Volume 11, Issue 4 (2022)                   Naqshejahan 2022, 11(4): 79-95 | Back to browse issues page

XML Persian Abstract Print


Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:

Pourzargar M. Posto-Corona Visioning for Sustainable Adaptive Reuse of Kahrzak Sugar Factory. Naqshejahan 2022; 11 (4) :79-95
URL: http://bsnt.modares.ac.ir/article-2-57428-en.html
Assistant Professor, Department of Architecture, Central Tehran Branch, Islamic Azad University. Iran , moh.pourzargar@iauctb.ac.ir
Abstract:   (3334 Views)
Aims: The purpose of the research is to introduce the capabilities and capacities of contemporary and industrial heritage of Iran in in the post-COVID era.
Methods: The analysis of the most important developments of the possible scenarios for the post-Corona period as well as the needs of the post-pandemic age creates a kind of in-depth conceptual framework for the selected descriptive and analytical research methods. The conceptual model of the research is designed based on the highperformance architecture theory and the standard of a well building. The main strategy of the research is to turn the weakness into the strength, and to turn threats into opportunities, with a futuristic approach. Kahrizak Sugar Factory as a shared-heritage of Iran and Belgium has been selected as a case study.
Findings: The findings emphasize on the necessity of accordance with post-corona age requirements, based on seven factors of a well building including: 11- Air, 2- Water, 3- Light, 4- Mind, 5- Comfort, 6- Fitness and 7- Nourishment. It shows that the Kahrizak sugar factory has high potentials to become a model of contemporization, in line with architectural and urban planning priorities in the post-COVID era.
Conclusion: The concept of health in harmony with the green adaptive reuse is a key concept to deal with contemporization of industrial heritage sites, which provides a competitive for the post-COVID agae in line with the aims of the sustainable development.
Full-Text [PDF 1228 kb]   (2196 Downloads)    
Article Type: Original Research | Subject: Highperformance Architecture
Received: 2021/09/24 | Accepted: 2022/01/10 | Published: 2022/01/10

References
1. Rasoolzadeh M, Moshari M. Prioritizing for Healthy Urban Planning: Interaction of Modern Chemistry and Green Material-based Computation. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2021 May 10;11(1):94-105. [Persian] https://dorl.net/dor/20.1001.1.23224991.1400.11.1.7.0 [Article] [DOI]
2. Mohtashami N, Mahdavinejad M, Bemanian M. Contribution of city prosperity to decisions on healthy building design: A case study of Tehran. Frontiers of Architectural Research. 2016 Sep 1;5(3):319-31. https://doi.org/10.1016/j.foar.2016.06.001 [Article] [DOI]
3. Abasi M, Tahbaz M, Vafaee R. Introducing an Innovative Variable Building Layers System (V.B.L.S). Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2015 Jun 10;5(2):43-54. [Persian] https://dorl.net/dor/20.1001.1.23224991.1394.5.2.1.4 [Article] [DOI]
4. Megahed NA, Ghoneim EM. Antivirus-built environment: Lessons learned from Covid-19 pandemic. Sustainable cities and society. 2020 Oct 1;61:102350. https://doi.org/10.1016/j.scs.2020.102350 [Article] [DOI]
5. Megahed NA, Ghoneim EM. Indoor Air Quality: Rethinking rules of building design strategies in post-pandemic architecture. Environmental Research. 2021 Feb 1;193:110471. https://doi.org/10.1016/j.envres.2020.110471 [Article] [DOI]
