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Year 2023, Volume: 11 Issue: 2, 321 - 336, 30.06.2023

Fatih Erdem Uyumaz Asena Soyluk

Abstract

References

  • [1] Alfrey, J. ve Putnam, T. (1992). The Industrial Heritage Managing Resources and Uses, London: Routledge.
  • [2] Alagöz M. (2017). Giving Function of Obsolete Industrial Zone for Improving Urban Value - Bursa Merinos Cultural Center and Park. International Refereed Journal of Design and Architecture, 10:219-237. Doi: 10.17365/TMD.2017.1.004.x
  • [3] Aksoy E. (2022). The Restoration and Refunctioning Proposal of Redif Barracks in Vezirköprü-Samsun. International Refereed Journal of Design and Architecture, 25:238-268. Doi: 10.17365/TMD.2022.TURKEY.25.09
  • [4] Clark, J. (2013). Adaptive Reuse of Industrial Heritage: Opportunities & Challenges. Melbourne: Heritage Council Victoria.
  • [5] McLaughlin, J. E., Bush, A. A., & Zeeman, J. M. (2016). Mixed methods: Expanding research methodologies in pharmacy education. Currents in Pharmacy Teaching and Learning, 8(5), 715-721.
  • [6] International Council on Monuments and Sites (ICOMOS), (2006). International Day for Monuments and Sites-Industrial Heritage. http://www.icomos.org/18thapril/2006/nizhny-tagil-charter-e.pdf
  • [7] Nizhny Tagil Charter for the Industrial Heritage. (2003) TICCIH (The International Committee for the Conservation of the Industrial Heritage).
  • [8] Knapas, R., Schybergson, P., (1978). Interpretation of on – site Material to the General Public, Ed. Nisser, M., 1978. The Industrial Heritage, The Third International conference on The Conservation of Industrial Monuments, Sweden 30 Mayıs-5 Haziran 1978. Civiltryck AB, Stockholm, Sf. 79-83
  • [9] Kuban, D. (2000) “Tarihi Çevre Korumanın Mimarlık Boyutu, Kuram ve Uygulama”, YEM Yayın, İstanbul. ss.40-60.
  • [10] Loures, L. C. (2008). Industrial Heritage: The Past in the Future of the City, Wseas Transactions on Environment and Development, 4(8), 687-696
  • [11] Langston, C., Wong, F.K.W., Hui, E.C.M, & Shen, L. (2007). Strategic assessment of building adaptive reuse opportunities in Hong Kong. Building and Environment, 43(2008), 1709-1718.
  • [12] Kevill, M. (2013). The adaptive reuse of grain elevators into housing: how policy and perspectives affect the conversion process and impact downtown revitalization (Master's thesis, University of Waterloo).
  • [13] Büyükarslan, B. , Büyükarslan, B. & Güney, E. D. (2013). Endüstriyel Miras Yapılarının Yeniden İşlevlendirilme Süreci ve İstanbul Tuz Ambarı Örneği . Beykent Üniversitesi Fen ve Mühendislik Bilimleri Dergisi , 6 (2) , 31-57 .
  • [14] M. Živković, N. Kurtović-Folić, G. Jovanović, S. Kondić, M. Mitković. (2016). Current strategies of urban and architectural conversion as a result of increased housing demands, Tehnički vjesnik. 561-568.
  • [15] Stratton, M. (2000). Location, Configuration and Conversion Options. In Industrial buildings: conservation and regeneration (pp. 30-56). Taylor and Francis London: E & FN Spon.
  • [16] Geraedts, R. P., & van der Voordt, T. (2003). Offices for living in. Open House International, 28(3), 80-90.
  • [17] Nedeljkovic, D., Jurenic, T., & Djokic, L. (2023). Comparative analysis of multi-criteria models for decision-making in the process of building adaptation. Heliyon.
  • [18] İnan, Z. (2003). Problems of spatial structures of office buildings conservation of lost functi̇ons. İstanbul: (Mastes’s thesis, University of Haliç).
  • [19] Nataša Petković-Grozdanovića, B. S. (2016). The possibilities for conversion and adaptive reuse of industrial facilities into residential drawings. Procedia Engineering, 1836-1844.
  • [20] W.K. Chong, S. Kumar, C.T. Haas, S.M. Beheiry, L. Coplen, M. Oey (2009). Understanding and interpreting baseline perceptions of sustainability in construction among civil engineers in the United States. J. Manag. Eng., 25, 143-154. Doi: 10.1061/(ASCE)0742-597X(2009)25:3(143)
  • [21] Yeheyis, M., Hewage, K., Alam, M., Eskicioglu, C., & Sadiq, R. (2013). An overview of construction and demolition waste management in Canada: a lifecycle analysis approach to sustainability. Clean Technologies & Environmental Policy, 15(1), 81–91. https://doi.org/10.1007/s10098-012-0481-6
  • [22] Vehdorn, M. (2002). Viyana'daki Gazometre Binalarının Yeniden Kullanımı (Adaptive Reuse of The Buildings of Vienna Gasometers. (T. S. Tağmat, Dü.) Mimarlık(308), 49-51.
  • [23] URL-1 Korkmaz, G. (2015, April). Endüstri Yapılarının Dönüşümü: Viyana Gazometreleri. Web: http://kot0.com/endustri-yapilarinin-donusumu-viyanagazometreleri Last Accessed: 10.04.2020
  • [24] URL-2 Boyer, M. (2013, Eylül 03). Oslo’s Grünerløkka Studenthus is a Student Housing Complex Located in a Former Grain Elevator. İnhabitat. https://inhabitat.com/oslos-grunerlokka-studenthus-is-a-student-housing-complex-located-in-a-former-grain-elevator/ Last Accessed: 10.06.2022
  • [25] URL-3 Archdaily. (2017, June 29). The Silo / COBE. https://www.archdaily.com/874698/the-silo-cobe/ Last Accessed: 20.04.2020
  • [26] URL-4 COBE. https://www.cobe.dk/place/the-silo/ Last Accesssed: 20.04.2023
  • [27] URL-4 MVRDV. https://www.mvrdv.nl/projects/143/fr%C3%B8silo/ Last Accessed: 20.04.2023
  • [28] URL-5 Archdaily. (2017, December 22). Kanaal’ in Wijnegem / Stéphane Beel Architects https://www.archdaily.com/885884/kanaal-in-wijnegem-stephane-beel-architects/ Last Accessed: 26.04.2020

