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Decision-making model using the Analytical Hierarchy Process for the selection of the type of concrete and the method of its maintenance in dry, hot climate conditions

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Warianty tytułu
PL
Model decyzyjny z wykorzystaniem analitycznej metody hierarchizacji procesów do doboru betonu zwykłego lub z dodatkiem materiałów zmiennofazowych wraz ze sposobem jego pielęgnacji w suchych, gorących warunkach klimatycznych
Języki publikacji
EN
Abstrakty
EN
The article presents selected types of phase change materials (PCM) and their properties in terms of applications in construction and concrete technology. The purpose of using PCM is to allow the technological barrier to be exceeded in hot and dry climate conditions, enabling the construction of non-cracking concrete structures. Methodology of the multi-criteria decision-making process with the use of a relatively new decision-making tool in construction - the Analytical Hierarchical Process (AHP) is presented. Theoretical aspects of the method and an example of its practical use for the selection of the best material variant and concrete care method in the dry Syrian climate are presented. The conclusions resulting from the presented article concern two areas, i.e. the advisability of using phase change materials for temperature regulation in the maturing fresh concrete in dry climate conditions and the attractiveness of the AHP method justifying the advisability of choosing the maintenance methods in such conditions.
PL
W artykule przedstawiono wybrane rodzaje materiałów zmiennofazowych (PCM) oraz ich właściwości pod kątem zastosowań w budownictwie, w tym w technologii betonu. Celem stosowania PCM jako dodatku do świeżego betonu jest umożliwienie przekroczenia określonych barier technologicznych występujących w warunkach klimatu gorącego i suchego, gwarantując schładzanie betonu i tym samym wykonanie niezarysowanych konstrukcji betonowych. Przedstawiono metodologię wielokryterialnego procesu decyzyjnego związanego z wyborem różnych wariantów pielęgnacji betonu w warunkach ekstremalnie suchych z wykorzystaniem stosunkowo nowego narzędzia decyzyjnego w budownictwie jakim jest AHP tj. Analytic Hierarchy Process. Przedstawiono teoretyczne aspekty metody oraz przykład jej praktycznego zastosowania do wyboru najlepszego rodzaju cementu oraz betonu i metody jego pielęgnacji w suchym klimacie syryjskim. Wnioski płynące z przedstawionego artykułu dotyczą dwóch obszarów, tj. celowości stosowania materiałów PCM z przemianą fazową o stosunkowo niskiej temperaturze do regulacji temperatury w dojrzewającym świeżym betonie w suchych warunkach klimatycznych oraz atrakcyjności metody AHP uzasadniającej celowość wyboru alternatywnych metod pielęgnacji młodego betonu w takich warunkach.
Rocznik
Strony
385--403
Opis fizyczny
Bibliogr. 37 poz., il., tab.
Twórcy
  • State University of Stanislaw Staszica in Pila, Department of Civil Engineering, Pila, Poland
  • Poznan University of Technology, Institute of Building Engineering, Poznan, Poland
Bibliografia
  • [1] A.M. Neville, Properties of concrete, 5th ed. London Pearson Education Limited, 2011.
  • [2] M. Emborg and S. Bernander, “Assessment of risk of thermal cracking in hardening concrete”, Journal of Structural Engineering, vol. 120, no. 10, pp. 2893-2912, 1994, doi: 10.1061/(ASCE)0733-9445(1994)120:10(2893).
  • [3] Z. Bofang, Thermal stresses and temperature control of mass concrete. Oxford: Butterworth-Heinemann, 2013.
  • [4] M. Nobuhiro and U. Kazuo, “Nonlinear thermal stress analysis of a massive concrete structure”, Computer Structures, vol. 26, no. 1-2, pp. 287-296, 1987, doi: 10.1016/0045-7949(87)90259-8.
  • [5] F. Benboudjema and J.M. Torrenti, “Early-age behaviour of concrete nuclear containments”, Nuclear Engineering and Design, vol. 238, no. 10, pp. 2495-2506, 2008, doi: 10.1016/j.nucengdes.2008.04.009.
