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The demolition of buildings, apart from being energy intensive and disruptive, inevitably produces construction and demolition waste (C&Dw). Unfortunately, even today, the majority of this waste ends up underexploited and not considered as valuable resources to be re-circulated into a closed/open loop process under the umbrella of circular economy (CE). Considering the amount of virgin aggregates needed in civil engineering applications, C&Dw can act as sustainable catalyst towards the preservation of natural resources and the shift towards a CE. This study completes current research by presenting a life cycle inventory compilation and life cycle assessment case study of two buildings in France. The quantification of the end-of-life environmental impacts of the two buildings and subsequently the environmental impacts of recycled aggregates production from C&Dw was realized using the framework of life cycle assessment (LCA). The results indicate that the transport of waste, its treatment, and especially asbestos’ treatment are the most impactful phases. For example, in the case study of the first building, transport and treatment of waste reached 35% of the total impact for global warming. Careful, proactive, and strategic treatment, geolocation, and transport planning is recommended for the involved stakeholders and decision makers in order to ensure minimal sustainability implications during the implementation of CE approaches for C&Dw.
Ambroise Lachat; Konstantinos Mantalovas; Tiffany Desbois; Oumaya Yazoghli-Marzouk; Anne-Sophie Colas; Gaetano Di Mino; Adélaïde Feraille. From Buildings’ End of Life to Aggregate Recycling under a Circular Economic Perspective: A Comparative Life Cycle Assessment Case Study. Sustainability 2021, 13, 9625 .
AMA StyleAmbroise Lachat, Konstantinos Mantalovas, Tiffany Desbois, Oumaya Yazoghli-Marzouk, Anne-Sophie Colas, Gaetano Di Mino, Adélaïde Feraille. From Buildings’ End of Life to Aggregate Recycling under a Circular Economic Perspective: A Comparative Life Cycle Assessment Case Study. Sustainability. 2021; 13 (17):9625.
Chicago/Turabian StyleAmbroise Lachat; Konstantinos Mantalovas; Tiffany Desbois; Oumaya Yazoghli-Marzouk; Anne-Sophie Colas; Gaetano Di Mino; Adélaïde Feraille. 2021. "From Buildings’ End of Life to Aggregate Recycling under a Circular Economic Perspective: A Comparative Life Cycle Assessment Case Study." Sustainability 13, no. 17: 9625.
The pavement engineering industry, having realized the significance of the impacts that it imposes on the environment through the production, construction and management of its products and assets, has been driven towards a more sustainable and circular way of operating. This has partly been through asphalt recycling, which is an area that many road authorities have prioritized. However, not all the National Road Authorities (NRAs) and/or sector stakeholders seem to be adequately familiar with the Circular Economy (CE) concept. This paper attempts to assist the transition of NRAs to a more circular way of doing business, by analyzing the current situation of CE within national/regional authorities and NRAs. To do so, a questionnaire was sent to different NRAs and an online search was conducted to identify the ways that NRAs communicate their CE practices. Findings indicate that, although the majority of the NRAs are familiar with CE as a concept, not many actions have been taken so far towards its holistic implementation. Finally, there is a significant lack of CE expertise and communication within these bodies.
Konstantinos Mantalovas; Gaetano Di Mino; Ana Jimenez Del Barco Carrion; Elisabeth Keijzer; Björn Kalman; Tony Parry; Davide Lo Presti. European National Road Authorities and Circular Economy: An Insight into Their Approaches. Sustainability 2020, 12, 7160 .
AMA StyleKonstantinos Mantalovas, Gaetano Di Mino, Ana Jimenez Del Barco Carrion, Elisabeth Keijzer, Björn Kalman, Tony Parry, Davide Lo Presti. European National Road Authorities and Circular Economy: An Insight into Their Approaches. Sustainability. 2020; 12 (17):7160.
Chicago/Turabian StyleKonstantinos Mantalovas; Gaetano Di Mino; Ana Jimenez Del Barco Carrion; Elisabeth Keijzer; Björn Kalman; Tony Parry; Davide Lo Presti. 2020. "European National Road Authorities and Circular Economy: An Insight into Their Approaches." Sustainability 12, no. 17: 7160.
