Volume 12, Issue 1 (2022)                   Naqshejahan 2022, 12(1): 41-58 | Back to browse issues page

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Bahramipanah A. Green Contemporization of the Ray Cement Industrial Complex with Reference to Circular Economy. Naqshejahan. 2022; 12 (1) :41-58
URL: http://bsnt.modares.ac.ir/article-2-57971-en.html
Assistant Professor of Department of Architecture, Faculty of Art and Architecture, Kharazmi University, Tehran, Iran , bahrami@khu.ac.ir
Abstract:   (329 Views)
Aims: The main objective of this research is to establish a proper relationship between the Ray Cement Industrial Complex and the audience by defining sustainable activities to create a circular economy. According to the assumptions of the article, important capacities such as being included in the list of the shared-heritage of Iran and Germany, is s good opportunity for the green adaptive reuse of the site.
Methods: This research has a practical nature and uses qualitative-persuasive methods to explain the subject. The conceptual framework of the research is based on a combination of the highperformance architecture theory and circular economy, as well as by comparing the requirements of green contemporization.
Findings: The results of the analysis show that the knowledge of the factory processes, with a comprehensive view of the definition of sustainable activities with ten key indicators of circular economy are correlated to the green adaptive reuse Ray Cement industrial complex. In other words, the research findings emphasize the importance of a comprehensive approach based on circular economy.
Conclusion: The values of industrial architectural heritage in the three main areas of time, place and authenticity with strategies to reduce consumption, reuse and recycling can be increased. The contemporization of the Ray Cement industrial complex and its transformation into a Museum of Industrial Architectural Heritage and educating industry as a sustainable tourism destination is a key opportunity for green adaptive reuse of the shared-heritage of Iran and Germany, as an initiative for sustainable development.
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Article Type: Original Research | Subject: Hightech in landscape design
Received: 2021/10/28 | Accepted: 2022/01/18 | Published: 2022/03/26

References
1. Shahhosseini G, Moulaii M. Explaining the Role and Place of Industrial Heritage in Improving the Quality Characteristics of the Hierarchy of the City Entrances (Case study: Brick Furnaces in the Entrance of Hamedan). Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2019 Mar 10;9(1):13-22. [Persian] https://dorl.net/dor/20.1001.1.23224991.1398.9.1.3.2 [Article] [DOI]
2. Esmaeilian Toussi H, Etessam E. Analysis of the Architecture of the Industrial Heritage Using a Combined Method of Typology and Analytical Shape Grammar (Case Study of Textile Factories of Isfahan and Yazd in the Pahlavi Era). Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2019 Mar 10;9(1):1-12. [Persian] https://dorl.net/dor/20.1001.1.23224991.1398.9.1.6.5 [Article] [DOI]
3. Adreienn Lepel, Changing the function of industrial buildings-survey, Architecture and civil engineering, Vol. 4, No. 2, 2006, pp. 71-84, https://facta.junis.ni.ac.rs/aace/aace200602/ aace200602-01.pdf [Article]
4. Mahdiun S. Fadaeinezhad S. Principles of Retooling for the Adaptive Reuse of the Industrial Architectural Heritage. Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2019 Mar 10;9(1):23-31. [Persian] https://dorl.net/dor/20.1001.1.23224991.1398.9.1.7.6 [Article] [DOI]
5. Eshrati P, Hanachi P. A new definition of the concept of cultural landscape based on its formation process. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2016 Mar 10; 5(3):42-51. [Persian] https://dorl.net/dor/20.1001.1.23224991.1394.5.3.5.0 [Article] [DOI]
6. Behnava B, Pourzargar M. Impact of New Materials on Dynamics of Four Recent Decades in Iranian Architecture 1980-2020. Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2021 Nov 10;11(3):49-66. [Persian] https://dorl.net/dor/20.1001.1.23224991.1400.11.3.5.2 [Article] [DOI]