  • [6] Y. Pan, A. Prado, R. Porras, O.M. Hafez, and J.E. Bolander, “Lattice modeling of early-age behavior of structural concrete”, Materials, vol. 10, no. 3, 2017, doi: 10.3390/ma10030231.
  • [7] J. Jasiczak, Technology of monolithic concrete works performed in countries with dry and hot climate. Publishing house of the Poznan University of Technology, 1987 (in Polish).
  • [8] ACI 305R-20 Guide to hot weather concreting. ACI, 2020.
  • [9] A. Chajec, S. Kwietniowski, Z. Woźniak, B. Šavija, and Ł. Sadowski, “The influence of granite powder waste and the addition of fly ash on concrete bleeding”, Structural Concrete, pp. 1-13, 2022, doi: 10.1002/suco.202200225.
  • [10] M. Mohamed and D.Q. Tran, “Integrated framework for optimizing inspection tests of concrete pavement materials”, Practice Periodical on Structural Design and Construction, vol. 26, no. 4, art. no. 05021004, 2021.
  • [11] M. Hsino and J. Pasławski, “Phase change materials as a modifier of ageing cement concrete in hot and dry climate”, Advanced Materials Research, vol. 804, pp. 129-134, 2013, doi: 10.4028/www.scientific.net/AMR.804.129.
  • [12] M. Hsino and J. Pasławski , “Flexible procedure for concreting in hot and dry climate based on Phase Change Material”, MATEC Web of Conferences, vol. 222, art. no. 01005, 2018, doi: 10.1051/matecconf/201822201005.
  • [13] M. Hsino, T. Jankowiak, and J. Jasiczak, “Experimental and numerical analysis of the concrete maturation process with additive of phase change materials”, Materials, vol. 15, no. 13, 2022, doi: 10.3390/ma15134687.
  • [14] Y. Farnam, M. Krafcik, L. Liston, T. Washington, and W.J. Weiss, “Evaluating the use of phase change materials in concrete pavement to melt ice and snow”, Journal of Materials in Civil Engineering, vol. 28, no. 4, 2015, doi: 10.1061/(ASCE)MT.1943-5533.0001439.
  • [15] K. Faraj, M. Khaled, J. Faraj, F. Hachem, and C. Castelain, “A review on phase change materials for thermal energy storage in buildings: heating and hybrid applications”, Journal of Energy Storage, vol. 33, art. no. 101913, 2021, doi: 10.1016/j.est.2020.101913.
  • [16] D.P. Bentz and R. Turpin, “Potential applications of phase change materials in concrete technology”, Cement and Concrete Composites, vol. 29, no. 7, pp. 527-532, 2007, doi: 10.1016/j.cemconcomp.2007.04.007.
  • [17] B. Šavija, “Smart crack control in concrete through use of phase change materials (PCMs)”, Materials, vol. 11, no. 5, 2018, doi: 10.3390/ma11050654.
  • [18] F. Fernandes, S. Manari, M. Aguayo, K. Santos, T. Oey, Z. Wei, G. Falzone, N. Neithalath, and G. Sant, “On the feasibility of using phase change materials (PCMs) to mitigate thermal cracking in cementitious materials”, Cement and Concrete Composites, vol. 51, pp. 14-26, 2014, doi: 10.1016/j.cemconcomp.2014.03.003.
  • [19] A. Sharma, V.V. Tyagi, C.R. Chen, and D. Buddhi, “Review on thermal energy storage with phase change materials and applications”, Renewable and Sustainable Energy Reviews, vol. 13, no. 2, pp. 318-345, 20019, doi: 10.1016/j.rser.2007.10.005.
  • [20] F. Ascione, R.F. De Masi, N. Del Regno, F. De Rossi, A. Gigante and S. Ruggiero, “Numerical optimization for the design of geopolymer concrete walls with phase change materials in the mediterranean climate”, Buildings, vol. 12, no. 9, 2022, doi: 10.3390/buildings12091353.
