International Journal of Sustainable and Green Energy

| Peer-Reviewed |

An Approach towards Sustainable Energy Performance by Green Building: A Review of Current Features, Benefits and Barriers

Received: 01 July 2013    Accepted:     Published: 20 August 2013
Views:       Downloads:

Share This Article

Abstract

Buildings are estimated to account for more than a third of the world’s resources in construction, 40 percent of global energy (including embodied energy), 12 percent of fresh water use, and generate 40 percent of greenhouse gases (GHGs) emissions and make up 40 percent of waste to landfill. The worldwide concerns for the impending resource crunch and the dangers of global warming, and the understanding of the role that buildings can play to contribute positively to the economy, energy security, human health and the environment have led to a quiet green building revolution around the globe over the last decade. Energy plays a vital role over the life cycle of a building, hence sustainable buildings and energy refurbishments in buildings hold enormous potential for energy saving and a reduction of greenhouse gas emissions. The main target of this paper is to find out the effectiveness and sustainability in green building design implementations which evaluates energy performances. In addition, the paper explains the key feature of the green building as well as its usefulness, current challenges and barriers.

DOI 10.11648/j.ijrse.20130204.18
Published in International Journal of Sustainable and Green Energy (Volume 2, Issue 4, July 2013)
Page(s) 180-190
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Green Buildings, Sustainable Energy Performance, Renewable Energy, Energy Efficiency, GHG Emission

