Analysis of a Green Sustainable Energy efficient Structure : A Review

Authors

  • Abu Waqas P.G. Scholar, Department of Civil Engineering, Infinity Management and Engineering College, Sagar, Madhya Pradesh, India Author
  • Pratiksha Malviya Assistant Professor and HOD, Department of Civil Engineering, Infinity Management and Engineering College, Sagar, Madhya Pradesh, India Author
  • Nitesh Kushwaha Assistant Professor, Department of Civil Engineering, Infinity Management and Engineering College, Sagar, Madhya Pradesh, India Author

Keywords:

ETABS, Structural Analysis, Energy Efficiency, Low Carbon, Building, Environment

Abstract

Minimizing energy consumption in buildings has become an important goal in architecture and urban planning in recent years. Guidelines were developed for each climatic zone aiming at increasing solar exposure for buildings in cold climates and at reducing solar exposure for buildings in hot climates. This approach usually plans for the season with the harshest weather; often forgetting that temperatures in cities at latitude 25° can drop below thermal comfort limits in winter and that temperatures in cities at latitude 48° often rise above thermal comfort limits in summer. This study argues that a holistic approach to energy efficient building forms is needed. It demonstrates a generic energy efficient building form derived by glass walls at exterior and composite wall at the interior. In this paper we are also presenting past researches done related to green susutainable building and energy efficiency concept.              

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References

M. Venkataraj and Helen santhi, “seismic performance of flyashed concrete building

with flyash brick and burnt clay brick masonry infill”, International Journal of Advances in Mechanical and Civil Engineering, ISSN: 2394-2827, Volume-2, Issue-1, Feb.-2015, pp 29-33.

Chandra Shekhar Singh, “Green Construction: Analysis on Green and

Sustainable Building Techniques”, Civil engineering research journal, ISSN 2575:8950, Vol.4 Issue 3, 2018, pp. 1-8.

R. Dwiwedi and A.K. Jain, “The Evaluation of Building Materials in Terms of Energy Efficiency”, Periodica Polytechnica Civil Engineering, ISSN 54, Vol. 59, 2014, pp. 45-58.

José Sanches. “Analysis and Design of Structural Glass Systems”, Instituto Superior Técnico, Technical University of Lisbon, ISSN 2543, 2013, pp 01-11.

Pacheco Qian and Seong W. Lee, “The Design and Analysis of Energy Efficient Building

Envelopes for the Commercial Buildings by Mixedlevel Factorial Design and Statistical Methods”, Research Gate, 2012, pp. 23-32.

Khudhair, A. M. and Farid, M. M., 2004. A review on energy conservation in building applications with thermal storage by latent heat using phase change materials, Energy Conversion and Management, vol.45, no. 2, 263-275.

Seomus Tavares and George martins “Melting and solidification in multi-dimensional geometry and presence of more than one interface”, Energy Conversion and Management, vol.39, no. 8, 2007, pp.809-818.

Crawley, D.B.; Hand, J.; Kummert, M.; Griffith, B.T. Contrasting the capabilities of building energy performance simulation programs. Build. Environ. 2008, Vol, 43,pp. 661–673.

Kuznik, F.; Danny, D.; Johannes, K.; Roux, J.-J. A review on phase change materials integrated in building walls. Renew. Sustain. Energy Rev. 2010, 15, 379–391.

Rosa M., and Wheatley Christensen, “Building simulation as an assisting tool in designing

an energy efficient building: A case study. In Proceedings of the Integrated Environment Solutions limited, Eleventh International IBPSA Conference, Glasgow, Scotland,July 2011, pp 27-30.

Maile, T.; Frauke r, M.; Bazjanac, V. Building Energy Performance Simulation Tools—A Life-Cycle and Interoperable Perspective; CIFE Working Paper #WP107; Stanford University: Stanford, CA, USA, 2011.

Hyunjoo Kim, Zhang, G.; Zhou, J.; Xu, F. The Influence of Wall’s Insulation Thickness to Building Energy Consumption. In Proceedings of the International Conference on Mechanic Automation and Control Engineering (MACE), Wuhan, China, 26–28 June 2011; pp. 4241–4244

Parisio, D. Varagnolo, D. Risberg, G. Pattarello, M. Molinari, and K. H. Johansson, “Randomized Model Predictive Control for HVAC Systems,” in Proceedings of the 5th ACM Workshop on Embedded Systems For Energy-Efficient Buildings, 2012.

Kaushik and Basha, “Underfloor heating with latent heat storage” Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, vol.2015, no. 5, 601-609.

Khajeh mohammad, M., Mortazavi, S.M., Mallekpour, S. and Bidoki, S.M. ‘‘The effect of nano- and micro-TiO2 particles on reflective behavior of printed cotton/nylon in Vis/NIR regions’’, Color Res. Appl.,2015. pp. 1–7.

Mehrotra, Naji Givi , Suraya Abdul Rashid, “High-Performance, High-Volume Fly Ash Concrete For sustainable Development”, International Workshop On Sustainable Development And Concrete Technology, May 2017, Beijing, China.

Saha and Sarker, HighPerformance, High-Volume Fly Ash Concrete. Supplementary Cementing Materials for Sustainable Development, Inc., Ottawa, Canada, 2017, pp. 101-112.

Klarin Gao Yingli, The effect of fly ash on the fluidity of cement paste, mortar, and concrete, International Workshop On Sustainable Development And Concrete Technology, May 2018, pp. 23-34.

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Published

06-05-2019

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Section

Research Articles

How to Cite

Waqas, A., Malviya, P., & Kushwaha, N. (2019). Analysis of a Green Sustainable Energy efficient Structure : A Review . International Journal of Scientific Research in Civil Engineering, 3(3), 13-19. https://ijsrce.com/index.php/home/article/view/IJSRCE19333

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