  • [21] T.L. Saaty, The analytic hierarchy process. Pittsburgh: RWS Publications, 1998.
  • [22] T.L. Saaty, Decision making for leaders: the analytic hierarchy process for decisions in a complex world. Pittsburgh: RWS Publications, 2001.
  • [23] T.L. Saaty, Decision making with dependence and feedback: the analytic network process. Pittsburgh: RWS Publications, 2001.
  • [24] T.L. Saaty, “The analytic hierarchy and analytic network processes for the measurement of intangibles and for decision making”, in Multiple criteria decision analysis, S. Greco, M. Ehrgot, and J.R. Figueira, Eds. Springer, 2016, pp. 363-413, doi: 10.1007/978-1-4939-3094-4_10.
  • [25] K.G. Zografos, “Analytic hierarchy process (AHP): it’s application in FTS business model assessment”, presented at Conference “Flexible mobility services”, 23-24 May 2005, Cremona.
  • [26] G. Oleniacz, I. Skrzypczak, and P. Len, “Decision-making models using the Analytical Hierarchy Process in the urgency of land consolidation works”, Journal of Water and Land Development, no. 43, pp. 144-150, 2019, doi: 10.2478/jwld-2019-0072.
  • [27] I. Skrzypczak, W. Kokoszka, D. Zientek, Y. Tang, and J. Kogut, ”Landslide hazard assessment map as an element supporting spatial planning: The flysch Carpathians region study”, Remote Sensing, vol. 13, no. 2, 2021, doi: 10.3390/rs13020317.
  • [28] I. Skrzypczak, W. Kokoszka, T. Pytlowany, and W. Radwański , “AHP as a method supporting the decision-making process in the choice of road building technology”, in Scientific and Technical Conference Transport Systems Theory And Practice. Springer, 2019, pp. 80-92,
  • [29] D. Skorupka and A. Duchaczek, “Application of the AHP method in the optimization of decision-making processes related to the implementation of logistics projects”, Scientific Notebooks of the Military Academy of Land Forces Gen. T. Kosciuszko, no. 3, pp. 54-62, 2010 (in Polish).
  • [30] M. Książek-Nowak, M. Ozimek, “The use of multi-criteria assessment to select a general contractor for a development investment”, Archives of Civil Engineering, vol. 67, no. 4, pp. 573-589, 2021, doi: 10.24425/ace.2021.138519.
  • [31] M. Książek and P. Ciechowicz, “Selection of the general contractor using the AHP method”, Archives of Civil Engineering, vol. 62, no. 3, pp. 105-116, 2016, doi: 10.1515/ace-2015-0086.
  • [32] W. Adamus and A. Greda, “Supporting multi-criteria decisions in solving selected organizational and managerial problems”, Operational Research and Decisions, vol. 2, pp. 5-36, 2005 (in Polish).
  • [33] W. Adamus, K. Szara, “The application of the analytical hierarchical process (AHP) to the rationalization and organization of farms in enterprises”, Problems of Agricultural Economics, no. 4-5, pp. 20-41, 2000 (in Polish).
  • [34] A. Prusak, P. Stefanów, AHP - analytical hierarchical process. Building and analysis of decision models step by step. Warsaw, 2014 (in Polish).
  • [35] M.A. Partyka, A. Paszek, “Possibilities of using decision tables in engineering of structural design and technology”, Drives and Controls, no. 10, pp. 108-116, 2017 (in Polish).
  • [36] G. Bajorek, “Summer - the time of special care of concrete”, Construction, Technologies, Architecture, no. 3, pp. 50-52, 2008 (in Polish).
  • [37] Guidelines for the performance of construction and assembly works during the reduced period temperatures. ITB Instruction 282/2020 (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a21c3904-64ef-41f9-a19c-57fd408c3fa8
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