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EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS

Year 2023, , 1013 - 1027, 22.12.2023
https://doi.org/10.31796/ogummf.1324093

Abstract

The development of human societies in different countries around the world is increasing dramatically. High-rise buildings are being constructed as a response to the challenges of limited and expensive urban land, and they are crucial for urbanization. Today, besides serving as structures for economic growth in cities, high-rise buildings remain symbolic of prestige and power for countries and companies. These buildings entail immense architectural and engineering complexity, necessitating a comprehensive planning approach for their design and construction. With the availability of numerous alternative solutions for various aspects of building design and construction systems, there is a need for an evaluation framework that is comprehensive, transparent in decision-making, and reliable and practical in its application. The aim of the article is to create a framework for the evaluation of construction systems, building materials, construction technologies, and methods of high-rise buildings. The scope of the article is the 30 tallest buildings listed in CTBUH (Council on Tall Buildings and Urban Habitat). After evaluating the effects caused by the elevation of buildings and the application options for these effects, examining the scope according to these application options and as a result creating matrices for each building constitutes the method of the study.

Project Number

10381883

References

  • Abel, Chris. (2003). Sky High. Royal Academy Publications; Illustrated edition. ISBN-13‏ : ‎ 978-1903973332
  • Abdulwahid, Mohanad Y.; Al-Qasem, Imad A.; Arman, Ibrahim. (2013). Determination of Load Transfer In Reinforced Concrete Solid Slabs By Finite Element Computer Analysis. IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE). e-ISSN: 2278-1684,p-ISSN: 2320-334X, Volume 8, Issue 3 (Sep. - Oct. 2013), pp 01-07.
  • Al-Kodmany, Kheir. (2013). The Visual Integration of Tall Buildings: New Technologies and the City Skyline. Journal of Urban Technology. Volume 20, Issue 2, pp. 25-44. https://doi.org/10.1080/10630732.2012.735481.
  • Ali, Mir M. and Moon, Kyoung Sun. (2007). Structural Developments in Tall Buildings: Current Trends and Future Prospects. Architectural Science Review. Volume 50.3, pp 205-223.
  • Ali, Mir M. and Moon, Kyoung Sun. (2018). Advances in Structural Systems for Tall Buildings: Emerging Developments for Contemporary Urban Giants. Buildings 8(8):104. DOI:10.3390/buildings8080104
  • Brown, Adrienne R. (2011). Between the Mythic and the Monstrous: The Early Skyscraper's Weird Frontiers. Journal of Modern Literature, Vol. 35, No. 1, Re-assessing, Breaking, Transcending Genres (Fall 2011), pp. 165-188. https://doi.org/10.2979/jmodelite.35.1.165.
  • Chikmath, Channabasaveshwar; Sodha, Ankit; Vasanwala, Sandip. (2022). Direct Displacement Based Design for Reinforced Concrete Framed Structures with Seismic Isolation. GU J Sci 35(2): 446-462 (2022) DOI: 10.35378/gujs.826607.
  • CTBUH-1. (2023). History of Measuring Tall Buildings. https://www.ctbuh.org/history/history-of-measuring-tall-buildings. (Accessed at 02.06.2023)
  • CTBUH-2. (2023). About CTBUH. https://www.ctbuh.org/about. (Accessed at 02.06.2023)
  • CTBUH-3. (2023). CTBUH Height Criteria for Measuring & Defining Tall Buildings. https://cloud.ctbuh.org/CTBUH_HeightCriteria.pdf. (Accessed at 02.06.2023)
  • CTBUH-4. (2021). Countries. https://www.skyscrapercenter.com/countries. (Accessed at 01.01.2021)
  • CTBUH-5. (2021). Tallest Buildings. https://www.skyscrapercenter.com/buildings (Accessed at 01.01.2021)
  • Domosh, Mona. (1987). Imagining New York's first skyscrapers, 1875–1910. Journal of Historical Geography. Volume 13, Issue 3, July 1987, Pages 233-248. https://doi.org/10.1016/S0305-7488(87)80112-3.
  • Falconer, Daniel W. (1981). Classification of Tall Building Systems. MSc. Thesis. Lehigh University Civil Engineering. Lehigh University. May 1981.
  • Garrison, Phillip. (2005). Basic Structures for Engineers and Architects. Blackwell Publishing Ltd., , Carlton, Victoria, Australia. ISBN-13 978-14051-2053-1.
