Sustainable architecture (English Wikipedia)

Vall, Sergi; Johannes, Kévyn; David, Damien; Castell, Albert (July 2022). "A new flat-plate radiative cooling and solar collector numerical model: Evaluation and metamodeling". Energy. 202. doi:10.1016/j.energy.2020.117750. hdl:10459.1/69909 – via Elsevier Science Direct. Radiative cooling is a renewable technology that can complement or partially replace current cooling technologies.

harvard.edu

ui.adsabs.harvard.edu

Marszal, A.J.; Heiselberg, P.; Bourrelle, J.S.; Musall, E.; Voss, K.; Sartori, I.; Napolitano, A. (2011). "Zero Energy Building – A review of definitions and calculation methodologies". Energy and Buildings. 43 (4): 971–979. Bibcode:2011EneBu..43..971M. doi:10.1016/j.enbuild.2010.12.022.
Faisal Ahmed, Sumair; Khalid, Mohammad; Vaka, Mahesh; Walvekar, Rashmi; Numan, Arshid; Khaliq Rasheed, Abdul; Mujawar Mubarak, Nabisab (1 October 2021). "Recent progress in solar water heaters and solar collectors: A comprehensive review". Thermal Science and Engineering Progress. 25: 100981. Bibcode:2021TSEP...2500981F. doi:10.1016/j.tsep.2021.100981. ISSN 2451-9049.
Korpela, Tuija; Kuosa, Maunu; Sarvelainen, Hannu; Tuliniemi, Erja; Kiviranta, Paulus; Tallinen, Kirsi; Koponen, Hanna-Kaisa (February 2022). "Waste heat recovery potential in residential apartment buildings in Finland's Kymenlaakso region by using mechanical exhaust air ventilation and heat pumps". International Journal of Thermofluids. 13: 100127. Bibcode:2022IJTf...1300127K. doi:10.1016/j.ijft.2021.100127. S2CID 244739642.
Yu, Xinxian; Yao, Fengju; Huang, Wenjie; Xu, Dongyan; Chen, Chun (July 2022). "Enhanced radiative cooling paint with broken glass bubbles". Renewable Energy. 194: 129–136. Bibcode:2022REne..194..129Y. doi:10.1016/j.renene.2022.05.094 – via Elsevier Science Direct. Radiative cooling is a renewable technology that is promising to meet this goal. It is a passive cooling strategy that dissipates heat through the atmosphere to the universe. Radiative cooling does not consume external energy but rather harvests coldness from outer space as a new renewable energy source.
Ahmed, Salman; Li, Zhenpeng; Javed, Muhammad Shahzad; Ma, Tao (September 2021). "A review on the integration of radiative cooling and solar energy harvesting". Materials Today: Energy. 21: 100776. Bibcode:2021MTEne..2100776A. doi:10.1016/j.mtener.2021.100776 – via Elsevier Science Direct.
Bijarniya, Jay Prakash; Sarkar, Jahar; Maiti, Pralay (November 2020). "Review on passive daytime radiative cooling: Fundamentals, recent researches, challenges and opportunities". Renewable and Sustainable Energy Reviews. 133: 110263. Bibcode:2020RSERv.13310263B. doi:10.1016/j.rser.2020.110263. S2CID 224874019 – via Elsevier Science Direct.
Kirksey, Will (2010). "Port of Portland Opts for Decentralized, Sustainable Water Architecture with the Living Machine® Ecological Wastewater System". Journal - American Water Works Association. 102 (2): 19–22. Bibcode:2010JAWWA.102b..19K. doi:10.1002/j.1551-8833.2010.tb10038.x. S2CID 116521703.

heacademy.ac.uk

cebe.heacademy.ac.uk

"Sustainable Architecture and Simulation Modelling". Dublin Institute of Technology. Archived from the original on 6 May 2013.

