Energy Efficient Construction Materials

Abhinandan R. Gupta; S.K. Deshmukh

doi:10.4028/www.scientific.net/KEM.678.35

Paper Titles

Preface

Factors for Eco-Efficiency Improvement of Thermal Insulation Materials
p.1

Traditional and Innovative Materials for Energy Efficiency in Buildings
p.14

Energy Efficient Construction Materials
p.35

Straw Based Materials for Building Retrofitting and Energy Efficiency
p.50

Earthen Plasters Based on Illitic Soils from Barrocal Region of Algarve: Contributions for Building Performance and Sustainability
p.64

Effect of Plasters/Coatings on the Thermo-Physical Behavior of Light Weight Pond Ash Blocks Based on Non Autoclaving Technique
p.78

Rigid Polyurethane Foam: A Versatile Energy Efficient Material
p.88

Mechanical Properties and Thermal Resistance of High Volume Fly Ash Concrete for Energy Efficiency in Building Construction
p.99

HomeKey Engineering MaterialsKey Engineering Materials Vol. 678Energy Efficient Construction Materials

Energy Efficient Construction Materials

Abstract:

History itself is the evident that from the years together the people moves to the region where they can satisfy their needs and wants with fewer efforts and more opportunities. This thought lead to accumulation of people in some areas resulting in urbanization. As this urban area contributes highly in nation’s economy even the government announce a far reaching program of investments in urban development. However, these urban agglomerations manifest generally unsustainable ecologies. The depletion of material resources, the accumulation of waste, and the over-expenditure of non-renewable energy are direct consequences of the predatory expansion of urbanization. Out of this the major contribution goes to construction industry as the data reveals that Construction is responsible for 40% of the total world flows of raw materials such as sand, gravel& clay. It takes one quarter of all virgin wood, 40% of energy use,16% of water withdrawals,& produces 17% of all waste generated. This problems can be tackle efficiently it the waste generated by industries can be reuse for the purpose of making construction material. With little logic and application of basic science the new material that can be made by mixing waste may prove energy efficient if its thermal resistivity is enhanced and utilized. The research over here is a paradigm of such two waste mix building component with high thermal resistive property. The paper is about the making and testing of waste mix tiles and filler blocks so as to find its efficiency in construction practices. The results obtained shows that by adopting such materials for construction purpose will reduce amount of operations energy consumption as well as reduce consumption of non – renewable resources and would help to utilize waste in fruitful way. The effort in this research are thus to find energy efficient construction material.

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Periodical:

Key Engineering Materials (Volume 678)

Pages:

35-49

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.678.35

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Online since:

February 2016

Authors:

Abhinandan R. Gupta, S.K. Deshmukh

Keywords:

Efficient, Filler Blocks, Operational Energy, Paper Pulp, Waste Mix Tiles

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References

[1] Joshua O. Miluwi , 2014 , Sustainable Development In The 21st Century : Conditions , Principles And Issues, , Indian Journal Of Environmental Protection , Vol. 34 No. 10 , pp.827-837.

Google Scholar

[2] A. Mitra , 2012 , Sustainable Infrastructure Planning, Development And Construction, , Role Of Infrastructure For Sustainable Development , IIT Roorkee National Convention Proceedings. pp.111-116.

Google Scholar

[3] A. Kumar ,P.S. Chani & R. Deoliya, 2012 , Comparative analysis of building sustainability assessment tools and identifying key attributes for green retrofits., , Role of Infrastructure for sustainable development , IIT Roorkee National Convention proceedings. pp.200-220.

Google Scholar

[4] Swati Gupta, 2011, Green Rating For Habitat, , 2014 , Civil Engineering And Construction Review , Volume 27, Issue 3 , pp.66-68.

Google Scholar

[5] Anu Singh , 2012 , Evaluation of an Institutional Building using GRIHA tool : Case study of IIT Roorkee., , Role of Infrastructure for sustainable development , IIT Roorkee National Convention proceedings . p.221.

DOI: 10.18552/2019/idscmt5151

Google Scholar

[6] Dr.R. Kuberan, 2014 , Eco-Friendly Elements In A Green Building, , Sustainable Construction Special Edition - Civil Engineering And Construction Review , Volume 27, Issue 3, pp.69-71.

Google Scholar

[7] Dhiman Chakraborty , 2012, Sustainable Construction : An Approach Using CEEF Building Technology, , SDUA Proceedings , pp.84-90.

Google Scholar

[8] Mohd. Nadeem , 2013, Alternative Building Material & Techniques – A Way Of Sustainable Construction By Ambuja Cement, Sustainable Development Of Urban Infrastructure , National Conference Proceedings , pp.91-100.

Google Scholar

[9] Dr. K. M Soni, 2014'Cool Roof-A Green Concept', Sustainable Construction Special Edition - Civil Engineering And Construction Review , Volume 27, Issue 3, pp.76-77.

Google Scholar

[10] L& T construction, 2012, Standing Tall As A Gift, , ECC Concord , Volume -35, Issue 3 , pp.60-65.

Google Scholar

[11] INSWAREB, 2014 , Press Release , 'Research On No Aggregate Concrete / Nano Concrete (NAC) The Indian Concrete Journal , Future Concrete Special Issue , Vol. 88, No. 4 . p.14.

Google Scholar

[12] Dr. R. Kuberan , Neetu Wali , 2010 , 'Soccer City Stadium : The Largest Glass Fiber Reinforced Concrete Structure, Civil Engineering And Construction Review , pp.28-35.

Google Scholar

[13] S.S. Umbarkar , B.S. Manjare , P.B. Deshbhratar , I. M . Daberao , 2013 , The Application Of Remote Sensing And GIS Technologies For Comprehensive Waste Water Management And Change Detection Of Nagpur City, Maharashtra , India., , Water Shed Management For Sustainable Development WMSD , National Conference Proceedings , p.13.

Google Scholar