Substitution of the significance of the choice of a design solution and its impact on the total cost of the life cycle of a construction object
DOI:
https://doi.org/10.32347/2707-501x.2025.55(1).273-284Keywords:
life cycle assessment, life cycle of a construction object, construction, energy efficiency, risks, digitalization, cost management, construction cost, flooring, linear programmingAbstract
The article examines in detail the process of optimizing production solutions related to the arrangement of floor coverings from various materials, including plank flooring, parquet floors, floors made of wooden panels and wooden boards. Particular attention is paid to the economic analysis of the choice of constructive and technological solutions in order to minimize costs and increase the efficiency of using available resources. To determine the optimal option for performing the work, the linear programming method was used, which allows taking into account numerous variables and restrictions.
As part of the study, an objective function was formulated that reflects the maximization of profit from the performance of construction work. In addition, a system of constraints was developed that takes into account the available labor, material and technical resources, as well as the project implementation timeframe. Calculations were carried out using the simplex method, which made it possible to determine the optimal resource allocation plan and minimize costs at each stage of construction work.
According to the results of the study, the best solution is to use chipboard for arranging floor coverings. This option has the highest desirability index, which indicates its superiority over other materials. Chipboard is also a competitive option. Board coverings and fiberboard bases, in turn, have lower desirability indices due to high costs and rapid wear. The results obtained can be used in construction design practice to make economically sound decisions that will contribute to increasing the total life cycle cost of construction projects. This will allow construction companies not only to reduce costs, but also to increase competitiveness in the market, offering customers more effective and cost-effective solutions.
References
Сорокіна Л.В., Гойко А.Ф., Стеценко С.П., Шапошнікова І.О., Гаврилюк В.Я. Статистика в управлінні економікою будівництва і нерухомості: навч. посіб. Київ: КНУБА, 2021. 168 с.
Стеценко С.П., Сорокіна Л.В., Ізмайлова К.В. Фінансовий аналіз та економічна діагностика: навч. посіб. Київ: КНУБА, 2019. 160 с.
Siripob K., Vuttichai C. Computing the maximum value engineering for a building construction costs using linear programming applications. IOP Conference Series Materials Science and Engineering, 2019, 639:012030. DOI:10.1088/1757-899X/639/1/012030
Aboelmagd Y.M.R. Linear programming applications in construction sites. Alexandria Engineering Journal, 2018, Volume 57, Issue 4. P. 4177-4187. https://doi.org/10.1016/j.aej.2018.11.006.
Amar, T.I., Nurcahyo, A., Bagaskara, G.J., & Wijaya, A.S. Optimization with crashing method and linear programming application on type 36 housing projects. Astonjadro, 2023. Volume 12, Issue 1, pp. 223-234. DOI:10.32832/astonjadro.v12i1.8436
Сорокіна Л.В., Гойко А.Ф. Недосконалість науково-методичного забезпечення оцінки ефективності інвестицій. Шляхи підвищення ефективності будівництва в умовах формування ринкових відносин. 2023. № 52 (1). С.238-250. DOI: https://doi.org/10.32347/2707-501x.2023.52(1).238-250
Покриття підлоги. Види та призначення. URL: https://mydom.ua/ua/blog-ua/napolnye-pokrytija-vidy-i-naznachenija-ua/
Hui, Ooi & Mohammed, Miswan abdul hakim. (2015). The Role of Cost Breakdown Structure in Life Cycle Cost Model. Jurnal Teknologi. 74. 10.11113/jt.v74.4531.
Ingemarsdotter, E. (2022). A guide to life cycle costing. URL: https://pre-sustainability.com/articles/life-cycle-costing-in-more-detail/
Vjestica S., Budak I., Kljajin M., Vukelic D., Milanovic B., Milankovic D., Hodolic J. Model for analysis of environmental impacts of production processesin flooring industry based on LCA. Technical Gazette, 2014, 21(3), 457-466.
Moussatche H., Languell J. Flooring Materials: Life-Cycle Costing for Educational Facilities. Facilities, 2001, 19(10):333-343. DOI: 10.1108/02632770110399370.
Paulsen J. Life Cycle Impact of Floor Coverings: A Model for the Contribution of the Usage Phase. URL: https://www.irbnet.de/daten/iconda/CIB8501.pdf
Downloads
Published
How to Cite
Issue
Section
License
This work is licensed under a Creative Commons Attribution 4.0 International License.
The collected scientific papers “Ways to Improve Construction Efficiency” adheres to a policy of immediate open access to published materials, supporting the principles of open science, free dissemination of scientific information, and international exchange of knowledge in the field of construction and engineering.
All scientific articles of the collection are published in open access and are freely available to readers without registration, subscription, or any other charges. Access to the full texts of the materials does not require payment.
The materials are distributed under the terms of the international license of Creative Commons - Creative Commons Attribution 4.0 International (CC BY 4.0), which permits unrestricted copying, distribution, reproduction, adaptation, and use of the materials for any purposes, including commercial ones, provided that proper attribution is given to the author(s), a reference to the collection “Ways to Improve Construction Efficiency” as the source of publication is provided, and any changes made are indicated.
Authors retain copyright to their publications and grant the collection the right of first publication.