innovation4e.de

blog.innovation4e.de

Miara, Marek (10 February 2021). "Heat pumps in existing buildings, a blog post series in 12 parts". Retrieved 16 November 2021.

jstor.org

Shah, Rajiv; Jay, Kesan (Winter 2007). "Journal of Architectural and Planning Research". How Architecture Regulates. 24 (4): 350–359. JSTOR 43030813. Retrieved 20 April 2021.
Herbert, Michael (2003). "Built Environment". New Urbanism - the Movement in Context. 29 (3): 193–209. JSTOR 23287649. Retrieved 20 April 2021.

mckinsey.com

"Reducing embodied carbon in new construction | McKinsey".

nd.edu

architecture.nd.edu

"Driehaus Prize". Together, the $200,000 Driehaus Prize and the $50,000 Reed Award represent the most significant recognition for classicism in the contemporary built environment. Notre Dame School of Architecture. Retrieved 23 March 2014.

nih.gov

ncbi.nlm.nih.gov

Wang, Tong; Wu, Yi; Shi, Lan; Hu, Xinhua; Chen, Min; Wu, Limin (2021). "A structural polymer for highly efficient all-day passive radiative cooling". Nature Communications. 12 (365): 365. doi:10.1038/s41467-020-20646-7. PMC 7809060. PMID 33446648. Accordingly, designing and fabricating efficient PDRC with sufficiently high solar reflectance (𝜌¯solar) (λ ~ 0.3–2.5 μm) to minimize solar heat gain and simultaneously strong LWIR thermal emittance (ε¯LWIR) to maximize radiative heat loss is highly desirable. When the incoming radiative heat from the Sun is balanced by the outgoing radiative heat emission, the temperature of the Earth can reach its steady state.

pubmed.ncbi.nlm.nih.gov

Wang, Tong; Wu, Yi; Shi, Lan; Hu, Xinhua; Chen, Min; Wu, Limin (2021). "A structural polymer for highly efficient all-day passive radiative cooling". Nature Communications. 12 (365): 365. doi:10.1038/s41467-020-20646-7. PMC 7809060. PMID 33446648. Accordingly, designing and fabricating efficient PDRC with sufficiently high solar reflectance (𝜌¯solar) (λ ~ 0.3–2.5 μm) to minimize solar heat gain and simultaneously strong LWIR thermal emittance (ε¯LWIR) to maximize radiative heat loss is highly desirable. When the incoming radiative heat from the Sun is balanced by the outgoing radiative heat emission, the temperature of the Earth can reach its steady state.

nrel.gov

"Even in Frigid Temperatures, Air-Source Heat Pumps Keep Homes Warm From Alaska Coast to U.S. Mass Market". www.nrel.gov. Retrieved 16 November 2021.

nsf.gov

par.nsf.gov

Yang, Yuan; Zhang, Yifan (2020). "Passive daytime radiative cooling: Principle, application, and economic analysis". MRS Energy & Sustainability. 7 (18). doi:10.1557/mre.2020.18. S2CID 220008145. Archived from the original on 27 September 2022. Retrieved 27 September 2022.

osti.gov

Walford, Christopher A. (1 March 2006). "Wind turbine reliability :understanding and minimizing wind turbine operation and maintenance costs" (PDF). doi:10.2172/882048. OSTI 882048.

purdue.edu

docs.lib.purdue.edu

Yuxiang Chen; et al. (2014). "Effects of Fixed and Motorized Window Louvers on the Daylighting and Thermal Performance of Open-Plan Office Buildings" (Conference Paper). International High Performance Buildings Conference. Purdue University. Retrieved 22 May 2023.

rapidcityjournal.com

"Wind turbine, a powerful investment", Rapid City Journal, February 20, 2008

rsc.org

pubs.rsc.org

Heo, Se-Yeon; Ju Lee, Gil; Song, Young Min (June 2022). "Heat-shedding with photonic structures: radiative cooling and its potential". Journal of Materials Chemistry C. 10 (27): 9915–9937. doi:10.1039/D2TC00318J. S2CID 249695930 – via Royal Society of Chemistry.

