Control of Air Pollution by Shell (Architectural Solutions to Control Air Pollution in Ahvaz)
Subject Areas : INTERCULTURAL STUDIES QUARTERLY
Anahid Sasan
1
,
Reza Behbehani
2
,
Hassan Ebrahimy Asl
3
1 - PhD Student in Architecture, Faculty of Architecture, Jolfa Branch, Islamic Azad University, Jolfa, Iran
2 - Assistant Professor in Architecture, Faculty of Architecture, Central Tehran Branch, Islamic Azad University, Tehran, Iran
3 - Assistant Professor in Architecture, Faculty of Architecture, Jolfa Branch, Islamic Azad University, Jolfa, Iran
Keywords: Ahvaz city, Environmental pollution, Sustainable architecture, Building Shell,
Abstract :
Environmental pollution caused by climate change and human factors caused by the increase in the world's population and as a result of the uncontrolled development of cities, has caused problems in settlements. These include declining quality of living environment and residential buildings. This research has sought to control environmental pollution in the building space as the main goal. In order to solve this problem, construction shells have been selected as a solution and three different types with three different approaches of biological shells, intelligent moving shells and two-shell facades have been studied, analyzed and proposed. Due to the interdisciplinary nature of this research, combined methods and using different sciences have been used to do it. The research is applied in nature, to explain the theoretical framework and collect data, as well as to select the influential components, it has benefited from the study of the background effective on the subject, as well as the field method. In order to obtain the number of pollutants entering the building in each of the models, the simulation method has been used using related software. Data analysis and evaluation has been done through simulation method. One of the results of this research was to present a model to be used in the city of Ahvaz in order to control environmental pollution. At the end, after observing the analysis of the studied indicators in the current state of the building, the proposed models were also analyzed and reviewed and the results were presented in the form of a diagram. Comparing the current situation with the first model, the number of environmental pollutants, both outside the building and adjacent to the building wall and inside the building, has decreased significantly. This is despite the fact that the reduction of pollutants has increased compared to the current situation with the second model, and the proposed measures and model have been fully effective
روزنامه همشهری
روزنامه جام جم (2016).
باقری بهشتی، آیدا؛ حبیب فرح؛ زرآبادی، زهرا؛ سادات، سعیده، (1398). مطالعه تطبیقی منظر شهری خرمشهر و برلین در حفظ خاطرات جمعی، مجله مطالعات میان فرهنگی، دوره 14، شماره 39: 45 – 68.
M. Taleghani. (2022). “Air Pollution within Different Urban Forms in Manchester, UK,”, . Climate, vol. 10, no. 2, .
Bastanfard, Matin, (2018). Controlling Air Pollution with the Use of Bio Facades (A solution to Control Air Pollution in Tehran), Bagh- e Nazar, 15 (65):29-44 /Nov. DOI: 10.22034/bagh.2018.74077
Yang, J., Yu, Q. & Gong, P. (2008). Quntifying air pollution removal by green roofs in Chicage. Atmospheric Environment, (42): 7266–7273
Thottathil, V., Jacob, C., Balamuralikrishna, S. (2010). Use of Green Facades in sustainable Building Environments: Quantifying the uptake rates of air pollutants by facades draped with tropical creepe. International Conference on Sustainable Built Environment, Kandy, 13-14 December 2010
Othman, M. A. (2017). Innovative responsive shading system: multifunctional case study in Milan.
Yi, H. K. (2020). 3D-printed attachable kinetic shading device with alternate actuation: Use of shape-memory alloy (SMA) for climate-adaptive responsive architecture. . Automation in Construction, 114, 10315.
Sharp, A. B. (2021). An Autonomous Bio-Inspired Shading Façade System based on Plant Movement Principles. Structure optimization and material-based design.
Blinová, L., Bartošová, A., & Gerulová, K. (2015). Cultivation of micro-algae (Chlorella vulgaris) for biodiesel production. Faculty of Materials Science and Technology in Trnava, Slovak University of Technology in Bratislava, vol. 23, no. 36.
Bastanfard, Matin, (2018). Controlling Air Pollution with the Use of Bio Facades (A solution to Control Air Pollution in Tehran), Bagh- e Nazar, 15 (65):29-44 /Nov. DOI: 10.22034/bagh.2018.74077
Anastasia Globa, Glenn Costin, Olubukola Tokede, Rui Wang, Chin Koi Khoo b and Jules
Moloney, (2021), Hybrid kinetic facade: fabrication and feasibility evaluation of full-scale prototypes, Architectural engineering and design management https://doi.org/10.1080/17452007.2021.1941739
Blinová, L., Bartošová, A., & Gerulová, K. (2015). Cultivation of micro-algae (Chlorella vulgaris) for biodiesel production. Faculty of Materials Science and Technology in Trnava, Slovak University of Technology in Bratislava, vol. 23, no. 36.
Bastanfard, Matin, (2018). Controlling Air Pollution with the Use of Bio Facades (A solution to Control Air Pollution in Tehran), Bagh- e Nazar, 15 (65):29-44 /Nov. DOI: 10.22034/bagh.2018.74077
Yang, J., Yu, Q. & Gong, P. (2008). Quntifying air pollution removal by green roofs in Chicage. Atmospheric Environment, (42): 7266–7273
Thottathil, V., Jacob, C., Balamuralikrishna, S. (2010). Use of Green Facades in sustainable Building Environments: Quantifying the uptake rates of air pollutants by facades draped with tropical creepe. International Conference on Sustainable Built Environment, Kandy, 13-14 December 2010
Perini, K., Ottelé M., FraaijA, Haas E. M. & Raiteri, R. (2011). Vertical greening systems and the effect on air flow, and temperature on the building envelope. Building and Environment, (46): 2287-2294
Moloney, J., Globa, A., Wang, R., Khoo, C. K., & Tokede, O. (2019). Hybrid environmental-media facades: Rationale and feasibility. Architectural Engineering and Design Management, 15(5), 313–333
Anastasia Globa, Glenn Costin, Olubukola Tokede, Rui Wang, Chin Koi Khoo b and Jules Moloney, (2021), Hybrid kinetic facade: fabrication and feasibility evaluation of full-scale prototypes, Architectural engineering and design management https://doi.org/10.1080/17452007.2021.1941739
L. Wang, J. Gwilliam, P. Jones, (2009), Case study of zero energy house design in UK, Energy Build. 41 (11) pp.1215–1222. Available from: https://doi.org/10. 1016/j.enbuild.2009.07.001.
Danesh, M., Escamilla, E., Pariafsai, F., & Ostadalimakhmalbaf, M. (2019). Characteristics of Glazing Layers of Double-Skin Facades and Energy Consumption: A Case Study in Arid Climate of Tehran. In AEI 2019: Integrated Building Solutions—The National Agenda (pp. 204-215). Reston, VA: American Society of Civil Engineers.
Graiz, E., & Al Azhari, W. (2019). Energy efficient glass: A way to reduce energy consumption in office buildings in Amman (October 2018). IEEE Access, 7, 61218-61225.
Kosukhin, M. M., Kosukhin, A. M., & Komarova, K. S. (2018, August). Increasing of the energy efficiency in civilian buildings applying fixed type of facade systems. In Journal of Physics: Conference Series (Vol. 1066, No. 1, p. 012012).
(www.archdaily.com (2018)
www.arup.com (2013)
www.bouygues-construction.com (2020)
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