  • Hasol, Doğan. (1993). Ansiklopedik Mimarlık Sözlüğü. Yapı-Endüstri Merkezi Yayınları. İstanbul, 1993. Geliştirilmiş 5. Baskı.
  • Hasol, Doğan. (2003). Dictionary of Architecture and Building. Yapı-Endüstri Merkezi Yayınları. İstanbul, 2017.
  • Hasol, Doğan. (2017). Ansiklopedik Mimarlık Sözlüğü. Yapı-Endüstri Merkezi Yayınları. İstanbul, 2017. Geliştirilmiş 15. Baskı.
  • Harris, Cyril M. (2000). Dictionary of Architecture & Construction. McGraw-Hill. New York.
  • Krishnappa, Likith; Sander, Aljoscha; Thoben, Klaus-Dieter. (2022). Aerodynamic Devices to Reduce/Suppress Vortex Induced Vibrations on a Wind Turbine Tower: A Review. Journal of Physics: Conference Series 2265 (2022) 032053. IOP Publishing. DOI:10.1088/1742-6596/2265/3/032053.
  • Landau, Sarah and Condit, Carl W. (1996). Rise of the New York skyscraper, 1865-1913. New Haven, CT: Yale University Press. ISBN 978-0-300-07739-1.
  • Leslie, Thomas. (2010). Built Like Bridges: Iron, Steel, and Rivets in the Nineteenth-century Skyscraper. Journal of the Society of Architectural Historians, Vol. 69, No. 2 (June 2010), pp. 234-261. https://doi.org/10.1525/jsah.2010.69.2.234.
  • Naderpour, Hosein; Naji, Naghmeh; Burkacki, Daniel; Jankowski, Robert. (2019). Seismic Response of High-Rise Buildings Equipped with Base Isolation and Non-Traditional Tuned Mass Dampers. Applied Sciences. 2019, 9(6), 1201; https://doi.org/10.3390/app9061201
  • Nagelberg, Alvin. (1967). Monadnock Building Found To Be Sinking. Chicago tribune, 71. June 14 1967.
  • Nakipoğlu, Abdulhamit; Al Hagri, Mohammad Gamal; Döndüren, Mahmud Sami. (2022). Effect of Column Cross Section and Concrete Compressive Strength On the Resistance of RC Columns Subjected to Axial Loads and Loads Created By Creep. NÖHÜ Müh. Bilim. Derg. / NOHU J. Eng. Sci., 2022; 11(4), 999-1005.
  • Noderer, Elvadore R. (1952). US Industrial Might Rooted In Engineering. Chicago Tribune, 45. 12 August 1952.
  • Marabi, Bahram. (2016). A Numerical and Analytical Study On Optimization And Efficiency of Structural Forms By Two-Outrigger In Tall Buildings. Conference: SEPKA-ISEED 2016At: University Technology of MalaysiaVolume: Vol 28 Special Issue 3.
  • MECA, 2023. Take Vortex Shedding Seriously. https://www.mecaenterprises.com/take-vortex-shedding-seriously/. (Accessed at 02.06.2023)
  • Mendis, Priyan; Ngo, Tuan Duc; Haritos, N.; Hira, Anil; Samali, Bijan; Cheung, John. (2007). Wind Loading on Tall Buildings. Loading on Structures (EJSE Special Issu), 44.
  • Özden, A. Varlık. (2010). Betonun Basınç Ve Çekme Dayanımı ile Elastisite Modülü Arasındaki İlişkiler Üzerine Bir Araştırma. MSc. Thesis. T.C. Namık Kemal Üniversitesi Fen Bilimleri Enstitüsü.
  • Partovi, Arezo and Svard, Jenny. (2016). Global Analysis of Tall Buildings with Tubed Mega Frame Structures. Stockholm, Sweden: Kth Royal Institute Of Technology, School Of Architecture and the Built Environment.
  • Preservation Chicago. (2006). Chicago’s Seven Most Threatened Buildings. https://preservationchicago.org/wp-content/uploads/2021/12/nylife_2006.pdf. (Accessed at 02.06.2023)
  • Rupasinghe, Rohan and Nolan, Eanna. (2007). Formwork for Modern, Efficient Concrete Construction. BREPress. ISBN-13 ‏ : ‎ 978-1860819759
  • Sev, Aysin and Özgen, Aydan. (2009). Space Efficiency In High-Rise Office Buildings. METU JFA 2009/2 (26:2) 69-89. DOI: 10.4305/METU.JFA.2009.2.4.
  • Sreevalli, Tanneeru and Priya, N. Harika. (2017). Effect of Shear Wall Area on Seismic Bheavior of Multisoried Building Tube in Tube Structure. International Journal of Engineering Trends and Technology Volume-44 (Number-4). DOI: 10.14445/22315381/IJETT-V44P24.
  • Şamhal, Erkan. (2005). Lecture 1.1: Composite Construction (arranged). https://web.itu.edu.tr/~haluk/COMPOSITE%201.pdf. (Accessed at 13.06.2023)
  • Tiwary, Aditya. (2017). Advanced Techniques in Constructions in High-rise Buildings. Government Engineering College.
  • Valente, João Miguel Serras Delgado. (2012). Tall Buildings and Elevators - Historical Evolution of Vertical Communication Systems. Final Thesis for the Degree of Master in Civil Engineering. Instituto Superior Tecnico. Universidade Tecnica de Lisboa.
  • Yüksel, İsa. (2019). An Overview on Tall Buildings from The Point of Structural Engineering. Engineering Journal of Innovative Science and Engineering. 3(2): 86-101.