7. Valitabar M. Mohammadjavad M. Henry S. Peiman P. A dynamic vertical shading optimisation to improve view, visual comfort and operational energy. Open House International. 2021 Jul 9;46(3):401-415. https://doi.org/10.1108/OHI-02-2021-0031 [Article] [DOI]
8. Esmaeilian Toussi H, Etesam I, Mahdavinejad M. The Application of Evolutionary Algorithms and Shape Grammar in the Design Process Based upon Traditional Structures. The Monthly Scientific Journal of Bagh-e Nazar, 2021 May;18(95):19-36. https://doi.org/10.22034/BAGH.2019.161797.3914 [Article] [DOI]
9. 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]
10. 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
11. Hanachi P, Mollazadeh F, FadaeiNezhadBahramjerdi S. Developing the conceptual framework of value-based management in cultural and historical places; (Looking at the Islamic Culture). Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2017 Dec 10;7(3):1-14. [Persian] https://dorl.net/dor/20.1001.1.23224991.1396.7.3.4.3 [Article] [DOI]
12. Foster G. Circular economy strategies for adaptive reuse of cultural heritage buildings to reduce environmental impacts. Resources, Conservation and Recycling. 2020 Jan 1;152:104507. https://doi.org/10.1016/j.resconrec.2019.104507 [Article] [DOI]
13. 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]
14. Samadzadehyazdi S, Ansari M, Bemanian M.R. Environment Sustainability through Adaptive Reuse (Case Study: Industrial Heritage of Iran). Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2019; 9(1):67-77. [Persian] https://dorl.net/dor/20.1001.1.23224991.1398.9.1.2.1 [Article] [DOI]
15. Samadzadehyazdi S, Ansari M, Mahdavinejad M, Bemaninan M. Significance of authenticity: learning from best practice of adaptive reuse in the industrial heritage of Iran. International Journal of Architectural Heritage. 2020 Mar 15;14(3):329-44. https://doi.org/10.1080/15583058.2018.1542466 [Article] [DOI]
16. Maroofi S, Taghvaie A, Pourjafar M. Evaluation of the Effects of Religious Spaces on Citizens’ Behaviors with Particular Reference to the Selected Tehran Mosques. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2019 Mar 10;8(4):205-211. [Persian] https://dorl.net/dor/20.1001.1.23224991.1397.8.4.1.9 [Article] [DOI]
17. 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]
18. 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]
19. 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]
20. Pourjafar M, Akbarian R, Ansari M, Pourmand H. Conceptual approach in Persian architecture. SOFFEH. 2008;16(3-4):90-105. [Persian] https://dorl.net/dor/20.1001.1.1683870.1386.16.3.6.7 [Article] [DOI]
21. 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]
22. 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]
23. Heidari F, Mahdavinejad M, Werner LC, Roohabadi M, Sarmadi H. Biocomputational Architecture Based on Particle Physics. Front. Energy Res. 2021 July 08;9:620127. https://doi.org/10.3389/fenrg.2021.620127 [Article] [DOI]
24. 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]
25. Yousefian S, Pourjafar M, Ahmadpour Kalahrodi N. Impacts of High-Rise Buildings Form on Climatic Comfort with Emphasis on Airflow through ENVI-met Software. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2017 Jul 10;7(2):1-10. [Persian] https://dorl.net/dor/20.1001.1.23224991.1396.7.2.2.9 [Article] [DOI]
26. Bazazzadeh H, Świt-Jankowska B, Fazeli N, Nadolny A, Safar Ali Najar B, Hashemi Safaei S, Mahdavinejad M. Efficient Shading Device as an Important Part of Daylightophil Architecture; a Designerly Framework of High-Performance Architecture for an Office Building in Tehran. Energies. 2021 December 8;14(24), 8272. https://doi.org/10.3390/en14248272 [Article] [DOI]
27. Fallahtafti R, Mahdavinejad M. Window geometry impact on a room's wind comfort. Engineering, Construction and Architectural Management. 2021 Mar 24;28(9):2381-2410. https://doi.org/10.1108/ECAM-01-2020-0075 [Article] [DOI]
