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Technical feasibility study model of aged apartment renovation applying analytic hierarchy process

    Junho Choi   Affiliation
    ; Jaepil Choi Affiliation

Abstract

Residential buildings are being renovated around the world, especially apartments, their solutions are becoming increasingly important. The number of apartments in Korea that are more than 20 years old has reached 4.3 million, and the problem of aged apartments now needs to be addressed. Consequently, the government is promoting the improvement of the residential environment through renovation. In a renovation project, a feasibility study is conducted at the outset, but many apartments fail to complete the renovation process during the project. One reason is that feasibility studies focus on economics without sufficiently considering the technical aspects of the redesign. This study developed a feasibility study model that can pre-evaluate apartment renovation in terms of technology. We selected 27 criteria that affect technical feasibility, and the analytic hierarchy process (AHP) was performed with experts to derive the relative importance of the criteria. Based on the weight of the criteria, we developed an apartment renovation technology feasibility study model. As a result of the study, unit and complex conditions were found to have a significant influence on renovation. Moreover, it was found that the technical feasibility study model can quantitatively evaluate the technical aspects of an apartment to be renovated.


First published online 30 December 2021

Keyword : aged apartment, renovation, rehabilitation, retrofitting, remodeling, technical feasibility study, analytic hierarchy process

How to Cite
Choi, J., & Choi, J. (2022). Technical feasibility study model of aged apartment renovation applying analytic hierarchy process. Journal of Civil Engineering and Management, 28(1), 39–50. https://doi.org/10.3846/jcem.2021.16013
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Jan 11, 2022
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This work is licensed under a Creative Commons Attribution 4.0 International License.

References

Abastante, F., Corrente, S., Greco, S., Ishizaka, A., & Lami, I. M. (2018). Choice architecture for architecture choices: Evaluating social housing initiatives putting together a parsimonious AHP methodology and the Choquet integral. Land Use Policy, 78, 748–762. https://doi.org/10.1016/j.landusepol.2018.07.037

Ahmed, W., & Asif, M. (2020). BIM-based techno-economic assessment of energy retrofitting residential buildings in hot humid climate. Energy and Buildings, 227, 110406. https://doi.org/10.1016/j.enbuild.2020.110406

Baek, C.-H., & Park, S.-H. (2012). Changes in renovation policies in the era of sustainability. Energy and Buildings, 47, 485–496. https://doi.org/10.1016/j.enbuild.2011.12.028

Bianchi, M., Ferrari, C., Melino, F., & Peretto, A. (2012). Feasibility study of a Thermo-Photo-Voltaic system for CHP application in residential buildings. Applied Energy, 97, 704–713. https://doi.org/10.1016/j.apenergy.2012.01.049

Biekša, D., Šiupšinskas, G., Martinaitis, V., & Jaraminienė, E. (2011). Energy efficiency challenges in multi-apartment building renovation in Lith-uania. Journal of Civil Engineering and Management, 17(4), 467–475. https://doi.org/10.3846/13923730.2011.622408

Boeri, A., Gabrielli, L., & Longo, D. (2011). Evaluation and feasibility study of retrofitting interventions on social housing in Italy. Procedia Engi-neering, 21, 1161–1168. https://doi.org/10.1016/j.proeng.2011.11.2125

Cha, W.-C., Lim, B.-W., Shin, C.-H., Shin, B.-H., Lee, J.-S., & Chun, J.-Y. (2008). Availability evaluation system for remodeling of existing apartment houses. Korean Journal of Construction Engineering and Management, 9(5), 204–213.

Chen, Y.-C., Yu, T.-H., Tsui, P.-L., & Lee, C.-S. (2014). A fuzzy AHP approach to construct international hotel spa atmosphere evaluation model. Quality & Quantity, 48(2), 645–657. https://doi.org/10.1007/s11135-012-9792-2

Choi, J., & Choi, J. (2021). A study on the technical feasibility evaluation index of aged apartment remodeling through Delphi method – focused on vertical and horizontal extension remodeling. Journal of the Architectural Institute of Korea, 37(2), 25–33.

Choi, J., Choi, J., & Choi, S. (2017). A study on the development of an algorithm for optimizing area calculation in vertically extended apartments. Journal of the Architectural Institute of Korea Planning & Design, 33(2), 23–32. https://doi.org/10.5659/JAIK_PD.2017.33.2.23

Choi, J., Choi, J., Kim, Y., & Moon, S. (2018). Development of remodeling prototype plans in 1 st-phase new town aged apartment – based on ‘2 bay type’ of 1 st-phase new town representatives. Journal of the Architectural Institute of Korea Planning & Design, 34(6), 67–76.

Choi, J., Kang, H., & Lee, Y. (2011). Design guidelines for the extension of aged apartment remodeling. Journal of Architectural Institute of Ko-rea, 27(1), 19–28.