sagepub.com

ibe.sagepub.com

James, J.P., Yang, X. Indoor and Built Environment, Emissions of Volatile Organic Compounds from Several Green and Non-Green Building Materials: A Comparison, January 2004.[1] Retrieved: 2008-04-30.

sandia.gov

energy.sandia.gov

Walford, Christopher A. (1 March 2006). "Wind turbine reliability :understanding and minimizing wind turbine operation and maintenance costs" (PDF). doi:10.2172/882048. OSTI 882048.

sciencedirect.com

Faisal Ahmed, Sumair; Khalid, Mohammad; Vaka, Mahesh; Walvekar, Rashmi; Numan, Arshid; Khaliq Rasheed, Abdul; Mujawar Mubarak, Nabisab (1 October 2021). "Recent progress in solar water heaters and solar collectors: A comprehensive review". Thermal Science and Engineering Progress. 25: 100981. Bibcode:2021TSEP...2500981F. doi:10.1016/j.tsep.2021.100981. ISSN 2451-9049.
Yu, Xinxian; Yao, Fengju; Huang, Wenjie; Xu, Dongyan; Chen, Chun (July 2022). "Enhanced radiative cooling paint with broken glass bubbles". Renewable Energy. 194: 129–136. Bibcode:2022REne..194..129Y. doi:10.1016/j.renene.2022.05.094 – via Elsevier Science Direct. Radiative cooling is a renewable technology that is promising to meet this goal. It is a passive cooling strategy that dissipates heat through the atmosphere to the universe. Radiative cooling does not consume external energy but rather harvests coldness from outer space as a new renewable energy source.
Vall, Sergi; Johannes, Kévyn; David, Damien; Castell, Albert (July 2022). "A new flat-plate radiative cooling and solar collector numerical model: Evaluation and metamodeling". Energy. 202. doi:10.1016/j.energy.2020.117750. hdl:10459.1/69909 – via Elsevier Science Direct. Radiative cooling is a renewable technology that can complement or partially replace current cooling technologies.
Ahmed, Salman; Li, Zhenpeng; Javed, Muhammad Shahzad; Ma, Tao (September 2021). "A review on the integration of radiative cooling and solar energy harvesting". Materials Today: Energy. 21: 100776. Bibcode:2021MTEne..2100776A. doi:10.1016/j.mtener.2021.100776 – via Elsevier Science Direct.
Bijarniya, Jay Prakash; Sarkar, Jahar; Maiti, Pralay (November 2020). "Review on passive daytime radiative cooling: Fundamentals, recent researches, challenges and opportunities". Renewable and Sustainable Energy Reviews. 133: 110263. Bibcode:2020RSERv.13310263B. doi:10.1016/j.rser.2020.110263. S2CID 224874019 – via Elsevier Science Direct.

scientific.net

Bielek, Boris (2016). "Green Building – Towards Sustainable Architecture". Applied Mechanics and Materials. 824: 751–760. doi:10.4028/www.scientific.net/AMM.824.751. S2CID 112027139. Retrieved 5 July 2020.