6. Spennemann DH. Residential Architecture in a post-pandemic world: implications of COVID-19 for new construction and for adapting heritage buildings. Journal of Green Building. 2021;16(1):199-215. https://doi.org/10.3992/jgb.16.1.199 [Article] [DOI]
7. Pakdeh SG, Rasoolzadeh M, Moghadam AS. Barium oxide as a modifier to stabilize the γ-Al2O3 structure. Polish Journal of Chemical Technology. 2016;18(4). https://doi.org/10.1515/pjct-2016-0062 [Article] [DOI]
8. Pakdehi SG, Rasoolzadeh M, Zolfaghari R. Synthesize and Investigation of the Catalytic Behavior of Ir/γ-Al2O3 Nanocatalyst. InAdvanced Materials Research 2014 (Vol. 829, pp. 163-167). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/AMR.829.163 [Article] [DOI]
9. Pakdehi SG, Salimi M, Rasoolzadeh M. Co-Ni bimetallic catalysts coated on cordierite monoliths for hydrazine decomposition. InAdvanced Materials Research 2014 (Vol. 936, pp. 981-985). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/AMR.936.981 [Article] [DOI]
10. Rasoolzadeh M, Islampour R. Estimation of vibrational energy levels of diatomic molecules (CN, CO and CS) using Numerov algorithm and comparison with the empirical values. Australian Journal of Basic and Applied Sciences. 2011;5(12):2041-7. [Article]
11. Mahdavinejad M, Hosseini SA. Data mining and content analysis of the jury citations of the Pritzker Architecture prize (1977–2017). Journal of Architecture and Urbanism. 2019 Feb 1;43(1):71-90. https://doi.org/10.3846/jau.2019.5209 [Article] [DOI]
12. Mahdavinejad M. Designerly Approach to Energy Efficiency in High-Performance Architecture Theory. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2020 Sep 10;10(2):75-83. [Persian] https://dorl.net/dor/20.1001.1.23224991.1399.10.2.7.5 [Article] [DOI]
13. Mahdavinejad M. Dilemma of Prosperity and Technology in Contemporary Architecture of Developing Countries. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning, 2014 Sep 10;3(2):35-42. [Persian] https://dorl.net/dor/20.1001.1.23224991.1393.4.2.7.3 [Article] [DOI]
14. Mahdavinejad M. Discourse of High-Performance Architecture: A Method to Understand Contemporary Architecture. Hoviatshahr, 2017 Aug 23;11(2):53-67. [Persian] Available from: http://hoviatshahr.srbiau.ac.ir/article_10930_79f91b76bac9a77aba9d4aff60465705.pdf [Article]
15. Mahdavinejad M. High-Performance Architecture: Search for Future Legacy in Contemporary Iranian Architecture. Armanshahr Architecture & Urban Development, 2017 Mar 14;9(17):129-138. [Persian] Available from: http://www.armanshahrjournal.com/article_44611_955a20b5cfd1f32308e627ddc8528b91.pdf [Article]
16. Mahdavinejad M, Javanroodi K. Natural ventilation performance of ancient wind catchers, an experimental and analytical study–case studies: one-sided, two-sided and four-sided wind catchers. International journal of energy technology and policy, 2014 Jan 1;10(1):36-60. https://doi.org/10.1504/IJETP.2014.065036 [Article] [DOI]
17. Saadatjoo P, Mahdavinejad M, Zhang G, Vali K. Influence of permeability ratio on wind-driven ventilation and cooling load of mid-rise buildings. Sustainable Cities and Society. 2021 Jul 1;70:102894. https://doi.org/10.1016/j.scs.2021.102894 [Article] [DOI]
18. Saligheh E, Saadatjoo P. Impact of Central Courtyard Proportions on Passive Cooling Potential in Hot and Humid Regions (Case Study: Single-story Buildings in Bandar Abbas). Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2020 Sep 10;10(2):137-52. [Persian] https://dorl.net/dor/20.1001.1.23224991.1399.10.2.5.3 [Article] [DOI]