Adaptive Reuse of Silo Buildings as Residential Buildings

Year 2023, Volume: 11 Issue: 2, 321 - 336, 30.06.2023

Fatih Erdem Uyumaz Asena Soyluk

Abstract

Aim: To increase the value of industrial buildings as a part of the term adaptive reuse as part of the conservation of industrial heritage, as well as society, history, and in this context, to examine the adaptive reuse of industrial buildings on silo buildings. Method: First, literature research was conducted on industrial heritage, adaptive reuse, silo buildings and architectural transformation criteria. As the next step, industrial buildings in different parts of the world with adaptive reuse as residential buildings were examined and case studies on adaptive reuse of silos were selected. The properties of the selected buildings and the changes made in the structural systems were examined. In this way, it is possible to evaluate the reuse of silo buildings within the scope of industrial heritage. Findings: As seen in the case studies examined, no changes were made in the structural system of the buildings that would impair the stability and sustainability of the structural system. Instead, large new masses were built next to the existing building or in place of the building that was demolished due to technical inadequacies. The sense of volume in the buildings has been preserved. Conclusion: While transforming industrial facilities into residences, a serious analysis of all the positive and negative factors of this transformation should be made at the research and planning stage and a decision should be made accordingly. In terms of the sustainability and usefulness of the interventions, it is important to implement the interventions without damaging the structural system and to respect and protect the industrial heritage value of buildings.