semanticscholar.org

api.semanticscholar.org

Bielek, Boris (2016). "Green Building – Towards Sustainable Architecture". Applied Mechanics and Materials. 824: 751–760. doi:10.4028/www.scientific.net/AMM.824.751. S2CID 112027139. Retrieved 5 July 2020.
Korpela, Tuija; Kuosa, Maunu; Sarvelainen, Hannu; Tuliniemi, Erja; Kiviranta, Paulus; Tallinen, Kirsi; Koponen, Hanna-Kaisa (February 2022). "Waste heat recovery potential in residential apartment buildings in Finland's Kymenlaakso region by using mechanical exhaust air ventilation and heat pumps". International Journal of Thermofluids. 13: 100127. Bibcode:2022IJTf...1300127K. doi:10.1016/j.ijft.2021.100127. S2CID 244739642.
Heo, Se-Yeon; Ju Lee, Gil; Song, Young Min (June 2022). "Heat-shedding with photonic structures: radiative cooling and its potential". Journal of Materials Chemistry C. 10 (27): 9915–9937. doi:10.1039/D2TC00318J. S2CID 249695930 – via Royal Society of Chemistry.
Bijarniya, Jay Prakash; Sarkar, Jahar; Maiti, Pralay (November 2020). "Review on passive daytime radiative cooling: Fundamentals, recent researches, challenges and opportunities". Renewable and Sustainable Energy Reviews. 133: 110263. Bibcode:2020RSERv.13310263B. doi:10.1016/j.rser.2020.110263. S2CID 224874019 – via Elsevier Science Direct.
Yang, Yuan; Zhang, Yifan (2020). "Passive daytime radiative cooling: Principle, application, and economic analysis". MRS Energy & Sustainability. 7 (18). doi:10.1557/mre.2020.18. S2CID 220008145. Archived from the original on 27 September 2022. Retrieved 27 September 2022.
Jonkers, Henk M. (23 March 2018). "Self Healing Concrete: A Biological Approach". Self Healing Materials. Springer Series in Materials Science. Vol. 100. Springer, Dordrecht. pp. 195–204. doi:10.1007/978-1-4020-6250-6_9. ISBN 978-1-4020-6249-0. S2CID 133848154.
Muller, Brook (2018). "New Horizons for Sustainable Architecture". Nature and Culture. 13 (2): 189–207. doi:10.3167/nc.2018.130201. S2CID 149793746.
Kuittinen, Matti; Zernicke, Caya; Slabik, Simon; Hafner, Annette (11 March 2021). "How can carbon be stored in the built environment? A review of potential options". Architectural Science Review. 66 (2): 91–107. doi:10.1080/00038628.2021.1896471. ISSN 0003-8628. S2CID 233617364.
Savio, Lorenzo; Pennacchio, Roberto; Patrucco, Alessia; Manni, Valentino; Bosia, Daniela (8 January 2022). "Natural Fibre Insulation Materials: Use of Textile and Agri-food Waste in a Circular Economy Perspective". Materials Circular Economy. 4 (1): 6. doi:10.1007/s42824-021-00043-1. ISSN 2524-8154. S2CID 245803736.
Beckwith, Ashley L.; Borenstein, Jeffrey T.; Velásquez-García, Luis F. (April 2022). "Physical, mechanical, and microstructural characterization of novel, 3D-printed, tunable, lab-grown plant materials generated from Zinnia elegans cell cultures". Materials Today. 54: 27–41. doi:10.1016/j.mattod.2022.02.012. S2CID 247300299.
Kirksey, Will (2010). "Port of Portland Opts for Decentralized, Sustainable Water Architecture with the Living Machine® Ecological Wastewater System". Journal - American Water Works Association. 102 (2): 19–22. Bibcode:2010JAWWA.102b..19K. doi:10.1002/j.1551-8833.2010.tb10038.x. S2CID 116521703.

springer.com

link.springer.com

Halilović, Maida; Berković, Adna (2022). "Sustainable Strategies in Vernacular Architecture Practices in Sarajevo: The Architectural Ensemble of Alija Djerzelez House as a Case Study". In Ademović, Naida; Mujčić, Edin; Akšamija, Zlatan; Kevrić, Jasmin; Avdaković, Samir; Volić, Ismar (eds.). Advanced Technologies, Systems, and Applications VI. Lecture Notes in Networks and Systems. Vol. 316. Cham: Springer International Publishing. pp. 744–762. doi:10.1007/978-3-030-90055-7_60. ISBN 978-3-030-90055-7.

ssrn.com

papers.ssrn.com

Contreras, Jorge L.; Roth, Hannah; Lewis, Meghan (1 September 2011). "Toward a Rational Framework for Sustainable Building Materials Standards". SSRN 1944523.

