Revisiting the concept of contentment with the aim of optimization of space in the architecture (Case study: the contemporary and old architecture of Isfahan)

Abstract :

Optimization is a prevalent topic in today's scientific forums and the field of architecture is not an exception. The goal of optimization in architecture is to make optimal use of available resources and reduce the construction costs. What makes it necessary to address this issue in the current situation is the widespread use of inefficient patterns in the design, implementation or operation of modern buildings, which leads to waste resources. The present study seeks to examine architectural samples in Isfahan, referring to the Iranian-Islamic concept of “Ghana’at” which conveys the concept of “satisfaction with less”. By extracting instances of contentment in the use of space, the research aims to define effective strategies for optimization in the architectural process. So, this research has been conducted in three steps: field and library studies to identify instances of optimization in architectural samples, categorization of similar topics to explain effective strategies to optimization using Maxqda software and finally prioritization the solutions based on opinions of 30 experts in architecture and urban planning who are active in the construction industry in Isfahan city through pairwise comparison of criteria. As result, 15 solutions for optimal use of space in the architectural process were introduced in the form of 5 strategies: “efficiency”, “multifunctionality”, “environmental friendliness”, “self-sufficiency” and “recyclability”. The most effective solutions under each strategy were identified as “build as required”, “dimensional adaptability of architectural spaces”, “preventing ground destruction in the construction process”, “fixing Unfavorable dimensions and angles with the help of architectural elements” and “developability of the building”.

References:

The Holy Quran.
Ahmadi Soleymani, S. M., Eshraghi, P., Mirdamadi, M. S., & Zomorrodian, Z. S. (2022). Optimizing the energy consumption of educational buildings. Case study: Shahid Beheshti University. Soffe. Volume 32(98). Pages 49-65. Persian.
Ameur, M., Kharbouch, Y., & Mimet, A. (2020). Optimization of passive design features for a naturally ventilated residential building according to the bioclimatic architecture concept and considering the northern Morocco climate. Architecture and human behavior. Volume 13. Pages 677-689.
Ansarimanesh, M., Nasrollahi, N., & Mahdavi Nezhad, M. J. (2019). Determining the optimal orientation for office buildings in cold climates. Case study: Kermanshah city. Armanshahr Architecture and urban development. Volume 12 (27). Pages 1-9. Persian.
Fallah, H. (2019). Determining the optimal window-to-wall ratio in the south facade of educational buildings in Kerman. Naqsh-e-jahan. Volume 9 (2). Pages 105-115. Persian.
Golshan, H., & Mahmoudi Kamelabadi, M. (2019). Context-oriented architectural considerations in Chaharbagh Abbasi, Isfahan. Maremat and Memari-e Iran. Volume 9 (18). Pages 33-52. Persian.
Han, W., Han, M., Zhang, M., Zhao, Y., Xie, K., & Zhang, Y. (2024). Historic building renovation with solar system toward zero-energy consumption: Feasibility analysis and case optimization practice in China. Sustainability. Volume 16. doi.org/10.3390
Hood, S., D., Mahmoodi Zarandi, M., & Kamyabi, S. (2018). Optimum placement of canopies for double-skin facades with the aim of achieving thermal comfort in hot climates. Naqsh-e-jahan. Volume 8 (3). Pages 171-177. Persian.
Liu, B., & Rodriguez, D. (2021). Renewable energy systems optimization by a new multi-objective optimization technique: A residential building. Journal of building engineering. Volume 35. doi.org/10.1016
Mahvash, M., & Saadvandi, M. (2019). contentment indicators in architecture; In the semantic contrast of contentment with greed. Architectural Thought. Volume 3 (5). Pages 17-32. Persian.
Mardomi, K., & Zandaveh, B. (2015). From one-dimensional functionalism to multi-dimensional spatialism. Armanshahr Architecture and urban development. Volume (15). Pages 93-103. Persian.
Mei, L., & Wang, Q. (2021). Structural optimization in civil engineering: A literature review. Buildings. Volume 11(66). doi.org/10.3390
Meshkini, A., & Teymouri, A. (2016). Measurement of urban sprawl and its effect on changing the function of the plot of land using RS and GIS. Armanshahr Architecture and urban development. Volume (17). Pages 375-387. Persian.
Mirmasoumi, F. S., Salavati, M., & Ahmadi, F. (2018). Green housing of Isfahan, reflecting the optimization of energy consumption on the quality of life. Naqsh-e-jahan. Volume 8 (3). Pages 195-204. Persian.
Mohajer Milani, A., & Einifar, A. (2019). Recognizing Tehran's common housing spatial organization; A case study of row apartment buildings up to 6 floors, northern subspecies. Journal of Fine Arts: Architecture and Urban Planning. Year 24 (1). Pages 45-56. Persian.
Molaei, M. M., Pilechiha, P., & Shadanfar, A. (2019). Optimizing opening proportions and lighting facade with the approach of reducing energy consumption in office buildings. Naqsh-e-jahan. Volume 9 (2). Pages 117-123. Persian.
Mortaz Hejri, M., Yazdanfar, S. A., & Hosseini, S. B. (2021). Examining the relationship between lifestyle and spatial organization of the house. Iranian Architecture studies. Volume 10 (19). Pages 193-213. Persian.
Motaghedi, F., Taghwaei, V., & Mazhari, M. E. (2021). The effect of the physical differences between the old house and the houses of the Abadan oil company on the lifestyle of the residents. Hoviat Shahr. Volume 15 (48). Pages 79-92. Persian.
Pillay, T. L., Saha, & A. K. (2024). A review of metaheuristic optimization techniques for effective energy conservation in building. Energies. Volume 17. doi.org/10.3390
Seryani, N. (2002). Contentment and Architecture. Master thesis. Faculty of Architecture and Urban Planning. Yazd University.
Shayanian, A., & Mozaffari Ghadikolaei, F. (2022). Adapting the benefits and application of atriums and traditional circular roofs with an emphasis on optimizing energy consumption in commercial centers of Tehran. Islamic Art. Volume 19 (45). Pages 394-407. Persian.
Sokhandan Sorkhabi, Z., & Khan Mohammadi, M. A. (2015). Optimizing the energy performance of non-opening walls in sunny facades. Hoviat Shahr. Volume 9 (23). Pages 73-82. Persian.
Sokhandan Sorkhabi, Z., Nasrollahi, F., & Ghaffari, A. (2017). Optimizing the geometry of architectural spaces to achieve thermal performance using the thermoacoustic effect. Hoviat Shahr. Volume 11 (31). Pages 73-82. Persian.
Taleb, S., Yeretzian, A., Jabr, R. A., Hajj, H. (2020). Optimization of building form to reduce incident solar radiation. Journal of building engineering. Volume 28. doi.org/10.1016
Wortmann, T., Cichocka, J., & Waibel, C. (2022). Simulation-based optimization in architecture and building engineering-result from an international user survey in practice and research. Energy and Buildings. Volume 259. doi.org/10.1016
Wortmann, T., & Fischer, T. (2020). Does Architectural design optimization require multiple objectives? A critical analysis. 25th International Conference on computer-aided architectural design research in Asia. Thailand.
Yi M. X. (2022). Generalized topology optimization for architectural design. Architectural intelligence. Volume 1. Article number 2.
Yousefinezhad, S., & Mahmoudi Zarandi, M. (2018). Providing solutions for designing stairs in homes using smart architecture to optimize space. Memari Shenasi. Volume 1 (6). Pages 1-6. Persian.
Zahri, S., Tahbaz, M., & Etesam, I. (2017). Presenting the optimal model for the establishment of buildings in villa residential complexes in Rasht using solar and wind energy. Urban management study. Volume 16 (47). Pages 21-32. Persian.
Ziaeinia, M. H., & Hashemi Zarjabadi, H. (2016). Golden ratio and Iranian-Islamic system of proportions in Qaen Grand Mosque. Maremat and Memari-e Iran. Volume 6 (11). Pages 89-99. Persian.
Images of Iran's contemporary architecture website.
Images of Zandigan architecture office website.
Images of the archives of Cultural Heritage Organization of Isfahan province.