19. Rahbar M, Mahdavinejad M, Bemanian M, Davaie Markazi AH, Hovestadt L. Generating Synthetic Space Allocation Probability Layouts Based on Trained Conditional-GANs. Applied Artificial Intelligence. 2019 Jul 3;33(8):689-705. https://doi.org/10.1080/08839514.2019.1592919 [Article] [DOI]
20. Javanroodi K, Nik VM, Mahdavinejad M. A novel design-based optimization framework for enhancing the energy efficiency of high-rise office buildings in urban areas. Sustainable Cities and Society. 2019; 49:101597. https://doi.org/10.1016/j.scs.2019.101597 [Article] [DOI]
21. Ahmadi J, Mahdavinejad M, Larsen OK, Zhang C, Zarkesh A, Asadi S. Evaluating the different boundary conditions to simulate airflow and heat transfer in Double-Skin Facade. Building Simulation. 2021 Sep 16:1-17. Tsinghua University Press. https://doi.org/10.1007/s12273-021-0824-5 [Article] [DOI]
22. Hood SD, Mahmoodi Zarandi M, Kamyabi S. Optimal placement of shadow tools of double-skin facade with the aim of achieving thermal comfort in hot climate. Naqshejahan-Basic studies and New Technologies of Architecture and Planning. 2018 Dec 10;8(3):171-7. [Persian] https://dorl.net/dor/20.1001.1.23224991.1397.8.3.4.0 [Article] [DOI]
23. Ansarimanesh M, Nasrollahi, N. Determination of occupant's thermal comfort zone to maximize the quality of indoor environment in office buildings of Kermanshah. Naqshejahan - Basic studies and New Technologies of Architecture and Planning, 2014;4(2):11-21. [Persian] Available from: http://bsnt.modares.ac.ir/article-2-29326-fa.html [Article] [DOI]
24. Attarian K, SafarAli Najar B. Defining Sustainability Characteristics for Residential Buildings in Hot and Humid Climate (Case Study: Traditional Houses of Ahwaz). Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2018 Dec 10;8(3):161-170. [Persian] https://dorl.net/dor/20.1001.1.23224991.1397.8.3.3.9 [Article] [DOI]
25. Fallahtafti R, Mahdavinejad M. Optimisation of building shape and orientation for better energy efficient architecture. International Journal of Energy Sector Management. 2015 Nov 2; 9(4): 593-618. https://doi.org/10.1108/IJESM-09-2014-0001
26. Javanroodi K, Mahdavinejad M, Nik VM. Impacts of urban morphology on reducing cooling load and increasing ventilation potential in hot-arid climate. Applied Energy. 2018; 231: 714-46. https://doi.org/10.1016/j.apenergy.2018.09.116 [Article] [DOI]
27. Saadatjoo P, Mahdavinejad M, Zhang G. A study on terraced apartments and their natural ventilation performance in hot and humid regions. Building Simulation. 2018 Apr 1;11(2):359-372. Tsinghua University Press. https://doi.org/10.1007/s12273-017-0407-7 [Article] [DOI]
28. Mahdavinejad M, Bitaab N. From Smart-Eco Building to High-Performance Architecture: Optimization of Energy Consumption in Architecture of Developing Countries. E&ES. 2017 Aug;83(1): 012020. https://doi.org/10.1088/1755-1315/83/1/012020 [Article] [DOI]
29. Ahmadi J, Mahdavinejad M, Asadi S. Folded double-skin façade (DSF): in-depth evaluation of fold influence on the thermal and flow performance in naturally ventilated channels. International Journal of Sustainable Energy. 2021 Jun 16:1-30. https://doi.org/10.1080/14786451.2021.1941019 [Article] [DOI]
30. Maturana Cossio B, Salama AM, McInneny A. Architecture, urbanism and health in a post-pandemic virtual world. Archnet-IJAR: International Journal of Architectural Research. 2021; 15(1): 1-9. https://doi.org/10.1108/ARCH-02-2021-0024 [Article] [DOI]