28. 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]
29. 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]
30. 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]
31. Morseletto P, Targets for circular economy, Resources, conservation & recycling, Volume 153, Feb. 2020. https://doi.org/10.1016/j.resconrec.2019.104553 [Article] [DOI]
32. Ministry of Environment and Food and ministry of industry, Strategy for circular Economy, more value and better environment through design, consumption, and recycling, Circular economy in buildings and biomass, pp.35-38, Sep 2018. www.mfvm.dk [Article] [DOI]
33. Potting J, Hekkert M, Worrell E, Hanemaaijer A. Circular Economy: Measuring innovation in the product chain, PBL Netherlands Environmental assessment Agency, Jan 2017. https://www.researchgate.net/publication/319314335_circular_Economy_Measuring_innovation_in_the_product_chain [Article] [DOI]
34. Zahedi A. The need for an industrial program, Tehran. (1963). [Persian] [Article]
35. Chehrgani H. Eighty years of cement industry. First Edition. Negarandedanesh. Press. (2012). [Article]
36. Ettelaat Newspaper. Eighth year, number 2086, 88 January 1933. [Persian] [Article]
37. https://www.maps.google.com [Article]
38. Zhang S. Conservation and adaptive reuse of industrial heritage in shanghai. Frontiers of Architecture and Civil Engineering in China volume 1, pages481–490 (2007). https://doi.org/10.1007/s11709-007-0065-4 [Article] [DOI]
39. Teimur Tash S. Comparative change of use of industrial architectural heritage, example of Iran Tobacco Factory. Master Thesis in Architecture, University of Tehran. [Article]
40. International Ideas competition for adaptive reuse and regeneration of ray cement factory, May 2020, https://www.nosazi.tehran.ir [Article]
41. 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]
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. Haghshenas M, Hadianpour M, Matzarakis A, Mahdavinejad M, Ansari M. Improving the suitability of selected thermal indices for predicting outdoor thermal sensation in Tehran. Sustainable Cities and Society. 2021 Jul 27:103205. https://doi.org/10.1016/j.scs.2021.103205
44. Jalilisadrabad S, Bolboli S. Evaluation of Position of Materials Used in the Urban Facades Approach to Sustainable Urban Development. Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2017 Jul 10;7(2):49-57. [Persian] https://dorl.net/dor/20.1001.1.23224991.1396.7.2.8.5 [Article] [DOI]
45. 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]
46. Mahdiun S. Principles of Retooling for the Adaptive Reuse of the Industrial Architectural Heritage. Naqshejahan - Basic studies and New Technologies of Architecture and Planning. 2019 Mar 10;9(1):23-31. [Persian] https://dorl.net/dor/20.1001.1.23224991.1398.9.1.7.6
47. Shahhosseini G, Moulaii M. Explaining the Role and Place of Industrial Heritage in Improving the Quality Characteristics of the Hierarchy of the City Entrances (Case study: Brick Furnaces in the Entrance of Hamedan). Naqshejahan - Basic Studies and New Technologies of Architecture and Planning. 2019 Mar 10;9(1):13-22. [Persian] https://dorl.net/dor/20.1001.1.23224991.1398.9.1.3.2 [Article] [DOI]
48. Sugden E. The adaptive reuse of industrial heritage buildings: a multiple-case studies approach (Master's thesis, University of Waterloo). Available from: https://uwspace.uwaterloo.ca/handle/10012/12823 [Article]
49. Niu S, Lau SS, Shen Z, Lau SS. Sustainability issues in the industrial heritage adaptive reuse: rethinking culture-led urban regeneration through Chinese case studies. Journal of Housing and the Built Environment. 2018 Sep;33(3):501-18. https://doi.org/10.1007/s10901-018-9614-5 [Article] [DOI]
50. Yazdgerd F, Hanachi P, Talebian M. Framework of Conservation Evaluation for Dynamic Cultural World Heritage Sites. Naqshejahan-Basic studies and New Technologies of Architecture and Planning. 2021 Jul 10;11(2):101-19. [Persian] https://dorl.net/dor/20.1001.1.23224991.1400.11.2.6.1 [Article] [DOI]

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