Prospects for Renovation of Prefabricated Buildings as a Source of Redevelopment without the Demolition of Existing Buildings

  • Dmitry KOZHEVNIKOV NRU MGSU, Moscow State University of Civil Engineering (MGSU), Russian Federation

Abstract

The paper defines the conditions, methods and forms of the renovation of the buildings in cases when they do not require a significant investment and new construction at forming of the structure of construction system. It is shown that the use of buildings for renovation without their demolition and repeated construction, has been tested to a large extent not only in the territory of the countries where commercial housing construction has been largely used in a long exposure, but also in the countries of former ‘Socialist bloc’. Countries, where panel housing construction accounts for more than 30% of the entire house fund and gradually leads to its destruction due the end of life, were taken as the examples. The novelty of the paper is the position offering not only the housing renovation measures, but also the design solutions that may be used in the development of the overall concept of house-building strategy. The article has its applied value in the structure of development of integral video-ecological bases for the design of mass buildings of housing construction. The further direction of research is determining of the possible development of panel housing construction in the territory of the state, due to the extensive experience in the construction of similar buildings of the housing stock.

References

[1] Aldanondo, M., Barco-Santa, A., Vareilles, E., Falcon, M., Gaborit, P., and Zhang, L. 2014. Towards a BIM Approach for a High Performance Renovation of Apartment Buildings. Proceedings of the eleventh IFIP WG 5.1 International Conference in Product Lifecycle Management for a Global Market (21-30). Springer Berlin Heidelberg, Berlin, Heidelberg, Germany.
[2] Argiolas, M., and Loggia, C. 2012. Solar Community Model: A Smart Strategy for Historic Centres Sustainable Renovation.Proceedings of the third International Conference in Sustainability in Energy and Buildings (SEB’11) (257-264). Springer Berlin Heidelberg, Berlin, Heidelberg, Germany.
[3] Barco, A.F., Vareilles, E., Aldanondo, M., and Gaborit, P. 2014. A Recursive Algorithm for Building Renovation in Smart Cities. Proceedings of the twenty first International Symposium in Foundations of Intelligent SystemsISMIS 2014 (144-153). Springer International Publishing, Cham, Germany.
[4] Barco, A.F., Vareilles, É.,Gaborit, P., and Aldanondo, M. 2017. Journal of Intelligent Information Systems, 49(1): 119-146.
[5] Bottero, M., Ambrosini, G., and Callegari, G. 2017. Valuing the Impact of Social Housing Renovation Programs: An Application of the Social Return on Investment (SROI). In Stanghellini, S., Morano, P., Bottero, M. and Oppio, A. (eds) From Theory to Practice: Results of SIEV 2015 (291-302). Springer International Publishing, Cham, Germany.
[6] Di Mascio, D., and Wang, X. 2013. Building Information Modelling (BIM)-Supported Cooperative Design in Sustainable Renovation Projects. Proceedings of the tenth International Conference, CDVE 2013 in Cooperative Design, Visualization, and Engineering (205-212). Springer Berlin Heidelberg, Berlin, Heidelberg, Germany.
[7] Exner, D., D’Alonzo, V., Paoletti, G., Pascual, R., and Pernetti, R. 2017. Building-Stock Analysis for the Definition of an Energy Renovation Scenario on the Urban Scale. In: Bisello, A., Vettorato, D., Stephens, R. and Elisei P. (eds), Smart and Sustainable Planning for Cities and Regions. SSPCR 2015. Green Energy and Technology (33-54). Springer International Publishing, Cham, Germany.
[8] García-Moratalla, M., and Del-Águila, A. 2014. Renovation Using Industrialized Systems In Collective Housing. InLlinares-Millán, C., Fernández-Plazaola, I. and Hidalgo-Delgado, F. (eds) Construction and Building Research (139-148). Springer Netherlands, Dordrecht, Netherlands.