YÜKSEK KATLI BİNALAR İÇİN YAPIM TEKNOLOJİLERİNİN DEĞERLENDİRİLMESİ VE KARŞILAŞTIRILMASI

Year 2023, , 1013 - 1027, 22.12.2023
https://doi.org/10.31796/ogummf.1324093

Abstract

Dünya genelinde farklı ülkelerde insan toplumlarının gelişimi dramatik bir şekilde artmaktadır. Sınırlı ve pahalı kentsel arazinin zorluklarına cevap olarak inşa edilen yüksek binalar kentselleşme için hayati öneme sahiptir. Yüksek binalar, şehirlerde ekonomik büyümeye hizmet etmenin yanı sıra, ülkeler ve şirketler için prestij ve gücün simgesi de olmaktadır. Bu binalar, kapsamlı bir planlama yaklaşımını gerektiren geniş bir mimari ve mühendislik karmaşıklığı içermektedir. Bina tasarımı ve inşaat sistemlerinin çeşitli yönleri için birçok alternatif çözüm bulunmasıyla birlikte, kapsamlı, karar vermede şeffaf ve uygulanması güvenilir ve pratik olan bir değerlendirme çerçevesine ihtiyaç vardır. Bu makalenin amacı, yüksek binaların yapım sistemleri, yapı malzemeleri, inşaat teknoloji ve yöntemlerinin değerlendirilmesine yönelik bir çerçeve oluşturmaktır. Makalenin kapsamı, CTBUH’da (Council on Tall Buildings and Urban Habitat) listelenen en yüksek 30 binadır. Binaların yükselmesi ile oluşan etkilerin ve bu etkilere yönelik uygulama seçeneklerinin değerlendirilmesinin ardından kapsamın bu uygulama seçeneklerine göre irdelenmesi ve sonuç olarak her bina için matrisler oluşturulması, çalışmanın yöntemini oluşturmaktadır.