References
[1] IPCC, Climate Change (2007). Mitigation of climate change. "Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change", Cambridge University Press, Cambridge, New York, 2007
[2] WBCSD, "Energy efficiency in buildings: Transforming the market", World Business Council for Sustainable Development, Geneva, 2008
[3] IEA (International Energy Agency), "World Energy Outlook 2008: Global Energy Trends to 2030, Chapter 8" – Energy use in cities, OECD/IEA Publication, 2008
[4] WBCSD, "Energy efficiency in buildings: transforming the market", World Business Council for Sustainable Development, Geneva, 2011
[5] McKinsey & Company, "Pathways to a Low-Carbon Economy", Version 2 of the Global Greenhouse Gas Abatement Cost Curve, 2009
[6] L. Starke, "State of the World – Our Urban Future", Chapter 5: Energizing cities, 24th Edition, Earthscan, Worldwatch Institute, 2007
[7] M. Betts and S. Farrell, "Global construction 2020: A global forecast for the construction industry over the next decade", Global Construction Perspectives and Oxford Economics, London, 2009
[8] IEA (International Energy Agency), "Energy performance certification of buildings", OECD/IEA Publication, 2010
[9] UNEP (United Nations Environmental Programme), "Buildings and climate change, status, challenges and opportunities", UNEP Publication ISBN:9280727958, 2007
[10] A. Mwasha, R.G. Williams, J. Iwaro, "Modeling the performance of residential building envelope: The role of sustainable energy performance indicators", Energy and Buildings, vol 43(9), pp. 2108–17, 2011
[11] A. Joelsson A, L. Gustavsson, "District heating and energy efficiency in detached houses of differing size and construction" Applied Energy, vol 86(2), pp.126–34, 2009
[12] COAG (Council of Australian Governments). "National Strategy on Energy Efficiency". Canberra, 2009
[13] McKinsey & Company, "Pathways to a Low-Carbon Economy, Version 2 of the Global Greenhouse Gas Abatement Cost Curve", 2009
[14] B. Mohanty. "Green Buildings: Features, Technologies and Policies", Hand-out for the Course ED729020: Rational Use of Energy in Buildings August Semester 2011
[15] C. Thormark, "The effect of material choice on the total energy need and recycling potential of a building. Building and Environment", vol 41 (8), pp. 1019-1026, 2006
[16] UNEP (United Nations Environmental Programme). "Green Economy: Pathways to Sustainable Development and Poverty Eradication", Advance copy online release, accessed on 19 October 2011, http://www.unep.org/GreenEconomy/Portals/93/documents/Full_GER_screen.pdf
[17] A. Ghaffarian Hoseini, R. Ibrahim, MN. Baharuddin, "Creating green culturally responsive intelligent buildings: Socio-cultural and environmental influences", Intelligent Buildings International, vol 3(1), pp. 5–23, 2011
[18] N.W. Alnaser, R Flanagan, WE Alnaser. "Model for calculating the sustainable building index (SBI) in the kingdom of Bahrain". Energy and Buildings, vol 40, pp. 2037–43, 2008
[19] N. Aste, R.S. Adhikari, M. Buzzetti, "Beyond the EPBD: The low energy residential settlement Borgo Solare". Applied Energy, vol 87, pp. 629–42, 2010
[20] N. Aste, C.D. Pero, "Impact of domestic and tertiary buildings heating by natural gas in the Italian context". Energy Policy, vol 47, pp. 164–71, 2012
[21] C. Kibert, "Sustainable Construction: Green Building Design and Delivery" New Jersey: John Willey & Sons, Inc; 2007.
[22] G.K.C. Ding. "Sustainable construction - The role of environmental assessment tools". Journal of Environmental Management, vol 86, pp. 451–64, 2008
[23] G. John, D. Clements-Croome, G. Jeronimidis. "Sustainable building solutions: a review of lessons from the natural world. Building and Environment", vol 40, pp. 319–28, 2005
[24] S. Wang S, C. Yan C, F. Xiao F. "Quantitative Energy Performance Assessment Methods for Existing Buildings". Energy and Buildings, vol 55, pp. 873–88, 2012
[25] Y. Juan, P. Gao, J. Wang, "A hybrid decision support system for sustainable office building renovation and energy performance improvement", Energy and Buildings, vol 42, pp. 290–7, 2010
[26] A.M. Omer, "Energy, environment and sustainable development. Renewable and Sustainable Energy Reviews", vol 12(9), pp. 2265–300, 2008
[27] D. Chwieduk, "Towards sustainable-energy buildings", Applied Energy, vol 76, pp. 211–7, 2002
[28] M. Qaem, G. Heravi, "Sustainable Energy Performance Indicators of Green Building in Developing Countries". Construction Research Congress 2012 © ASCE, US 2012:1961–70
[29] L.L. Kazmerski, "Solar Photovoltaic Technology: No Longer an Outlier", Comprehensive Renewable Energy, pp. 13–30, 2012
[30] R. Kumar, S.C. Kaushik. "Performance evaluation of green roof and shading for thermal protection of buildings". Building and Environment 2005, vol 40, pp. 1505–11, 2005.
[31] I. Jaffal, S. Ouldboukhitine, R. Belarbi. "A comprehensive study of the impact of green roofs on building energy performance". Renewable Energy, vol 43, pp. 157–64, 2012
[32] L. Shi, M.Y.L. Chew. A review on sustainable design of renewable energy systems. Renewable and Sustainable Energy Reviews, vol 16, pp. 192–207, 2012
[33] A. GhaffarianHoseini, "Ecologically sustainable design (ESD): theories, implementations and challenges towards intelligent building design development", Intelligent Buildings International, vol 4(1), pp. 34–48, 2012
[34] S. Fazlic, "Design strategies for environmentally sustainable residential skyscrapers". CTBUH 8th world congress, Dubai, 2008; 1–11
[35] Wen Hong et al. (2007). Building energy efficiency: why green buildings are key to Asia’s future, Edited by Margarethe P. Laurenzi, The Asia Business Council
[36] Carbon Trust (2005). The UK Climate Change Programme: potential evolution for business and the public sector. Technical Report
[37] C. Kornevall, "Green Week Asia – not so green"; http://wbcsd.typepad.com/eeb/2007/11/last-week-took-.html, November 2007
[38] J. Clerk Maxwell, "A Treatise on Electricity and Magnetism", 3rd ed., vol. 2. Oxford: Clarendon, 1892, pp.68–73.
Author Information
  • Dept. of EEE, University of Asia Pacific (UAP), Dhaka, Bangladesh

  • Dept. of EEE, American International University-Bangladesh (AIUB), Dhaka, Bangladesh

  • Dept. of EEE, Primeasia University, Dhaka, Bangladesh

Cite This Article
  • APA Style

    Molla Shahadat Hossain Lipu, Taskin Jamal, Tahia Fahrin Karim. (2013). An Approach towards Sustainable Energy Performance by Green Building: A Review of Current Features, Benefits and Barriers. International Journal of Sustainable and Green Energy, 2(4), 180-190. https://doi.org/10.11648/j.ijrse.20130204.18

