Energy Saving Measures of Building Integration and Cost Analysis Based on 65% Standard

Jian Hui Yang; Yu Wang; Zheng Zhuan Xiong

doi:10.4028/www.scientific.net/AMM.71-78.353

Paper Titles

Energy Consumption Analysis of Energy Saving Retrofit of Building Envelop of New Country
p.326

Experimental Study on Mechanical Properties of Recycled Concrete Specimens of Marine Engineering
p.331

Effect of Adjustable Deflectors on Building Facade on Diverting the Distribution of Aerosol in Micro Climate Wind Field
p.338

Constitutive Relations of Concrete under Plane Stresses Based on Generalized Octahedral Theory
p.342

Energy Saving Measures of Building Integration and Cost Analysis Based on 65% Standard
p.353

Study on Cement-Based Vitrified Microsphere Thermal Mortar
p.364

Research on Green Building Teaching Based on the Integration of Multi-Disciplinary
p.370

Vibration Analysis of a Flexibly Connected Double Span Beam Traversed by Uniformly Distributed Moving Load
p.375

Research of Building Energy Efficiency Design and Engineering Quality Management System Based on Network
p.379

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 71-78Energy Saving Measures of Building Integration and...

Energy Saving Measures of Building Integration and Cost Analysis Based on 65% Standard

Abstract:

It is difficult to reach the request that 65% standard of building energy in china and the goal of China’s science and technology development in 2020 using traditional outer insulation technology. The several combinations of ordinary concrete (1) and bearing ceramsite concrete (2), styrofoam board of external thermal insulation for external wall (3) and cement-based glazed hollow bead insulation system (4) are made thermal calculations and cost analysis separately in this paper based on a practical project of Jiaozuo city. The results indicate that the combination of (2)+(4) is the best one, which reduces the energy saving rate, labor intensity, transportation weight, project cost by 74%, 20%, 30%-40% and 10% respectively.

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Periodical:

Applied Mechanics and Materials (Volumes 71-78)

Pages:

353-363

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.71-78.353

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Online since:

July 2011

Authors:

Jian Hui Yang, Yu Wang, Zheng Zhuan Xiong

Keywords:

Building Energy Efficiency (BEE), Ceramisite, Concrete, Cost Analysis, Energy Saving Rate, Glazed-Hollow-Bead, Polystyrene Board, Thermal Calculation

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