Identification and selection of building façade's smart materials according to sustainable development goals

Balali, Amirhossein; Valipour, Alireza

doi:10.1016/j.susmat.2020.e00213

Cited by 38 publications

(28 citation statements)

References 56 publications

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“…Khoshnava et al [2] considered the affordability of green building materials as the top ranking. In contrast, resource efficiency focused Moreover, decreasing energy consumption is the most remarkable selection criteria, according to Balali et al [14], aiming to identify the most sustainable building façades' smart material. Furthermore, the availability and cost of green materials were highlighted as the most important criteria for evaluating green materials based on LEED, according to Castro-Lacouture et al [60].…”

Section: Comparing the Previous Studies' Resultsmentioning

confidence: 99%

“…Optimizing building energy consumption and environmental impacts have been studied [38,39] using LCA, simulation, and building information modeling (BIM). Balali et al [14] identified six smart materials' weightings and relative importance for façades based on technical, economic, social, environmental, and energy consumption criteria using SPSS software and AHP method to select the most sustainable smart material for building façades. Moussavi et al [12] classified the most sustainable alternative between five façade material systems based on AHP regarding environmental impacts, life cycle cost, performance, and social benefits.…”

Section: Selecting Façade Building Materials Based On Performance and Originmentioning

confidence: 99%

“…Low energy is demanded during the production processes of building material on-site construction, demolition, and disposal [14].…”

Section: Monetary Unitsmentioning

confidence: 99%

“…Another study by Vilcekova et al [13] mentioned foam glass as the best alternative thermal insulation based on the environmental and thermal aspects. Moreover, "photovoltaic materials" are considered the most sustainable materials for building façades with the high priority result of AHP, according to Balali et al [14]. Consequently, accomplishing effective and healthier building façades affects the industry to produce materials with fewer consuming resources, low environmental impact, and good thermal performance.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Assessment of Green Building Materials’ Attributes to Achieve Sustainable Building Façades Using AHP

et al. 2021

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The need to enhance the performance of building façades and mitigate adverse environmental impacts has promoted the hypothesis of integrating green materials towards sustainable buildings. Façade designers tend to select building materials based on their green characteristics (origin) or green performance; however, this study highlights the importance of integrating both into the decision process. The main objective is to develop a new assessment process for selecting green building façade materials based on green performance and green originality. Furthermore, the evaluation framework considers four green building rating systems as a reference to allocate credits for the relevant criteria. Applying the proposed criteria in this study helps maximize the points for accreditation when incorporating green building materials in building façades. Moreover, the Analytic Hierarchy Process (AHP) is used to assign the proposed criteria’s weighting importance based on the four rating systems’ average points. After that, performing sensitivity analysis to identify each criterion’s influence is conducted. The study concluded that involving minimum levels of adverse impacts is the preferable criteria regarding the green origin concept. As for the green performance, promoting the performance of indoor air quality is the most favorable selection criteria.

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Section: Comparing the Previous Studies' Resultsmentioning

confidence: 99%

Section: Selecting Façade Building Materials Based On Performance and Originmentioning

confidence: 99%

“…Low energy is demanded during the production processes of building material on-site construction, demolition, and disposal [14].…”

Section: Monetary Unitsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Assessment of Green Building Materials’ Attributes to Achieve Sustainable Building Façades Using AHP

et al. 2021

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“…The assumptions concerning the replacement, repair and maintenance of the material had to be as realistic as possible [3]. Over the last decade, much research has been carried out on new façade solutions and new materials to improve the energy efficiency of the building [4]. Energy production systems using photovoltaic materials [5], microalgae façades such as solar thermal collectors [6] and phase change materials [7] (PCM) [8] are being incorporated into envelopes to improve environmental comfort and reduce consumption [9].…”

Section: Introductionmentioning

confidence: 99%

Colour Ageing in Acrylic Resin Plates and Natural Minerals on the Façade after 10 Years of Sun Exposure in the Marine Environment

et al. 2021

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The synthetic material developed by Dupont in 1963 for solid surfaces has been used since its origin for numerous applications. One of the most popular ones in the last decade is as a finishing layer on façades. The first references that contemplated this use on the outside were the Seeko’o hotel in Bordeaux executed in 2007 and the refurbishment of the 7700 m2 shell of the Hôtel Ivoire congress centre in Abidjan (Ivory Coast) in 2009. In Spain, the first example of the installation of this material is the rehabilitation of the main building of the La Rotonda de la Playa de San Juan urbanisation in Alicante, designed in 1965 by the architect Juan Guardiola Gaya and rehabilitated in 2010 by Miguel Salvador Landmann. Ten years later, our research is focused on the study of the colour ageing of the acrylic resin and natural mineral sheets on each of its façades, with different orientations and exposure to sea and wind. To this end, it has been studied the solar radiation of the surfaces, the wind exposure of their façades and tests with a tele-spectroradiometer has been carried out. The study makes it possible to quantify the differences in colour in all of them and to state that the combination of wind and radiation is the main atmospheric agent causing the degradation.

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Multi‐Stimuli Responsive Thiazolothiazole Viologen‐Containing Poly(2‐Isopropyl‐2‐Oxazoline) and Its Multi‐Modal Thermochromism, Photochromism, Electrochromism, and Solvatofluorochromism Applications

Rathod

Puguan

Kim

2022

Adv Materials Inter

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Smart materials are highly desirable over the recent decade due to the growing demand on complicated nature. Smart materials with stable stimuli‐responsive properties are widely applied in sensors, smart windows, displays, and chemical valves, but they are relatively rare. Most of the current chromic materials are triggered by one or two external stimuli, and only a few multi‐stimuli responsive instances still suffer by their restricting functional states, such as solution or polymer. To address these challenges, researchers are focusing their efforts on developing a new generation of multi‐stimulus responsive chromic materials. In this article, our group has adopted a new strategy for the synthesis of the multi‐stimuli responsive single polymeric material, which can be useful for different applications (such as thermochromism, photochromism, electrochromism, and solvatofluorochromism). Thiazolothiazole viologen (TTv)‐containing poly(2‐isopropyl‐2‐oxazoline) (PiPO) was synthesized using a one‐pot reaction where the living cationic polymer chains were reacted with thiazolothiazole viologen to produce multi‐stimuli responsive PiPO‐TTv. PiPO‐TTv‐based device demonstrated multi‐responsive properties due to the thermoresponsive properties of PiPO segments and photo‐, electro‐responsive properties of TTv monomer, respectively. PiPO‐TTv material, additionally exhibits fluorescence characteristics that makes it appealing for environmental and molecular biological sensor applications.

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Identification and selection of building façade's smart materials according to sustainable development goals

Cited by 38 publications

References 56 publications

Assessment of Green Building Materials’ Attributes to Achieve Sustainable Building Façades Using AHP

Assessment of Green Building Materials’ Attributes to Achieve Sustainable Building Façades Using AHP

Colour Ageing in Acrylic Resin Plates and Natural Minerals on the Façade after 10 Years of Sun Exposure in the Marine Environment

Multi‐Stimuli Responsive Thiazolothiazole Viologen‐Containing Poly(2‐Isopropyl‐2‐Oxazoline) and Its Multi‐Modal Thermochromism, Photochromism, Electrochromism, and Solvatofluorochromism Applications

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