Ehyaei, M., Ahmadi, P., Atabi, F., Heibati, M., & Khorshidvand, M. (2012). Feasibility study of applying internal combustion engines in residen-tial buildings by exergy, economic and environmental analysis. Energy and Buildings, 55, 405–413. https://doi.org/10.1016/j.enbuild.2012.09.002

Hopkins, D. C., Arikan, M., & Sharpe, R. (2006). Benefit-cost study for 369 apartment buildings in Istanbul. In Proceedings of the NZSEE Con-ference, Napier, New Zealand.

Kafel, K., Leśniak, A., & Zima, K. (2019). Multicriteria comparative analysis of pillars strengthening of the historic building. Open Engineering, 9(1), 18–25. https://doi.org/10.1515/eng-2019-0003

Kaklauskas, A., Tupenaite, L., Kanapeckiene, L., & Naimaviciene, J. (2013). Knowledge-based model for standard housing renovation. Procedia Engineering, 57, 497–503. https://doi.org/10.1016/j.proeng.2013.04.064

Kim, J., & Cha, H. (2018). Development of estimation system for housing remodeling cost through influence analysis by design elements. Korean Journal of Construction Engineering and Management, 19(6), 65–78.

Kim, Y.-W., Choi, Y.-J., & Baek, S.-Y. (2020). Examining the natural ventilation performance of alternative designs for extension – Remodeling of aged apartments – experimented on corridor type units ranging 49~52 square meters found in Jeollabuk-do. Journal of the Architectural Institute of Korea, 36(11), 3–13.

Koh, W.-k., Yoon, J.-s., Yu, I.-h., Shin, D.-w., & Jung, D.-w. (2019). Development of a feasibility evaluation model for apartment remodeling with the number of households increasing at the preliminary stage. Korean Journal of Construction Engineering and Management, 20(4), 22–33.

Korea National Housing Corporation. (2001). Design – guideline for the remodeling of wall-slab apartment. Korea.

Kragh, J., & Rose, J. (2011). Energy renovation of single-family houses in Denmark utilising long-term financing based on equity. Applied Energy, 88(6), 2245–2253. https://doi.org/10.1016/j.apenergy.2010.12.049

Lai, Y.-T., Wang, W.-C., & Wang, H.-H. (2008). AHP- and simulation-based budget determination procedure for public building construction projects. Automation in Construction, 17(5), 623–632. https://doi.org/10.1016/j.autcon.2007.10.007

Ministry of Construction and Transportation. (2001). Building design standard checklist considering remodeling. Korea.

Ministry of Land and Maritime Affairs. (2011). Evaluation manual according to housing performance grade recognition and management stand-ard revision. Korea.

Moon, G.-J. (2020). The negative perceptions of apartment culture as represented in Korean films during the 1970s–1990s. Sustainability, 12(7), 3013. https://doi.org/10.3390/su12073013

Mulliner, E., Malys, N., & Maliene, V. (2016). Comparative analysis of MCDM methods for the assessment of sustainable housing affordability. Omega, 59, 146–156. https://doi.org/10.1016/j.omega.2015.05.013

Ouyang, J., Wang, C., Li, H., & Hokao, K. (2011). A methodology for energy-efficient renovation of existing residential buildings in China and case study. Energy and Buildings, 43(9), 2203–2210. https://doi.org/10.1016/j.enbuild.2011.05.005

Paiho, S., Sepponen, M., Abdurafikov, R., Nystedt, Å., Kouhia, I., Meinander, M., & Hoang, H. (2012). Feasibility on upgrading Moscow apart-ment buildings for energy efficiency. In 7th International Cold Climate HVAC Conference, Calgary, Alberta, Canada.

Seo, S.-Y., Lee, B., & Won, J. (2021). Constructability analyses of vertical extension methods for existing underground spaces. Sustainability, 13(7), 3647. https://doi.org/10.3390/su13073647

Tan, Y., Liu, G., Zhang, Y., Shuai, C., & Shen, G. Q. (2018). Green retrofit of aged residential buildings in Hong Kong: A preliminary study. Building and Environment, 143, 89–98. https://doi.org/10.1016/j.buildenv.2018.06.058

Tupenaite, L., Zavadskas, E. K., Kaklauskas, A., Turskis, Z., & Seniut, M. (2010). Multiple criteria assessment of alternatives for built and human environment renovation. Journal of Civil Engineering and Management, 16(2), 257–266. https://doi.org/10.3846/jcem.2010.30

Yeon, J., Lee, H.-S., Park, M., Kim, S., & Ahn, J. (2014). Feasibility study on remodeling project by using real option model: Focusing on apart-ment house remodeling. Korean Journal of Construction Engineering and Management, 15(1), 39–50. https://doi.org/10.6106/KJCEM.2014.15.1.039

Yoon, J., & Yu, I. (2019). Estimating normal duration of renovation for multistory apartment building considering extension-type renovation pro-jects. Journal of Civil Engineering and Management, 25(2), 156–167. https://doi.org/10.3846/jcem.2019.8024