Project Number

10381883

References

  • Abel, Chris. (2003). Sky High. Royal Academy Publications; Illustrated edition. ISBN-13‏ : ‎ 978-1903973332
  • Abdulwahid, Mohanad Y.; Al-Qasem, Imad A.; Arman, Ibrahim. (2013). Determination of Load Transfer In Reinforced Concrete Solid Slabs By Finite Element Computer Analysis. IOSR Journal of Mechanical and Civil Engineering (IOSR-JMCE). e-ISSN: 2278-1684,p-ISSN: 2320-334X, Volume 8, Issue 3 (Sep. - Oct. 2013), pp 01-07.
  • Al-Kodmany, Kheir. (2013). The Visual Integration of Tall Buildings: New Technologies and the City Skyline. Journal of Urban Technology. Volume 20, Issue 2, pp. 25-44. https://doi.org/10.1080/10630732.2012.735481.
  • Ali, Mir M. and Moon, Kyoung Sun. (2007). Structural Developments in Tall Buildings: Current Trends and Future Prospects. Architectural Science Review. Volume 50.3, pp 205-223.
  • Ali, Mir M. and Moon, Kyoung Sun. (2018). Advances in Structural Systems for Tall Buildings: Emerging Developments for Contemporary Urban Giants. Buildings 8(8):104. DOI:10.3390/buildings8080104
  • Brown, Adrienne R. (2011). Between the Mythic and the Monstrous: The Early Skyscraper's Weird Frontiers. Journal of Modern Literature, Vol. 35, No. 1, Re-assessing, Breaking, Transcending Genres (Fall 2011), pp. 165-188. https://doi.org/10.2979/jmodelite.35.1.165.
  • Chikmath, Channabasaveshwar; Sodha, Ankit; Vasanwala, Sandip. (2022). Direct Displacement Based Design for Reinforced Concrete Framed Structures with Seismic Isolation. GU J Sci 35(2): 446-462 (2022) DOI: 10.35378/gujs.826607.
  • CTBUH-1. (2023). History of Measuring Tall Buildings. https://www.ctbuh.org/history/history-of-measuring-tall-buildings. (Accessed at 02.06.2023)
  • CTBUH-2. (2023). About CTBUH. https://www.ctbuh.org/about. (Accessed at 02.06.2023)
  • CTBUH-3. (2023). CTBUH Height Criteria for Measuring & Defining Tall Buildings. https://cloud.ctbuh.org/CTBUH_HeightCriteria.pdf. (Accessed at 02.06.2023)
  • CTBUH-4. (2021). Countries. https://www.skyscrapercenter.com/countries. (Accessed at 01.01.2021)
  • CTBUH-5. (2021). Tallest Buildings. https://www.skyscrapercenter.com/buildings (Accessed at 01.01.2021)
  • Domosh, Mona. (1987). Imagining New York's first skyscrapers, 1875–1910. Journal of Historical Geography. Volume 13, Issue 3, July 1987, Pages 233-248. https://doi.org/10.1016/S0305-7488(87)80112-3.
  • Falconer, Daniel W. (1981). Classification of Tall Building Systems. MSc. Thesis. Lehigh University Civil Engineering. Lehigh University. May 1981.
  • Garrison, Phillip. (2005). Basic Structures for Engineers and Architects. Blackwell Publishing Ltd., , Carlton, Victoria, Australia. ISBN-13 978-14051-2053-1.
  • Hasol, Doğan. (1993). Ansiklopedik Mimarlık Sözlüğü. Yapı-Endüstri Merkezi Yayınları. İstanbul, 1993. Geliştirilmiş 5. Baskı.
  • Hasol, Doğan. (2003). Dictionary of Architecture and Building. Yapı-Endüstri Merkezi Yayınları. İstanbul, 2017.
  • Hasol, Doğan. (2017). Ansiklopedik Mimarlık Sözlüğü. Yapı-Endüstri Merkezi Yayınları. İstanbul, 2017. Geliştirilmiş 15. Baskı.
  • Harris, Cyril M. (2000). Dictionary of Architecture & Construction. McGraw-Hill. New York.
  • Krishnappa, Likith; Sander, Aljoscha; Thoben, Klaus-Dieter. (2022). Aerodynamic Devices to Reduce/Suppress Vortex Induced Vibrations on a Wind Turbine Tower: A Review. Journal of Physics: Conference Series 2265 (2022) 032053. IOP Publishing. DOI:10.1088/1742-6596/2265/3/032053.
  • Landau, Sarah and Condit, Carl W. (1996). Rise of the New York skyscraper, 1865-1913. New Haven, CT: Yale University Press. ISBN 978-0-300-07739-1.
  • Leslie, Thomas. (2010). Built Like Bridges: Iron, Steel, and Rivets in the Nineteenth-century Skyscraper. Journal of the Society of Architectural Historians, Vol. 69, No. 2 (June 2010), pp. 234-261. https://doi.org/10.1525/jsah.2010.69.2.234.
  • Naderpour, Hosein; Naji, Naghmeh; Burkacki, Daniel; Jankowski, Robert. (2019). Seismic Response of High-Rise Buildings Equipped with Base Isolation and Non-Traditional Tuned Mass Dampers. Applied Sciences. 2019, 9(6), 1201; https://doi.org/10.3390/app9061201
  • Nagelberg, Alvin. (1967). Monadnock Building Found To Be Sinking. Chicago tribune, 71. June 14 1967.
  • Nakipoğlu, Abdulhamit; Al Hagri, Mohammad Gamal; Döndüren, Mahmud Sami. (2022). Effect of Column Cross Section and Concrete Compressive Strength On the Resistance of RC Columns Subjected to Axial Loads and Loads Created By Creep. NÖHÜ Müh. Bilim. Derg. / NOHU J. Eng. Sci., 2022; 11(4), 999-1005.
  • Noderer, Elvadore R. (1952). US Industrial Might Rooted In Engineering. Chicago Tribune, 45. 12 August 1952.
  • Marabi, Bahram. (2016). A Numerical and Analytical Study On Optimization And Efficiency of Structural Forms By Two-Outrigger In Tall Buildings. Conference: SEPKA-ISEED 2016At: University Technology of MalaysiaVolume: Vol 28 Special Issue 3.
  • MECA, 2023. Take Vortex Shedding Seriously. https://www.mecaenterprises.com/take-vortex-shedding-seriously/. (Accessed at 02.06.2023)
  • Mendis, Priyan; Ngo, Tuan Duc; Haritos, N.; Hira, Anil; Samali, Bijan; Cheung, John. (2007). Wind Loading on Tall Buildings. Loading on Structures (EJSE Special Issu), 44.
  • Özden, A. Varlık. (2010). Betonun Basınç Ve Çekme Dayanımı ile Elastisite Modülü Arasındaki İlişkiler Üzerine Bir Araştırma. MSc. Thesis. T.C. Namık Kemal Üniversitesi Fen Bilimleri Enstitüsü.
  • Partovi, Arezo and Svard, Jenny. (2016). Global Analysis of Tall Buildings with Tubed Mega Frame Structures. Stockholm, Sweden: Kth Royal Institute Of Technology, School Of Architecture and the Built Environment.
  • Preservation Chicago. (2006). Chicago’s Seven Most Threatened Buildings. https://preservationchicago.org/wp-content/uploads/2021/12/nylife_2006.pdf. (Accessed at 02.06.2023)
  • Rupasinghe, Rohan and Nolan, Eanna. (2007). Formwork for Modern, Efficient Concrete Construction. BREPress. ISBN-13 ‏ : ‎ 978-1860819759
  • Sev, Aysin and Özgen, Aydan. (2009). Space Efficiency In High-Rise Office Buildings. METU JFA 2009/2 (26:2) 69-89. DOI: 10.4305/METU.JFA.2009.2.4.
  • Sreevalli, Tanneeru and Priya, N. Harika. (2017). Effect of Shear Wall Area on Seismic Bheavior of Multisoried Building Tube in Tube Structure. International Journal of Engineering Trends and Technology Volume-44 (Number-4). DOI: 10.14445/22315381/IJETT-V44P24.
  • Şamhal, Erkan. (2005). Lecture 1.1: Composite Construction (arranged). https://web.itu.edu.tr/~haluk/COMPOSITE%201.pdf. (Accessed at 13.06.2023)
  • Tiwary, Aditya. (2017). Advanced Techniques in Constructions in High-rise Buildings. Government Engineering College.
  • Valente, João Miguel Serras Delgado. (2012). Tall Buildings and Elevators - Historical Evolution of Vertical Communication Systems. Final Thesis for the Degree of Master in Civil Engineering. Instituto Superior Tecnico. Universidade Tecnica de Lisboa.
  • Yüksel, İsa. (2019). An Overview on Tall Buildings from The Point of Structural Engineering. Engineering Journal of Innovative Science and Engineering. 3(2): 86-101.
There are 39 citations in total.

