A Life-Cycle Approach to Investigate the Potential of Novel Biobased Construction Materials toward a Circular Built Environment

Keena, Naomi; Raugei, Marco; Lokko, Mae-ling; Etman, Mohamed Aly; Achnani, Vicki; Reck, Barbara K.; Dyson, Anna

doi:10.3390/en15197239

Cited by 16 publications

(3 citation statements)

References 46 publications

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“…It is important to highlight that a majority of the articles did not conduct a complete LCA. Some studies consider only the cradle-to-gate system [38][39][40][41][42][43][44][45][46], while others address the cradle-to-grave approach [28,[47][48][49][50][51][52][53][54][55]. In contrast, few studies have assessed more than one life cycle [56][57][58][59], existing urban stocks renewals [60], reuse scenarios [61][62][63], and credits for potential reuse, energy recovery, or recycling of materials in subsequent product systems [64].…”

Section: Built Environment Characteristicsmentioning

confidence: 99%

“…Also, investigate the hotspots of a process and develop solutions to reduce environmental impacts. [28,34,[38][39][40][41][42]45,48,51,58,70,71,76,79,85,87,88,91,93,[96][97][98][99] Use of renewable energy and decarbonization of supply chain Design to use renewable energy, sources are regenerated or naturally replenished (biomass, geothermal, solar, hydro, wind, and biofuels), to generate electric power, heating, cooking, water heating, and as fuel for transport. [28,52,68,73,74,91,93] Analyzing the relationship between the year and the strategy, as shown in Figure 7, the most cited strategies between 2020 and 2022 are "Reuse of buildings and materials", "Studying alternatives", "Design for disassembly", "Design for flexibility and adaptability", "Design for life extension", "Design for reuse", and "Recycling".…”

Section: Green Public Procurementmentioning

confidence: 99%

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Towards Sustainable Construction: A Systematic Review of Circular Economy Strategies and Ecodesign in the Built Environment

2023

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This review discusses the unsustainable nature of current production and consumption patterns, particularly in the civil construction sector. To address this, the circular economy model has been proposed as a solution, but the impact reduction of circular strategies (CS) is not well understood. Thus, aligning CS with ecodesign can help achieve sustainable development. We conducted a systematic review of studies on CS and ecodesign strategies (ES) in the built environment, which led us to identify 23 essential strategies, including reuse, recycling, design for disassembly, and design for life extension. This article expands on previous research by identifying 51 CS and ES, some of which are interconnected, and adopting one strategy may benefit another. The authors propose a framework based on the Plan-Do-Check-Act concept to support and manage trade-offs when selecting strategies and to facilitate a collaborative decision-making process. The framework can also help manage the effects of using these strategies on circularity and environmental, social, and economic performance, ultimately improving the construction sector’s environmental performance.

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Section: Built Environment Characteristicsmentioning

confidence: 99%

Section: Green Public Procurementmentioning

confidence: 99%

Towards Sustainable Construction: A Systematic Review of Circular Economy Strategies and Ecodesign in the Built Environment

2023

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“…Fast-growing bio-based materials can help to compensate for carbon emissions, as it is nearly impossible to have zero embodied GHG emissions, especially due to highly processed materials still being needed in some foundations and as a stabilizer for some materials [77]. Keena et al [78] highlighted that bio-based solutions for built environments have lower environmental impacts, in a life cycle approach, per functional unit than other conventional solutions.…”

Section: Environmental Parameter Analysismentioning

confidence: 99%

A Review of Natural Bio-Based Insulation Materials

2023

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Within the context of climate change and the environmental impact of the building industry, insulation materials contribute to improving the thermal performance of buildings, thus reducing energy demand and carbon emissions during the operation phase. Although most of them are responsible for significant carbon emissions during their production, bio-based insulation materials can provide good performance with low carbon emissions. This paper aims to investigate natural insulation materials’ properties and environmental impacts through a literature review. Due to the growing importance of Environmental Product Declarations (EPDs) on specification requirements, many manufacturers already disclose environmental data related to their products, allowing for a comparison between thermal insulation solutions. In academic research, embodied environmental impacts are not as explored as physical properties. In addition, from the analysis of results, it is possible to conclude that the characterization of the physical properties of this type of material is normally focused on thermal conductivity. Nevertheless, most studies overlook other important parameters of these materials, such as the thermal capacity, lifetime, and environmental impacts. This is something that is necessary to overcome in future developments to allow for a comprehensive comparison between the properties of different (conventional and bio-based) insulation materials.

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Redefining Construction: An In-Depth Review of Sustainable Polyurethane Applications

Mistry,

Prajapati,

Dholakiya

2024

J Polym Environ

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A Life-Cycle Approach to Investigate the Potential of Novel Biobased Construction Materials toward a Circular Built Environment

Cited by 16 publications

References 46 publications

Towards Sustainable Construction: A Systematic Review of Circular Economy Strategies and Ecodesign in the Built Environment

Towards Sustainable Construction: A Systematic Review of Circular Economy Strategies and Ecodesign in the Built Environment

A Review of Natural Bio-Based Insulation Materials

Redefining Construction: An In-Depth Review of Sustainable Polyurethane Applications

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