Utilizing the Waste Polystyrene to Enhance the Thermal Insulation of the Local Buildings

Khaled S. AlQdah; Mubarak AlGrafi

doi:10.4028/www.scientific.net/AMR.652-654.1191

Paper Titles

Influence Research on the Pretreatment of Recycled Coarse Aggregate to the Strength of Recycled Concrete
p.1173

Research on Reinforced Concrete Column under High Speed Impact of Different Diameter Projectile
p.1177

The Influence of Combined Admixture of Super-Fine Limestone Powder and Low-Quality Fly Ash on the Performance of Cement Mortar
p.1181

The Temperature Distribution Research of Foaming Gypsum Mold in the Fabrication and Pouring Process
p.1185

Utilizing the Waste Polystyrene to Enhance the Thermal Insulation of the Local Buildings
p.1191

Analytical Model of Capillary Suction Velocity of a Pipe with Multiple Sizes
p.1201

Research on Porous Properties of Air-Entrained Lightweight Aggregate Concrete
p.1209

Study on BFRP Constrained Preloaded Concrete Square-Shaped Column
p.1213

Study on Indoor Detecting Methods and Performance of Shotcrete
p.1217

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 652-654Utilizing the Waste Polystyrene to Enhance the...

Utilizing the Waste Polystyrene to Enhance the Thermal Insulation of the Local Buildings

Abstract:

In this investigation, waste polystyrene boxes were collected and treated before mixed with common concrete in especial dies to produce new brick called poly-brick. The main tests performed these tests include the measurement of thermal conductivity, overall heat transfer coefficient and the compression stress. It can be seen that the thermal conductivity of the poly-brick increased with increasing the percentage of waste polystyrene and vary from 0.78 (W/mk) at 0% Polystyrene to 0.227 (W/mk) at 50% and the overall heat transfer coefficient reduced from 7.85 to 2.77 W/m2k. Comparisons between common building structure versus the new Poly-Brick was made and it indicates that the heat transfer rate reduced from 1413 to 498.6 Watt at 50% ratio of the mixture which means 64.7% of energy saving. On the other hand, the compression stress found to be less than that for the common brick. Reduction in energy consumption, which means that low cost of heating and cooling needs, safer, clean and comfortable environment achieved. It is also leads to getting rid of the waste material and has resolved numerous design challenges such as mould.

You might also be interested in these eBooks

Advances in Materials and Materials Processing

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 652-654)

Pages:

1191-1200

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.652-654.1191

Citation:

Cite this paper

Online since:

January 2013

Authors:

Khaled S. AlQdah, Mubarak AlGrafi

Keywords:

Enhancement, Poly-Brick, Recycling, Thermal Insulation, Waste Polystyrene

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] C. Bostjan, M. Saso, The dynamic thermal characteristics of lightweight building elements with a forced ventilated cavity and radiation barriers, Journal of Energy and Buildings. 37 (2005) 972–981.