timesonline.co.uk

The Sunday Times, "Home wind turbines dealt killer blow"^{[dead link]}, April 16, 2006

toolbase.org

"Solar Water Heaters". Toolbase.org. Archived from the original on 15 April 2013. Retrieved 7 November 2012.

traditionalarchitecture.co.uk

"Beauty, Humanism, Continuity between Past and Future". Traditional Architecture Group. Archived from the original on 5 March 2018. Retrieved 23 March 2014.

umich.edu

John Ringel., University of Michigan, Sustainable Architecture, Waste Prevention [2]

unhabitat.org

mirror.unhabitat.org

"UN-HABITAT: Sustainable Urban Development Network".

usda.gov

research.fs.usda.gov

Bengston, David N. (2021). "Lab-grown wood: a potential game changer for forestry and forest products". The Forestry Source. 26 (3): 10–17.

usgbc.org

"U.S. Green Building Council". U.S. Green Building Council.

web.archive.org

"Sustainable Architecture and Simulation Modelling". Dublin Institute of Technology. Archived from the original on 6 May 2013.
Yang, Yuan; Zhang, Yifan (2020). "Passive daytime radiative cooling: Principle, application, and economic analysis". MRS Energy & Sustainability. 7 (18). doi:10.1557/mre.2020.18. S2CID 220008145. Archived from the original on 27 September 2022. Retrieved 27 September 2022.
Information on low-emitting materials may be found at www.buildingecology.com/iaq_links.php IAQ links Archived 2008-06-11 at the Wayback Machine
"Beauty, Humanism, Continuity between Past and Future". Traditional Architecture Group. Archived from the original on 5 March 2018. Retrieved 23 March 2014.

weforum.org

"How can we reduce the construction industry's carbon footprint?". www.weforum.org. 13 July 2021.

wiley.com

McGrath, Brian (2013). Urban Design Ecologies: AD Reader. John Wiley & Sons, Inc. pp. 220–237. ISBN 978-0-470-97405-6.

worldbank.org

"Eco2 Cities – a Guide for Developing Ecologically Sustainable and Economically Viable Cities".

worldcat.org

search.worldcat.org

Faisal Ahmed, Sumair; Khalid, Mohammad; Vaka, Mahesh; Walvekar, Rashmi; Numan, Arshid; Khaliq Rasheed, Abdul; Mujawar Mubarak, Nabisab (1 October 2021). "Recent progress in solar water heaters and solar collectors: A comprehensive review". Thermal Science and Engineering Progress. 25: 100981. Bibcode:2021TSEP...2500981F. doi:10.1016/j.tsep.2021.100981. ISSN 2451-9049.
Kuittinen, Matti; Zernicke, Caya; Slabik, Simon; Hafner, Annette (11 March 2021). "How can carbon be stored in the built environment? A review of potential options". Architectural Science Review. 66 (2): 91–107. doi:10.1080/00038628.2021.1896471. ISSN 0003-8628. S2CID 233617364.
Savio, Lorenzo; Pennacchio, Roberto; Patrucco, Alessia; Manni, Valentino; Bosia, Daniela (8 January 2022). "Natural Fibre Insulation Materials: Use of Textile and Agri-food Waste in a Circular Economy Perspective". Materials Circular Economy. 4 (1): 6. doi:10.1007/s42824-021-00043-1. ISSN 2524-8154. S2CID 245803736.
Iwuanyanwu, Obinna; Gil-Ozoudeh, Ifechukwu; Okwandu, Azubuike Chukwudi; Ike, Chidiebere Somadina (30 August 2024). "The role of green building materials in sustainable architecture: Innovations, challenges, and future trends". International Journal of Applied Research in Social Sciences. 6 (8): 1935–1950. doi:10.51594/ijarss.v6i8.1476. ISSN 2706-9184.