2018
DOI: 10.1016/j.jclepro.2018.03.280
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BIM-based approach for optimizing life cycle costs of sustainable buildings

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Cited by 150 publications
(84 citation statements)
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“…On the other hand, integrity of buildings can be considered as a multi-criteria decision-making problem wherein the optimal objectives can include the environmental effects, costs, and so on [21]. Marzouk [18] has proposed a GA-based sustainable model to implement a Life-Cycle Cost (LCC) to select the optimum building materials in Egypt. Using combined external-combustion and insulation thermal systems as two parameters, Schwartz [15] has addressed the optimization of a building for costs and greenhouse gas emissions considering renewable energy in its construction.…”
Section: Practical Applicationmentioning
confidence: 99%
See 1 more Smart Citation
“…On the other hand, integrity of buildings can be considered as a multi-criteria decision-making problem wherein the optimal objectives can include the environmental effects, costs, and so on [21]. Marzouk [18] has proposed a GA-based sustainable model to implement a Life-Cycle Cost (LCC) to select the optimum building materials in Egypt. Using combined external-combustion and insulation thermal systems as two parameters, Schwartz [15] has addressed the optimization of a building for costs and greenhouse gas emissions considering renewable energy in its construction.…”
Section: Practical Applicationmentioning
confidence: 99%
“…X TJ jn is an artificial binary variable created from the product of z roof jTJ and z heat n ; it is 1 when both binary variables equal 1; otherwise, it is 0. Thus, constraints (16), (17), (18), (19), (20), 21 is an artificial binary variable created from the product of z wall kTK and z cool r ; it is 1 when both binary variables equal 1; otherwise, it is 0.X TJ jr is an artificial binary variable created from the product of z roof jTJ and z cool r ; it is 1 when both binary variables equal 1; otherwise, it is 0. Thus, constraints (25), (26), (27), (28), (29), (30), (31), 32) and (33) will be applied Figure 2.…”
Section: Linearization Of the Nonlinear Objective Functionsmentioning
confidence: 99%
“…Once the endeavor is completed, it is possible to create the as-built model of the building, containing all the information relating to each component actually built. Through the entire asset life cycle, the BIM model implementation based on Blockchain facilitates the satisfaction of the circular economy principles (Marzouk et al 2018). Some building component data, collected during the construction phase and stored in the distributed registry, can support future maintenance, replacement, and dismission activities during the operational phase.…”
Section: Life Cyclementioning
confidence: 99%
“…Information modeling can help eliminate barriers for the diffusion of innovations in construction by making it possible to quickly opt for a new solution and justify the project investment with account of the implemented innovations. The objective is to include in the innovation descriptions the necessary and sufficient technical, economic, environmental, and other parameters for decisionmaking by the project stakeholders at all stages of the life cycle under the conditions of information modeling for the purpose of sustainable development of the capital facility [23][24][25][26][27][28].…”
Section: Statistical Accounting and Analysis Of Building Innovations mentioning
confidence: 99%