Rising concerns about the impacts that the road engineering industry is imposing to the environment have redirected national road authorities to firmly re-consider the sustainability implications of their operations. Lately, though, sustainability has established a forceful correlation with the Circular Economy and its principles. The road engineering industry, therefore, is moving towards more circular approaches. However, this is occurring without the assessment of the potential impacts of such a transition. For this reason, in this study, a composite indicator, namely, Environmental Sustainability and Circularity indicator (ESCi), for investigating the potential effects that increased circularity could have at the environmental sustainability of asphalt mixtures is developed. It can be utilized as a decision-making support tool from stakeholders involved in both asphalt mixture production and road pavement management. In addition, in this study, four asphalt mixtures with different percentages of Reclaimed Asphalt (RA) were assessed in terms of their “cradle-to-gate” environmental impacts and circularity, by means of Life Cycle Assessment, and Material Circularity Index, respectively. Their fatigue and permanent deformation performances play a key role in the assessment and distinctive results obtained for the asphalt mixtures with increasing RA% and thus, significant environmental benefits and increased circularity are observed after specific RA% thresholds.
Konstantinos Mantalovas; Gaetano Di Mino. Integrating Circularity in the Sustainability Assessment of Asphalt Mixtures. Sustainability 2020, 12, 594 .
AMA StyleKonstantinos Mantalovas, Gaetano Di Mino. Integrating Circularity in the Sustainability Assessment of Asphalt Mixtures. Sustainability. 2020; 12 (2):594.
Chicago/Turabian StyleKonstantinos Mantalovas; Gaetano Di Mino. 2020. "Integrating Circularity in the Sustainability Assessment of Asphalt Mixtures." Sustainability 12, no. 2: 594.
Road agencies are constantly being placed in difficult situations when making road maintenance and rehabilitation decisions as a result of diminishing road budgets and mounting environmental concerns for any chosen strategies. This has led practitioners to seek out new alternative and innovative ways of monitoring road conditions and planning maintenance routines. This paper considers the use of innovative piezo-floating gate (PFG) sensors and conventional strain gauges to continuously monitor the pavement condition and subsequently trigger maintenance activities. These technologies can help develop optimized maintenance strategies as opposed to traditional ad-hoc approaches, which often lead to poor decisions for road networks. To determine the environmental friendliness of these approaches, a case study was developed wherein a life cycle assessment (LCA) exercise was carried out. Observations from accelerated pavement testing over a period of three months were used to develop optimized maintenance plans. A base case is used as a guide for comparison to the optimized systems to establish the environmental impacts of changing the maintenance workflows with these approaches. On the basis of the results, the proposed methods have shown that they can, in fact, produce environmental benefits when integrated within the pavement management maintenance system.
Mario Manosalvas-Paredes; Ronald Roberts; Maria Barriera; Konstantinos Mantalovas. Towards More Sustainable Pavement Management Practices Using Embedded Sensor Technologies. Infrastructures 2019, 5, 4 .
AMA StyleMario Manosalvas-Paredes, Ronald Roberts, Maria Barriera, Konstantinos Mantalovas. Towards More Sustainable Pavement Management Practices Using Embedded Sensor Technologies. Infrastructures. 2019; 5 (1):4.
Chicago/Turabian StyleMario Manosalvas-Paredes; Ronald Roberts; Maria Barriera; Konstantinos Mantalovas. 2019. "Towards More Sustainable Pavement Management Practices Using Embedded Sensor Technologies." Infrastructures 5, no. 1: 4.
The transition of the road engineering industry to a circular way of doing business requires more efficient and sustainable resources, energy, and waste management. The rates in which reclaimed asphalt is being recycled or reused in the asphalt mixture production process constitutes a crucial parameter in this transition. This paper aims at establishing a further step towards the combined circularity and sustainability of asphalt pavements, by introducing a framework for quantifying their Material Circularity Index. The framework is based on the methodology proposed by the Ellen MacArthur Foundation and accordingly tailored for the context of asphalt pavements. This study, thus, attempts to provide a thorough analysis of the Reclaimed Asphalt’s recycling rates and trends on a European scale and to identify whether the efficiency of the current recycling practices is adequate or not. Moreover, a case study has been undertaken in order to quantify the Material Circularity index of the asphalt pavements forming Italy’s motorway network, following the proposed framework. For representative and accuracy reasons, the Material Circularity index of wearing, binder, and base courses has been calculated separately, and the results interestingly indicate that the base course exhibits the highest rates of circularity.
Konstantinos Mantalovas; Gaetano Di Mino. The Sustainability of Reclaimed Asphalt as a Resource for Road Pavement Management through a Circular Economic Model. Sustainability 2019, 11, 2234 .
AMA StyleKonstantinos Mantalovas, Gaetano Di Mino. The Sustainability of Reclaimed Asphalt as a Resource for Road Pavement Management through a Circular Economic Model. Sustainability. 2019; 11 (8):2234.
Chicago/Turabian StyleKonstantinos Mantalovas; Gaetano Di Mino. 2019. "The Sustainability of Reclaimed Asphalt as a Resource for Road Pavement Management through a Circular Economic Model." Sustainability 11, no. 8: 2234.