Numerical Analysis on Hollow EPSRC Block and its Thermal Insulation Wall

Xiao Sen Fan; Yan Li Chen; Xiao Ling Niu; Xian Cong Wang; Chao Feng Liang

doi:10.4028/www.scientific.net/AMR.724-725.1526

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Experimental Research of Arrangement Method of Prestressed Concrete Slab with Unbonded Reinforcement
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Material Properties of Bridge Deck Dedicated Interface Agent and Key Construction Techniques
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New Type of High-Strength Support in Deep Soft Rock Roadway
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Numerical Analysis on Hollow EPSRC Block and its Thermal Insulation Wall
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Performance of Hemp-Starch Concrete Composite
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Rebounding Method Application of Structure Concrete Compression Strength Detecting in Datong Area
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Reflection upon Energy Saving and Emission Reduction in Colleges in the Context of Low-Carbon City Construction
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Simulation of the Indoor Thermal Environment of Sunspaces-Attaching Passive Solar House in Shihezi of Xinjiang
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 724-725Numerical Analysis on Hollow EPSRC Block and its...

Numerical Analysis on Hollow EPSRC Block and its Thermal Insulation Wall

Abstract:

A new building material named expanded polystyrene recycled concrete (EPSRC) has been experimental studied not long ago by authors in this paper. Now, numerical analysis was further carried out on hollow EPSRC block and its thermal insulation wall based on thermodynamic principles. The results showed that the average thermal resistance of E45 and E60 EPSRC blocks are 0.616 and 0.823 (m²·K)/W, and the average heat transfer coefficient of E45 and E60 EPCRC masonry wall are 1.473 and 1.280 W/(m²·k). Therefore, the EPSRC blocks can be widely applied to the non load-bearing lightweight insulation masonry by suitable design.