31. Talaei M, Mahdavinejad M, Azari R. Thermal and energy performance of algae bioreactive façades: A review. Journal of Building Engineering. 2020 Mar 1;28:101011. https://doi.org/10.1016/j.jobe.2019.101011 [Article] [DOI]
32. Aliabadi M, Zarkesh A, Mahdavinejad M. Bioware fog collectors: the Texas horned lizard as a model for a biomimetic fog-harvesting. Materials Research Express. 2018 Sep 5;5(11):115502. https://doi.org/10.1088/2053-1591/aadab4 [Article] [DOI]
33. Talaei M, Mahdavinejad M. Probable cause of damage to the panel of microalgae bioreactor building façade: Hypothetical evaluation. Engineering Failure Analysis. 2019 Jul 1;101:9-21. https://doi.org/10.1016/j.engfailanal.2019.02.060 [Article] [DOI]
34. Pourjafar M, Moradi A. Explaining design dimensions of ecological greenways. Open Journal of Ecology. 2015 Mar 5;5(03):66. https://doi.org/10.4236/oje.2015.53007 [Article] [DOI]
35. Moshari M, Nazari S. Learning from Hidden Geometry of Forests and Wild-life Environment for Biophilic Regional Planning. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2020 Oct 10;10(3):183-191. [Persian] https://dorl.net/dor/20.1001.1.23224991.1399.10.3.6.6 [Article] [DOI]
36. Mahdavinejad M, Zia A, Larki AN, Ghanavati S, Elmi N. Dilemma of green and pseudo green architecture based on LEED norms in case of developing countries. International journal of sustainable built environment, 2014 Dec 1;3(2):235-46. https://doi.org/10.1016/j.ijsbe.2014.06.003 [Article] [DOI]
37. Lotfi S, Sholeh M. Assessing the Old Buildings Reclaimability into the New Life Cycle Implementing Adaptive Reuse Potential (ARP) Model. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2017 Dec 10;7(3):15-34. [Persian] https://dorl.net/dor/20.1001.1.23224991.1396.7.3.1.0 [Article] [DOI]
38. Haghir, S., Tashakori, L., Rezazadeh, H., Ahmadi, F. Algae Façade for Reducing CO2 Emission and Mitigating Global Warming (Case Study: Tehran Enghelab Street). The Monthly Scientific Journal of Bagh-e Nazar, 2020 Oct 22;17(89):33-44. https://doi.org/10.22034/bagh.2020.188585.4147 [Article] [DOI]
39. Talaei M, Mahdavinejad M, Azari R, Prieto A, Sangin H. Multi-objective optimization of building-integrated microalgae photobioreactors for energy and daylighting performance. Journal of Building Engineering. 2021 Jun 5:102832. https://doi.org/10.1016/j.jobe.2021.102832 [Article] [DOI]
40. Aliabadi M, Zarkesh A, Siampour H, Abbasian S, Mahdavinejad M, Moshaii A. Bioinspired Azimuthally Varying Nanoscale Cu Columns on Acupuncture Needles for Fog Collection. ACS Applied Nano Materials. 2021 Sep 15. https://doi.org/10.1021/acsanm.1c01288 [Article] [DOI]
41. Talaei M, Mahdavinejad M, Zarkesh A, Haghighi HM. A review on interaction of innovative building envelope technologies and solar energy gain. Energy Procedia, 2017 Dec 1;141:24-8. https://doi.org/10.1016/j.egypro.2017.11.006 [Article] [DOI]
42. Alinasab M, Suzanchi K. Sustainable development of urban river valley based on ecological assessment; Case study: Darabad River Valley, Tehran. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2013;3(2):51-61. [Persian] https://dorl.net/dor/20.1001.1.23224991.1392.3.2.3.2 [Article] [DOI]
43. Torabi M, Mahdavinejad M. Past and Future Trends on the Effects of Occupant Behaviour on Building Energy Consumption. J. Sustain. Archit. Civ. Eng. 2021 Oct 27;29(2) 83-101. https://doi.org/10.5755/j01.sace.29.2.28576 [Article] [DOI]
