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A platform for research: civil engineering, architecture and urbanism
Integrating Building Information Modeling (BIM) with Ecological Engineering for Sustainable Civil Construction
With the global emphasis on sustainable development, the construction industry has increasingly adopted eco-friendly practices, particularly through the integration of ecological engineering and Building Information Modeling (BIM) technology. Since the late 1980s, BIM has become a crucial tool in the design, planning, and construction of buildings, enabling more efficient resource management and environmental impact assessment. BIM allows for the creation of detailed digital models that simulate various environmental factors, including energy use, water consumption, material selection, and waste management. Comparative analysis demonstrates that BIM-integrated projects reduce energy consumption by 15%-20% compared to conventional methods. Moreover, BIM's ability to simulate environmental impacts at early design stages significantly minimizes resource waste and project costs. By integrating environmental engineering principles, BIM supports the assessment of the ecological impacts of different materials and construction methods, ensuring that sustainability goals are met from the early stages of design through to demolition. This combined approach not only optimizes resource usage but also reduces carbon emissions and promotes the use of renewable materials, contributing to a more sustainable built environment. Through tools like Life Cycle Assessment (LCA), BIM helps stakeholders make informed decisions that minimize environmental harm throughout the entire lifecycle of a building. In summary, the integration of BIM with ecological engineering enhances the sustainability of construction projects, supporting both environmental and socio-economic benefits, and driving the industry towards a more sustainable future.
Integrating Building Information Modeling (BIM) with Ecological Engineering for Sustainable Civil Construction
With the global emphasis on sustainable development, the construction industry has increasingly adopted eco-friendly practices, particularly through the integration of ecological engineering and Building Information Modeling (BIM) technology. Since the late 1980s, BIM has become a crucial tool in the design, planning, and construction of buildings, enabling more efficient resource management and environmental impact assessment. BIM allows for the creation of detailed digital models that simulate various environmental factors, including energy use, water consumption, material selection, and waste management. Comparative analysis demonstrates that BIM-integrated projects reduce energy consumption by 15%-20% compared to conventional methods. Moreover, BIM's ability to simulate environmental impacts at early design stages significantly minimizes resource waste and project costs. By integrating environmental engineering principles, BIM supports the assessment of the ecological impacts of different materials and construction methods, ensuring that sustainability goals are met from the early stages of design through to demolition. This combined approach not only optimizes resource usage but also reduces carbon emissions and promotes the use of renewable materials, contributing to a more sustainable built environment. Through tools like Life Cycle Assessment (LCA), BIM helps stakeholders make informed decisions that minimize environmental harm throughout the entire lifecycle of a building. In summary, the integration of BIM with ecological engineering enhances the sustainability of construction projects, supporting both environmental and socio-economic benefits, and driving the industry towards a more sustainable future.
Integrating Building Information Modeling (BIM) with Ecological Engineering for Sustainable Civil Construction
Zhang Xu (author) / Zhou Qunyou (author) / Zhang Huiying (author) / Zhu Lin (author) / Pei Shuhan (author)
2025
Article (Journal)
Electronic Resource
Unknown
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