[9] Hauge, Å.L., Thomsen, J., and Löfström, E. 2013. How to get residents/owners in housing cooperatives to agree on sustainable renovation. Energy Efficiency, 6(2): 315-328.
[10] Kunkel, S. 2015. Green Crowdfunding: A Future-Proof Tool to Reach Scale and Deep Renovation? Proceedings of the Conference in World Sustainable Energy Days Next 2014 (79-85). Springer Fachmedien Wiesbaden, Wiesbaden, Germany.
[11] Latif, M.T., Baharudin, N.H., Velayutham, P., Awang, N., Hamdan, H., Mohamad, R., and Mokhtar, M.B. 2011. Composition of heavy metals and airborne fibers in the indoor environment of a building during renovation. Environmental Monitoring and Assessment ,181(1): 479-489.
[12] Molnárka, G.I., and Kóczy, L.T. 2014. Optimizing Complex Building Renovation Process with Fuzzy Signature State Machines. Proceedings of the twenty first International Conference ICONIP 2014 in Neural Information Processing, Part II (573-580). Springer International Publishing, Cham, Germany.
[13] Molnárka, G.I., and Kóczy, L.T. 2015. Building Renovation Cost Optimization with the Support of Fuzzy Signature State Machines. Proceedings of the Fourth INNS Symposia Series on Computational Intelligence in Information Systems (INNS-CIIS 2014) in Computational Intelligence in Information Systems (129-138). Springer International Publishing, Cham, Germany.
[14] Morishita, N., Heidenreich, M., Hemmers, R., Vankann, M. Sahakari, T., Vainio, T., Pagliano, L., Treberspurg, M., and Österreicher, D. 2017. EU-GUGLE: A Sustainable Renovation for Smarter Cities from a Pilot Project. Proceedings of the Conference SSPCR 2015 in Smart and Sustainable Planning for Cities and Regions (353-382). Springer International Publishing, Cham, Germany.
[15] Müller, M.O. 2013. A Rich Model of the Diffusion Dynamics of Energy-Efficient Renovations. In Diffusion Dynamics of Energy-Efficient Renovations: Causalities and Policy Recommendations (207-251). Springer Berlin Heidelberg, Berlin, Heidelberg, Germany.
[16] Sabouri, V., and Femenías, P. 2013. Two Case Studies in Energy Efficient Renovation of Multi-family Housing; Explaining Robustness as a Characteristic to Assess Long-Term Sustainability. Proceedings of the fourth International Conference in Sustainability in Energy and Buildings (SEB´12) (45-57). Springer Berlin Heidelberg, Berlin, Heidelberg, Germany.
[17] Shahu, R., Pundir, A.K., and Ganapathy, L. 2015. Flexibility as a Strategy for Reducing Cost of Renovation in Building Construction Projects. In Sushil and Chroust,.G. (eds), Systemic Flexibility and Business Agility (271-282).Springer India, New Delhi, India.
[18] Tian, Y. M., Si, Y.J., Li, H., and Wu, M.F. 2007. Evaluation and optimization of secondary water supply system renovation. Journal of Zhejiang University-SCIENCE A, 8(9): 1488-1494.
[19] Villegas, R.R., and Frostell, B. 2013. Sustainable Renovation and Operation of Family Houses for Improved Climate Efficiency. Proceedings of the fourth International Conference in Sustainability in Energy and Buildings (SEB´12) (107-117). Springer Berlin Heidelberg, Berlin, Heidelberg, Germany.
[20] Wang, L., Li, X., Zhang, Z., Li, Sh., and Xu, B. 2017. Spatial Form Analysis of Existing Industrial Buildings Renovation Based on Space Syntax. Proceedings of the twentieth International Symposium on Advancement of Construction Management and Real Estate (265-275).Springer Singapore, Singapore, Singapore.
Published
2018-09-04
How to Cite
KOZHEVNIKOV, Dmitry. Prospects for Renovation of Prefabricated Buildings as a Source of Redevelopment without the Demolition of Existing Buildings. Journal of Advanced Research in Law and Economics, [S.l.], v. 8, n. 8, p. 2464-2474, sep. 2018. ISSN 2068-696X. Available at: <https://journals.aserspublishing.eu/jarle/article/view/2209>. Date accessed: 22 dec. 2024. doi: https://doi.org/10.14505//jarle.v8.8(30).17.