Details

Primary Language English
Subjects Architectural Science and Technology, Information Technologies in Architecture and Design, Materials and Technology in Architecture
Journal Section Review Articles
Authors

Maral Fakhari 0000-0002-8596-8146

Hasan Ünver 0000-0002-8994-3659

Project Number 10381883
Early Pub Date December 22, 2023
Publication Date December 22, 2023
Acceptance Date November 8, 2023
Published in Issue Year 2023

Cite

APA Fakhari, M., & Ünver, H. (2023). EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, 31(4), 1013-1027. https://doi.org/10.31796/ogummf.1324093
AMA Fakhari M, Ünver H. EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS. ESOGÜ Müh Mim Fak Derg. December 2023;31(4):1013-1027. doi:10.31796/ogummf.1324093
Chicago Fakhari, Maral, and Hasan Ünver. “EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi 31, no. 4 (December 2023): 1013-27. https://doi.org/10.31796/ogummf.1324093.
EndNote Fakhari M, Ünver H (December 1, 2023) EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 31 4 1013–1027.
IEEE M. Fakhari and H. Ünver, “EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS”, ESOGÜ Müh Mim Fak Derg, vol. 31, no. 4, pp. 1013–1027, 2023, doi: 10.31796/ogummf.1324093.
ISNAD Fakhari, Maral - Ünver, Hasan. “EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS”. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 31/4 (December 2023), 1013-1027. https://doi.org/10.31796/ogummf.1324093.
JAMA Fakhari M, Ünver H. EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS. ESOGÜ Müh Mim Fak Derg. 2023;31:1013–1027.
MLA Fakhari, Maral and Hasan Ünver. “EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, vol. 31, no. 4, 2023, pp. 1013-27, doi:10.31796/ogummf.1324093.
Vancouver Fakhari M, Ünver H. EVALUATION AND COMPARISON OF CONSTRUCTION TECHNOLOGIES FOR HIGH-RISE BUILDINGS. ESOGÜ Müh Mim Fak Derg. 2023;31(4):1013-27.

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