44. Zandieh M, Mahmoodzadeh Kani I, Hessari P. Building Information Modeling (BIM); a model for improving the design process. Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2017 Jul 10;7(2):71-78. [Persian] https://dorl.net/dor/20.1001.1.23224991.1396.7.2.7.4 [Article] [DOI]
45. Amirkiaei, S., Mofidi Shemirani, S., Mahdavinejad, M., Raissamiei, M. Design for Disassembly and Shifting to Eco-Friendly Architecture. J. Env. Sci. Tech. (Journal of Environmental Science and Technology), 2020; 21(12): 263-275. [Persian] https://doi.org/10.22034/jest.2020.29026.3764 [Article] [DOI]
46. Bazazzadeh H, Pilechiha P, Nadolny A, Mahdavinejad M, Hashemi Safaei SS. The Impact Assessment of Climate Change on Building Energy Consumption in Poland. Energies 2021 July 06;14(14):4084. http://dx.doi.org/10.3390/en14144084 [Article] [DOI]
47. Eltaweel A, Yuehong SU. Parametric design and daylighting: A literature review. Renewable and Sustainable Energy Reviews. 2017 Jun 1;73:1086-103. https://doi.org/10.1016/j.rser.2017.02.011 [Article] [DOI]
48. Dabija AM. Influence of Environmental Agents in Architecture. Tradition and Innovation. Romania: A Case Study. In Applied Mechanics and Materials 2012 (Vol. 174, pp. 1722-1725). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/AMM.174-177.1722 [Article] [DOI]
49. Leslie RP. Capturing the daylight dividend in buildings: why and how?. Building and environment. 2003 Feb 1;38(2):381-5. https://doi.org/10.1016/S0360-1323(02)00118-X [Article] [DOI]
50. Arbab M, Mahdavinejad M, Bemanian M. Comparative Study on New lighting Technologies and Buildings Plans for High-performance Architecture. Journal of Solar Energy Research. 2020 Oct 1;5(4):580-93. https://doi.org/10.22059/jser.2020.304087.1157 [Article] [DOI]
51. Goharian A, Mahdavinejad M. A novel approach to multi-apertures and multi-aspects ratio light pipe. Journal of Daylighting. 2020 Sep 16;7(2):186-200. https://doi.org/10.15627/jd.2020.17 [Article] [DOI]
52. Hadianpour M, Mahdavinejad M, Bemanian M, Nasrollahi F. Seasonal differences of subjective thermal sensation and neutral temperature in an outdoor shaded space in Tehran, Iran. Sustainable Cities and Society, 2018 May 1; 39: 751-64. https://doi.org/10.1016/j.scs.2018.03.003 [Article] [DOI]
53. Goharian A, Mahdavinejad M, Bemanian M, Daneshjoo K. Designerly optimization of devices (as reflectors) to improve daylight and scrutiny of the light-well’s configuration. Building Simulation. 2021 Oct 9 (pp. 1-24). Tsinghua University Press. https://doi.org/10.1007/s12273-021-0839-y [Article] [DOI]
54. Pilechiha P, Mahdavinejad M, Rahimian FP, Carnemolla P, Seyedzadeh S. Multi-objective optimisation framework for designing office windows: quality of view, daylight and energy efficiency. Applied Energy. 2020 Mar 1; 261: 114356. https://doi.org/10.1016/j.apenergy.2019.114356 [Article] [DOI]
55. Eskandari H, Saedvandi M, Mahdavinejad M. The impact of Iwan as a traditional shading device on the building energy consumption. Buildings. 2018; 8(1):3. https://doi.org/10.3390/buildings8010003 [Article] [DOI]
56. Eslamirad N, Kolbadinejad SM, Mahdavinejad M, Mehranrad M. Thermal comfort prediction by applying supervised machine learning in green sidewalks of Tehran. Smart and Sustainable Built Environment. 2020 Apr 28; 9(4):361-374. https://doi.org/10.1108/SASBE-03-2019-0028 [Article] [DOI]
57. Fallah H. Determining the Most Efficient Window-to-Wall Ratio in Southern Façade of Educational Buildings in Kerman. Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2019 Sep 10;9(2):105-115. [Persian] https://dorl.net/dor/20.1001.1.23224991.1398.9.2.3.4 [Article] [DOI]