Keywords

adaptive reuse silo buildings industrial heritage residential buildings

References

  • [1] Alfrey, J. ve Putnam, T. (1992). The Industrial Heritage Managing Resources and Uses, London: Routledge.
  • [2] Alagöz M. (2017). Giving Function of Obsolete Industrial Zone for Improving Urban Value - Bursa Merinos Cultural Center and Park. International Refereed Journal of Design and Architecture, 10:219-237. Doi: 10.17365/TMD.2017.1.004.x
  • [3] Aksoy E. (2022). The Restoration and Refunctioning Proposal of Redif Barracks in Vezirköprü-Samsun. International Refereed Journal of Design and Architecture, 25:238-268. Doi: 10.17365/TMD.2022.TURKEY.25.09
  • [4] Clark, J. (2013). Adaptive Reuse of Industrial Heritage: Opportunities & Challenges. Melbourne: Heritage Council Victoria.
  • [5] McLaughlin, J. E., Bush, A. A., & Zeeman, J. M. (2016). Mixed methods: Expanding research methodologies in pharmacy education. Currents in Pharmacy Teaching and Learning, 8(5), 715-721.
  • [6] International Council on Monuments and Sites (ICOMOS), (2006). International Day for Monuments and Sites-Industrial Heritage. http://www.icomos.org/18thapril/2006/nizhny-tagil-charter-e.pdf
  • [7] Nizhny Tagil Charter for the Industrial Heritage. (2003) TICCIH (The International Committee for the Conservation of the Industrial Heritage).
  • [8] Knapas, R., Schybergson, P., (1978). Interpretation of on – site Material to the General Public, Ed. Nisser, M., 1978. The Industrial Heritage, The Third International conference on The Conservation of Industrial Monuments, Sweden 30 Mayıs-5 Haziran 1978. Civiltryck AB, Stockholm, Sf. 79-83
  • [9] Kuban, D. (2000) “Tarihi Çevre Korumanın Mimarlık Boyutu, Kuram ve Uygulama”, YEM Yayın, İstanbul. ss.40-60.
  • [10] Loures, L. C. (2008). Industrial Heritage: The Past in the Future of the City, Wseas Transactions on Environment and Development, 4(8), 687-696
  • [11] Langston, C., Wong, F.K.W., Hui, E.C.M, & Shen, L. (2007). Strategic assessment of building adaptive reuse opportunities in Hong Kong. Building and Environment, 43(2008), 1709-1718.
  • [12] Kevill, M. (2013). The adaptive reuse of grain elevators into housing: how policy and perspectives affect the conversion process and impact downtown revitalization (Master's thesis, University of Waterloo).
  • [13] Büyükarslan, B. , Büyükarslan, B. & Güney, E. D. (2013). Endüstriyel Miras Yapılarının Yeniden İşlevlendirilme Süreci ve İstanbul Tuz Ambarı Örneği . Beykent Üniversitesi Fen ve Mühendislik Bilimleri Dergisi , 6 (2) , 31-57 .
  • [14] M. Živković, N. Kurtović-Folić, G. Jovanović, S. Kondić, M. Mitković. (2016). Current strategies of urban and architectural conversion as a result of increased housing demands, Tehnički vjesnik. 561-568.
  • [15] Stratton, M. (2000). Location, Configuration and Conversion Options. In Industrial buildings: conservation and regeneration (pp. 30-56). Taylor and Francis London: E & FN Spon.
  • [16] Geraedts, R. P., & van der Voordt, T. (2003). Offices for living in. Open House International, 28(3), 80-90.
  • [17] Nedeljkovic, D., Jurenic, T., & Djokic, L. (2023). Comparative analysis of multi-criteria models for decision-making in the process of building adaptation. Heliyon.
  • [18] İnan, Z. (2003). Problems of spatial structures of office buildings conservation of lost functi̇ons. İstanbul: (Mastes’s thesis, University of Haliç).
  • [19] Nataša Petković-Grozdanovića, B. S. (2016). The possibilities for conversion and adaptive reuse of industrial facilities into residential drawings. Procedia Engineering, 1836-1844.
  • [20] W.K. Chong, S. Kumar, C.T. Haas, S.M. Beheiry, L. Coplen, M. Oey (2009). Understanding and interpreting baseline perceptions of sustainability in construction among civil engineers in the United States. J. Manag. Eng., 25, 143-154. Doi: 10.1061/(ASCE)0742-597X(2009)25:3(143)
  • [21] Yeheyis, M., Hewage, K., Alam, M., Eskicioglu, C., & Sadiq, R. (2013). An overview of construction and demolition waste management in Canada: a lifecycle analysis approach to sustainability. Clean Technologies & Environmental Policy, 15(1), 81–91. https://doi.org/10.1007/s10098-012-0481-6
  • [22] Vehdorn, M. (2002). Viyana'daki Gazometre Binalarının Yeniden Kullanımı (Adaptive Reuse of The Buildings of Vienna Gasometers. (T. S. Tağmat, Dü.) Mimarlık(308), 49-51.
  • [23] URL-1 Korkmaz, G. (2015, April). Endüstri Yapılarının Dönüşümü: Viyana Gazometreleri. Web: http://kot0.com/endustri-yapilarinin-donusumu-viyanagazometreleri Last Accessed: 10.04.2020
  • [24] URL-2 Boyer, M. (2013, Eylül 03). Oslo’s Grünerløkka Studenthus is a Student Housing Complex Located in a Former Grain Elevator. İnhabitat. https://inhabitat.com/oslos-grunerlokka-studenthus-is-a-student-housing-complex-located-in-a-former-grain-elevator/ Last Accessed: 10.06.2022
  • [25] URL-3 Archdaily. (2017, June 29). The Silo / COBE. https://www.archdaily.com/874698/the-silo-cobe/ Last Accessed: 20.04.2020
  • [26] URL-4 COBE. https://www.cobe.dk/place/the-silo/ Last Accesssed: 20.04.2023
  • [27] URL-4 MVRDV. https://www.mvrdv.nl/projects/143/fr%C3%B8silo/ Last Accessed: 20.04.2023
  • [28] URL-5 Archdaily. (2017, December 22). Kanaal’ in Wijnegem / Stéphane Beel Architects https://www.archdaily.com/885884/kanaal-in-wijnegem-stephane-beel-architects/ Last Accessed: 26.04.2020
There are 28 citations in total.

Details

Primary Language English
Subjects Architectural Heritage and Conservation, Architectural Design
Journal Section Architecture
Authors

Fatih Erdem Uyumaz 0000-0002-1376-8305

Asena Soyluk 0000-0002-6905-4774

Publication Date June 30, 2023
Submission Date June 16, 2023
Published in Issue Year 2023 Volume: 11 Issue: 2

Cite

APA Uyumaz, F. E., & Soyluk, A. (2023). Adaptive Reuse of Silo Buildings as Residential Buildings. Gazi University Journal of Science Part B: Art Humanities Design and Planning, 11(2), 321-336.
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