    Copy | Download

    ACS Style

    Molla Shahadat Hossain Lipu; Taskin Jamal; Tahia Fahrin Karim. An Approach towards Sustainable Energy Performance by Green Building: A Review of Current Features, Benefits and Barriers. Int. J. Sustain. Green Energy 2013, 2(4), 180-190. doi: 10.11648/j.ijrse.20130204.18

    Copy | Download

    AMA Style

    Molla Shahadat Hossain Lipu, Taskin Jamal, Tahia Fahrin Karim. An Approach towards Sustainable Energy Performance by Green Building: A Review of Current Features, Benefits and Barriers. Int J Sustain Green Energy. 2013;2(4):180-190. doi: 10.11648/j.ijrse.20130204.18

    Copy | Download

  • @article{10.11648/j.ijrse.20130204.18,
      author = {Molla Shahadat Hossain Lipu and Taskin Jamal and Tahia Fahrin Karim},
      title = {An Approach towards Sustainable Energy Performance by Green Building: A Review of Current Features, Benefits and Barriers},
      journal = {International Journal of Sustainable and Green Energy},
      volume = {2},
      number = {4},
      pages = {180-190},
      doi = {10.11648/j.ijrse.20130204.18},
      url = {https://doi.org/10.11648/j.ijrse.20130204.18},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijrse.20130204.18},
      abstract = {Buildings are estimated to account for more than a third of the world’s resources in construction, 40 percent of global energy (including embodied energy), 12 percent of fresh water use, and generate 40 percent of greenhouse gases (GHGs) emissions and make up 40 percent of waste to landfill. The worldwide concerns for the impending resource crunch  and the dangers of global warming, and the understanding of the role that buildings can play to contribute positively to the economy, energy security, human health and the environment have led to a quiet green building revolution around the globe over the last decade. Energy plays a vital role over the life cycle of a building, hence sustainable buildings and energy refurbishments in buildings hold enormous potential for energy saving and a reduction of greenhouse gas emissions. The main target of this paper is to find out the effectiveness and sustainability in green building design implementations which evaluates energy performances. In addition, the paper explains the key feature of the green building as well as its usefulness, current challenges and barriers.},
     year = {2013}
    }
    

    Copy | Download

  • TY  - JOUR
    T1  - An Approach towards Sustainable Energy Performance by Green Building: A Review of Current Features, Benefits and Barriers
    AU  - Molla Shahadat Hossain Lipu
    AU  - Taskin Jamal
    AU  - Tahia Fahrin Karim
    Y1  - 2013/08/20
    PY  - 2013
    N1  - https://doi.org/10.11648/j.ijrse.20130204.18
    DO  - 10.11648/j.ijrse.20130204.18
    T2  - International Journal of Sustainable and Green Energy
    JF  - International Journal of Sustainable and Green Energy
    JO  - International Journal of Sustainable and Green Energy
    SP  - 180
    EP  - 190
    PB  - Science Publishing Group
    SN  - 2575-1549
    UR  - https://doi.org/10.11648/j.ijrse.20130204.18
    AB  - Buildings are estimated to account for more than a third of the world’s resources in construction, 40 percent of global energy (including embodied energy), 12 percent of fresh water use, and generate 40 percent of greenhouse gases (GHGs) emissions and make up 40 percent of waste to landfill. The worldwide concerns for the impending resource crunch  and the dangers of global warming, and the understanding of the role that buildings can play to contribute positively to the economy, energy security, human health and the environment have led to a quiet green building revolution around the globe over the last decade. Energy plays a vital role over the life cycle of a building, hence sustainable buildings and energy refurbishments in buildings hold enormous potential for energy saving and a reduction of greenhouse gas emissions. The main target of this paper is to find out the effectiveness and sustainability in green building design implementations which evaluates energy performances. In addition, the paper explains the key feature of the green building as well as its usefulness, current challenges and barriers.
    VL  - 2
    IS  - 4
    ER  - 

    Copy | Download

  • Sections