<p>Against the backdrop of global sustainable development and energy efficiency improvement, low-energy Internet of Things (IoT) technology offers new ideas and methods for building energy conservation and interior space design optimization. This article aims to explore the application of low-energy consumption Internet of Things technology combined with green insulation materials in interior space design. Based on low-energy consumption Internet of Things (iot) technology, various sensors are deployed in buildings to monitor indoor environmental parameters such as temperature, humidity, and light in real time. Through an intelligent control system, the building equipment is automatically adjusted. By using thermal energy numerical simulation technology and combining it with the real-time data provided by the low-energy consumption iot, the heat conduction, convection, and radiation processes of the building are precisely simulated. The preparation process and thermal performance of green insulation materials were studied and analyzed, and their key performance indicators such as thermal conductivity and water absorption rate were measured through experiments. The application of low-energy consumption Internet of Things (iot) technology has significantly enhanced the energy management efficiency of buildings. Through real-time data feedback and intelligent control, it enables on-demand operation of building equipment and reduces energy waste. The numerical simulation results of thermal energy show that the application of green insulation materials in buildings effectively enhances the thermal resistance of buildings, reduces heat transfer, and improves indoor thermal comfort. The experimental results also confirm that the green insulation material has excellent insulation performance, with a low thermal conductivity and a small water absorption rate, which can effectively prevent heat loss. Therefore, through intelligent energy management and the application of high-performance insulation materials, building energy consumption has been significantly reduced, and the indoor environmental quality has also been improved, providing strong support for achieving sustainable architectural design.</p>

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Low energy IoT and artificial intelligence promote optimization of indoor space design: application of green insulation materials

  • Yan Fanliao

摘要

Against the backdrop of global sustainable development and energy efficiency improvement, low-energy Internet of Things (IoT) technology offers new ideas and methods for building energy conservation and interior space design optimization. This article aims to explore the application of low-energy consumption Internet of Things technology combined with green insulation materials in interior space design. Based on low-energy consumption Internet of Things (iot) technology, various sensors are deployed in buildings to monitor indoor environmental parameters such as temperature, humidity, and light in real time. Through an intelligent control system, the building equipment is automatically adjusted. By using thermal energy numerical simulation technology and combining it with the real-time data provided by the low-energy consumption iot, the heat conduction, convection, and radiation processes of the building are precisely simulated. The preparation process and thermal performance of green insulation materials were studied and analyzed, and their key performance indicators such as thermal conductivity and water absorption rate were measured through experiments. The application of low-energy consumption Internet of Things (iot) technology has significantly enhanced the energy management efficiency of buildings. Through real-time data feedback and intelligent control, it enables on-demand operation of building equipment and reduces energy waste. The numerical simulation results of thermal energy show that the application of green insulation materials in buildings effectively enhances the thermal resistance of buildings, reduces heat transfer, and improves indoor thermal comfort. The experimental results also confirm that the green insulation material has excellent insulation performance, with a low thermal conductivity and a small water absorption rate, which can effectively prevent heat loss. Therefore, through intelligent energy management and the application of high-performance insulation materials, building energy consumption has been significantly reduced, and the indoor environmental quality has also been improved, providing strong support for achieving sustainable architectural design.