pp. 134–158
Volume 1 (2022), Issue 3, pp. 134–158
1992 Views570 Downloads
Article 17 May 2022
Alfred Söderberg
Highlights of Sustainability
Volume 1 (2022), Issue 2, pp. 88–104
Volume 1 (2022), Issue 2, pp. 88–104
3199 Views877 Downloads1 Citations
Article 28 March 2022
Reza Heydari, Mohammad Keshtidar, Haywantee Ramkissoon, Mahdi Esfahani and Ehsan Asadollahi
Highlights of Sustainability
Volume 1 (2022), Issue 2, pp. 41–53
Volume 1 (2022), Issue 2, pp. 41–53
2841 Views1021 Downloads3 Citations
Review 8 March 2022
Hwang Yi and Abhishek Mehrotra
Highlights of Sustainability
Volume 1 (2022), Issue 1, pp. 12–40
Volume 1 (2022), Issue 1, pp. 12–40
1872 Views790 Downloads
Review 8 March 2022
Hwang Yi and Abhishek Mehrotra
Sustainable buildings tend to maximize power and information rather than efficiency. The multidimensional concepts and tools provided by systems ecology and thermodynamics aid the understanding of building performance and sustainability as part of the global and
Sustainable buildings tend to maximize power and information rather than efficiency. The multidimensional concepts and tools provided by systems ecology and thermodynamics aid the understanding of building performance and sustainability as part of the global and complex thermodynamic phenomena in living systems—energy is not concentrated, but it flows, increasing the flow rate of useful energy. From such an extended macroscopic perspective, this paper addresses holistic eco-systemic criteria of building performance evaluation, focusing on emergy (spelled with an “m”) and information—the two critical indices of extensive and intensive analysis. Emergy aggregates the utmost and upstream energetic impacts, whereas information evaluates the structural pattern of the energy-flow distribution. These indices are theoretically correlated under the principles of ecological energy transformation and are often practically compatible. To clarify the definitions and appropriate scientific contexts of the new indices for environmental building studies, we review information theory, ecological theorems, and a few pioneering studies. Emergy and information have a great potential for advanced environmental building analysis, but building-scale implementation of emergy, information, and system principles remains a scientific challenge. The findings call for further research into the improvement of building-specific emergy/information data and reliable evidence of the analogy between building and open living systems.
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Highlights of Sustainability
Volume 1 (2022), Issue 1, pp. 12–40
Volume 1 (2022), Issue 1, pp. 12–40
1872 Views790 Downloads