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The article highlights the prospects of using 3D printing technology for the construction of residential buildings in Ukraine. The origin and initial use of 3D printing technology in the construction industry took place in the 80s of the last centuries. The first house project was implemented using 3D printing in 2014. The author cites data from Grand View Research showing a significant growth in the global 3D printing market, which is due to active research and development of three-dimensional printing and growing demand in the world. The article provides examples of global experience in the implementation of houses using 3D printing, namely the habitat for sustainable living by the Italian company WASP© 3D Natives under the TECLA project. The advantage of this project is the integration of local resources for the implementation of the object. This approach is environmentally friendly and speeds up the construction process. The article also describes and analyses the C3PO project by Kamp C. The house was 3D printed by the German COBOD BOD2 printer. The article highlights a number of features and advantages of the COBOD BOD2 printer. The article presents the Dutch experience of 3D printing a building. The project of a house in Eindhoven is called Milestone. The advantage of this example of building a house with a 3D printer is the ability to print the entire building without the need for secondary structures and the cost-effectiveness of the exterior and interior of the building. The article discusses the largest 3D printed building in Dubai. This version used local materials and efficient insulation to reduce energy consumption. The building was printed in extreme conditions. The scale of the building makes it possible to quickly address mass needs. Based on the material covered, the author summarizes the positive experience and successful integration of 3D printing technology in the construction of residential buildings, highlights a number of advantages and disadvantages of this technology and the prospects for its use in Ukraine
The article highlights the prospects of using 3D printing technology for the construction of residential buildings in Ukraine. The origin and initial use of 3D printing technology in the construction industry took place in the 80s of the last centuries. The first house project was implemented using 3D printing in 2014. The author cites data from Grand View Research showing a significant growth in the global 3D printing market, which is due to active research and development of three-dimensional printing and growing demand in the world. The article provides examples of global experience in the implementation of houses using 3D printing, namely the habitat for sustainable living by the Italian company WASP© 3D Natives under the TECLA project. The advantage of this project is the integration of local resources for the implementation of the object. This approach is environmentally friendly and speeds up the construction process. The article also describes and analyses the C3PO project by Kamp C. The house was 3D printed by the German COBOD BOD2 printer. The article highlights a number of features and advantages of the COBOD BOD2 printer. The article presents the Dutch experience of 3D printing a building. The project of a house in Eindhoven is called Milestone. The advantage of this example of building a house with a 3D printer is the ability to print the entire building without the need for secondary structures and the cost-effectiveness of the exterior and interior of the building. The article discusses the largest 3D printed building in Dubai. This version used local materials and efficient insulation to reduce energy consumption. The building was printed in extreme conditions. The scale of the building makes it possible to quickly address mass needs. Based on the material covered, the author summarizes the positive experience and successful integration of 3D printing technology in the construction of residential buildings, highlights a number of advantages and disadvantages of this technology and the prospects for its use in Ukraine
This study analyzes contemporary innovative approaches and technologies aimed at reducing construction waste and promoting its recycling, while also exploring their implementation potential within a circular economy framework. The scientific novelty lies in the examination of innovative strategies enhancing construction waste management within the circular economy context, contributing significantly to understanding and utilizing such technologies. Additionally, the practical value of this work is underscored by its provision of actionable insights and global best practices in implementing innovative technologies for construction waste management. The article delves into the significance and opportunities of utilizing innovative technologies within the context of a circular economy, addressing pertinent issues, expanding the understanding of circular economy concepts in construction, and offering practical examples and recommendations for implementation. The impact of circular economy principles on waste reduction and resource optimization in construction is thoroughly analyzed, with a focus on tools and technologies such as secondary resource utilization, 3D printing, Internet of Things, and artificial intelligence to enhance waste management processes, ensuring their sustainability and efficiency. Furthermore, the article showcases successful innovative projects and initiatives globally while examining challenges and future prospects. It advocates for the active adoption of innovative technologies in construction and waste management to foster sustainable development and environmental preservation. By highlighting the intersection of cutting-edge technology and environmental sustainability, this study provides a comprehensive overview of how the construction industry can evolve to meet contemporary environmental challenges, ultimately contributing to a more sustainable and efficient construction sector. The research emphasizes the critical role of integrating technological advancements with circular economy principles to address the mounting issue of construction waste. It explores how the adaptation of these advanced technologies can lead to substantial reductions in waste generation, improved resource efficiency, and the development of sustainable construction practices. The study also underscores the importance of policy support and stakeholder collaboration in facilitating the widespread adoption of these innovative solutions. In conclusion, this article not only presents a detailed analysis of current trends and technologies in construction waste management but also offers a forward-looking perspective on the future of the industry. It serves as a call to action for policymakers, industry professionals, and researchers to embrace and invest in innovative technologies that align with the principles of the circular economy, ensuring a resilient and environmentally responsible construction sector for future generations. Keywords: technologies, management, waste, innovations, economy, efficiency, resources, sustainability, materials, cycle
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