58. Hadianpour M, Mahdavinejad M, Bemanian M, Haghshenas M, Kordjamshidi M. Effects of windward and leeward wind directions on outdoor thermal and wind sensation in Tehran Building and Environment. 2019 Mar 1;150:164-180. https://doi.org/10.1016/j.buildenv.2018.12.053 [Article] [DOI]
59. Pourzargar M, Abedini H. Explaining the Components of Contemporization and Quality Improvement of Emamzadeh Saleh’s (AS) Adjacent Texture. Naqshejahan-Basic studies and New Technologies of Architecture and Planning. 2020 May 10;10(1):63-74. [Persian] https://dorl.net/dor/20.1001.1.23224991.1399.10.1.7.3 [Article] [DOI]
60. Bahramipanah A, Amirzadehdana E. Sustainability Lessons in Persian Architecture; Case Study: Minaee House in Tehran. Naqshejahan-Basic studies and New Technologies of Architecture and Planning. 2021 Jul 10;11(2):86-100. [Persian] https://dorl.net/dor/20.1001.1.23224991.1400.11.2.5.0 [Article] [DOI]
61. Daneshjoo K, Farmahin Farahani S. Geometry in Pre-Islamic Iranian Architecture and its Manifestation in Contemporary Iranian Architecture. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2013 Apr 10;3(1):55-66. [Persian] https://dorl.net/dor/20.1001.1.23224991.1392.3.1.3.0 [Article] [DOI]
62. Mazaherian H, Keynoosh A, Keynoosh A. Endogenous versus Conventional Approach to Residential Development in Revitalize Urban Identity of Iranian Islamic Architecture. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2017 Apr 10;7(1):1-12. [Persian] https://dorl.net/dor/20.1001.1.23224991.1396.7.1.7.2 [Article] [DOI]
63. Nasr T, Rismani A, Bahadori M. The Significance of Natural Components of Quranic Life in Islamic-Iranian Architecture (Case Studies: Residential Architecture of Qajar, Zand and Pahlavi Eras in Shiraz). Naqshejahan - Basic Studies and New Technologies of Architecture and Planning, 2017 Dec 10;7(3):47-62. [Persian] https://dorl.net/dor/20.1001.1.23224991.1396.7.3.5.4 [Article] [DOI]
64. Farshid Nik F, Afhami R, Ansari M, Nabavi L. The Role of Dynamic Equilibrium in the Continuous Perception of in Iranian Islamic Urbanism. Naqshejahan - Basic studies and New Technologies of Architecture and Planning, 2015 Oct 10;5(3):30-40. [Persian] https://dorl.net/dor/20.1001.1.23224991.1394.5.3.4.9 [Article] [DOI]
65. Bahramipanah A, Kia A. Quranic Interpretation of Holy Light Idea in Islamic and Iranian Architecture of Safavid Era. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2020 Dec 10;10(4):287-293. [Persian] https://dorl.net/dor/20.1001.1.23224991.1399.10.4.7.9 [Article] [DOI]
66. Bolouhari S, Barbera L, Etessam I. Learning Traditional Architecture for Future Energy-Efficient Architecture in the Country; Case Study: Yazd City. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning, 2020 Sep 10;10(2):85-93. [Persian] https://dorl.net/dor/20.1001.1.23224991.1399.10.2.3.1 [Article] [DOI]
67. Fatahi K, Nasrollahi N, Ansarimanesh M, Khodakarami J, Omranipour A. Comparison of Thermal Comfort Range of Finn Garden and Historical texture of Kashan. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2021 May 10;11(1):53-63. [Persian] https://dorl.net/dor/20.1001.1.23224991.1400.11.1.4.7 [Article] [DOI]
68. Haghighatbin M, Ansari M, Zabihian S. Howard's and Safavid's Garden Cities’ Principles (A Comparative Study). Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2012; 2(1):67-78. [Persian] https://dorl.net/dor/20.1001.1.23224991.1391.2.1.2.2 [Article] [DOI]
