Energy simulation and life cycle assessment of a 3D printable building

Mohammadreza Khalili Tari, Amir Reza Faraji, Alireza Aslani, Rahim Zahedi
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引用次数: 7

Abstract

The construction industry plays a key role in the economic development of countries. The industry faces challenges such as high energy consumption, long construction time, high manufacturing costs. 3D printing technology can solve many problems in this industry. The goal of this research is to find suitable materials for the 3D printing of an energy-efficient building with the least environmental impact. Magnesium potassium phosphate cement (MKPC) was selected for this study. In the next step, energy consumption in the building is simulated and different scenarios are considered to optimize energy consumption and reduce environmental impacts. Then, the life cycle assessment is done for the best scenario. Finally, this scenario is compared to the case where portland cement enters the composition. The simulation results show that PCM (phase change materials) has very little effect on reducing the energy consumption of the building. In contrast, insulation has almost halved energy consumption. Magnesium oxide and monopotassium phosphate have a significant share in the environmental effects of concrete walls. By adding 30% by volume of M20 concrete, the environmental impacts are reduced almost 28%.

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三维可打印建筑的能量模拟和生命周期评估
建筑业在各国经济发展中发挥着关键作用。该行业面临着能源消耗高、施工时间长、制造成本高等挑战。3D打印技术可以解决这个行业的许多问题。这项研究的目标是找到合适的材料,用于对环境影响最小的节能建筑的3D打印。本研究选用磷酸镁钾水泥(MKPC)。下一步,将模拟建筑中的能源消耗,并考虑不同的场景,以优化能源消耗并减少环境影响。然后,针对最佳场景进行生命周期评估。最后,将这种情况与硅酸盐水泥进入组合物的情况进行比较。仿真结果表明,相变材料对降低建筑能耗的作用很小。相比之下,绝缘几乎使能耗减半。氧化镁和磷酸一钾在混凝土墙的环境影响中占有重要份额。通过添加30%体积的M20混凝土,环境影响减少了近28%。
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9.20
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