69. Latifi M, Daneshjoo K. The Creation of an Architectural Work within the Creation of the Universe Regarding the Holy Quran. Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2016 Sep 10; 6(2): 5-15. [Persian] https://dorl.net/dor/20.1001.1.23224991.1395.6.2.3.3 [Article] [DOI]
70. Latifi M, Diba D. Data Mining of the Spatial Structure of Qajar Native Housing; Case Study: Jangjouyan House of Isfahan. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2020 Oct 10;10(3):163-71. [Persian] https://dorl.net/dor/20.1001.1.23224991.1399.10.3.7.7 [Article] [DOI]
71. Mohamadzade R, Javanroudi K. Redesign of Collective and Private Spaces of Public Apartments to Enhancing Social Health in Iranian-Islamic Structure; Case study: Baharestan 2 complex, Sanandaj. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2016 Sep 10;6(2):36-47. [Persian] https://dorl.net/dor/20.1001.1.23224991.1395.6.2.7.7 [Article] [DOI]
72. Moradinasab H, Khaksar A. Investigation of troglodytic architectural adaptation with temperature climate element at heat period; Case Study: Village of Troglodytic Meymand. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2021 May 10;11(1):83-93. [Persian] https://dorl.net/dor/20.1001.1.23224991.1400.11.1.1.4 [Article] [DOI]
73. Bates V. ‘Humanizing’healthcare environments: architecture, art and design in modern hospitals. Design for Health. 2018 Jan 2;2(1):5-19. https://doi.org/10.1080/24735132.2018.1436304 [Article] [DOI]
74. César PD, Tronca B, Marchesini TZ. COVID-19 and Epidemic Diseases Transforming Lodging Facilities: A Study of Brazilian Cities. InVirus Outbreaks and Tourism Mobility 2021 Sep 6. Emerald Publishing Limited. https://doi.org/10.1108/978-1-80071-334-520211011 [Article] [DOI]
75. Horx M. Die Welt nach Corona. Zugriff am. 2020 Mar 19;14:2020. https://www.markt-bechhofen.de/fileadmin/Dateien/Website/Bilder/News/Die_Welt_nach_Corona.pdf [Article]
76. Weber CE. Jes 58, 1–9a 14.2. 2021 Estomihi: Vom Menschenfasten zum mitmenschlichen Fasten. Göttinger Predigtmeditationen. 2020 Oct 12;75(1):169-73. https://doi.org/10.13109/gpre.2020.75.1.169 [Article] [DOI]
77. Raeiszadeh M, Adeli B. A critical review on ultraviolet disinfection systems against COVID-19 outbreak: Applicability, validation, and safety considerations. Acs Photonics. 2020 Oct 14;7(11):2941-51. https://doi.org/10.1021/acsphotonics.0c01245 [Article] [DOI]
78. Sarada BV, Vijay R, Johnson R, Rao TN, Padmanabham G. Fight against COVID-19: ARCI’s technologies for disinfection. Transactions of the Indian National Academy of Engineering. 2020 Jun;5(2):349-54. https://doi.org/10.1007/s41403-020-00153-3 [Article] [DOI]
79. Seligman M. PERMA and the building blocks of well-being. The Journal of Positive Psychology. 2018 Jul 4;13(4):333-5. https://doi.org/10.1080/17439760.2018.1437466 [Article] [DOI]
80. Al-Shammari B, Rane NM, Desai SF, Al-Rabah AA, Pandey M, Shankhdhar S, Chacko R, Jagannathan R. Real-Time Application of Integrated Well and Network Models through Smart Workflows for Optimizing and Sustaining Production Targets in an Area of Kuwait's Greater Burgan Oil Field. InSPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition 2017 Oct 17. OnePetro. https://doi.org/10.2118/186205-MS [Article] [DOI]

Add your comments about this article : Your username or Email:
CAPTCHA

Send email to the article author


Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.