Home
 > 
ijudd
 > 
Review Article
Subscription Review Article

Literature of Green Architecture

by 
   Vikas Bhola,
Volume :  02 | Issue :  01 | Received :  February 20, 2024 | Accepted :  April 1, 2024 | Published :  April 19, 2024
DOI :  10.37591/IJUDD

[This article belongs to International Journal of Urban Design and Development(ijudd)]

Keywords

Green architecture, Building, Environment, Materials

Abstract

Green architecture, or sustainable building, is a concept that focuses on designing and constructing structures that align with environmentally conscious principles. It aims to limit resource consumption, reduce environmental impact, and minimize waste from building components. Green design requires resources like electricity, fresh material, and water, but also generates significant amounts of waste. To create environmentally sustainable and resource-efficient structures, it is crucial to implement green building systems. This review paper examines the concept of green architecture and emphasizes the need for incorporating environmentally friendly building practices and materials to achieve environmental and climate-related advantages. By implementing green building systems, we can create more sustainable and environmentally friendly buildings.

Full Text

References

  1. “Burcu, G., 2015, “Sustainability Education by Sustainable School Design” Dokuz Eylul University, Department of Architecture, Turkey Procedia-Social and Behavioral Sciences 186 ( 2015 ) 868–873.
  2. Qiao, R.; Liu, T. Impact of building greening on building energy consumption: A quantitative computational approach. J. Clean. Prod. 2020, 246, 119020.
  3. Dwaikat, L.N.; Ali, K.N. Green buildings life cycle cost analysis and life cycle budget development: Practical applications. J. Build. Eng. 2018, 18, 303–311.
  4. Goh, B.H.; Sun, Y. The development of life-cycle costing for buildings. Build Res. Inf. 2016, 44, 319–333.
  5. Addy, M.; Adinyira, E.; Danku, J.C.; Dadzoe, F. Impediments to the development of the green building market in sub-Saharan Africa: The case of Ghana. Smart Sustain. Built Environ. 2020, 10, 193–207.
  6. Asman, G.E.; Kissi, E.; Agyekum, K.; Baiden, B.K.; Badu, E. Critical components of environmentally sustainable buildings design practices of office buildings in Ghana. J. Build. Eng. 2019, 26, 100925.
  7. Balaban, O.; Puppim de Oliveira, J.A. Sustainable buildings for healthier cities: Assessing the co-benefits of green buildings in Japan. J. Clean. Prod. 2017, 163, S68–S78.
  8. Chen, Y.; Thomas Ng, S. Factoring in embodied GHG emissions when assessing the environmental performance of building. Sustain. Cities Soc. 2016, 27, 244–252.
  9. Chi, B.; Lu, W.; Ye, M.; Bao, Z.; Zhang, X. Construction waste minimization in green building: A comparative analysis of LEED-NC 2009 certified projects in the US and China. J. Clean. Prod. 2020, 256, 120749.
  10. Cullen, Howe, 2010, “Overview of Green Buildings”, http://epa.gov/greenbuildings/pubs/gbstats.
  11. Darko, A.; Chan, A.P.C. Critical analysis of green building research trend in construction journals. Habitat Int. 2016, 57, 53–63.
  12. Du Plessis, C. Sustainable development demands dialogue between developed and developing worlds. Build. Res. Inf. 2010, 27, 378–389.
  13. Dwaikat, L.N.; Ali, K.N. The economic benefits of a green building—Evidence from Malaysia. J. Build. Eng. 2018, 18, 448–453.
  14. Ghaffarianhoseini, A.; Dahlan, N.D.; Berardi, U., Sustainable energy performances of green buildings: A review of current theories, implementations and challenges. Renew. Sustain. Energy Rev. 2013, 25, 1–17.
  15. Kats, Gregory H.2006, “Greening America’s Schools Costs and Benefits,” Capital E.
  16. Li, Y.; Song, H.; Sang, P.; Chen, P.H.; Liu, X. Review of Critical Success Factors (CSFs) for green building projects. Build. Environ. 2019, 158, 182–191.
  17. Li, Y.; Yang, L.; He, B.; Zhao, D. Green building in China: Needs great promotion. Sustain. Cities Soc. 2014, 11, 1–6.
  18. NAOHB, 1998, National Association of Home Builders, “Deconstruction: Building Disassembly and Material Salvage”.
  19. Nguyen, H.-T.; Gray, M. A Review on Green Building in Vietnam. Procedia Eng. 2016, 142, 314–321.
  20. Roy Madhumita, 2008, Dept. Of architecture, Jadavpur university, Kolkata, India, “Importance of green architecture today”
  21. Sandanayake, M.; Zhang, G.; Setunge, S. Impediments affecting a comprehensive emission assessment at the construction stage of a building. Int. J. Constr. Manag. 2022, 22, 453–463.
  22. Sun, C.; Li, Z.; Li, X. Research on Green Building Incremental Cost Optimization. IOP Conf. Ser. Earth Environ. Sci. 2019, 267, 052040.
  23. Thomas Rettenwender, 2009, M.A., Mag. Arch., LEED AP, Architect and Niklas Spitz Monterey Peninsula College INTD62 Spring 2009” The Principles of Green Building Design” Spring 2009.
  24. USGBC, 2002, U.S. Green Building Council, Building Momentum: “National Trends and Prospects for High-Performance Green Buildings,” Prepared for the U.S. Senate Subcommittee on Environmental and Public Works by the U.S. Green Building Council, November 2002.
  25. Wuni, I.Y.; Shen, G.Q.P.; Osei-Kyei, R. Scientometric review of global research trends on green buildings in construction journals from 1992 to 2018. Energy Build. 2019, 190, 69–85.
  26. Xie, B.C.; Zhai, J.X.; Sun, P.C.; Ma, J.J. Assessment of energy and emission performance of a green scientific research building in Beijing, China. Energy Build. 2020, 224, 110248.
  27. Yadegaridehkordi, E.; Hourmand, M.; Nilashi, M.; Alsolami, E.; Samad, S.; Mahmoud, M.; Alarood, A.A.; Zainol, A.; Majeed, H.D.; Shuib, L. Assessment of sustainability indicators for green building manufacturing using fuzzy multi-criteria decision making approach. J. Clean. Prod. 2020, 277, 122905.
  28. Yas, Z.; Jaafer, K. Factors influencing the spread of green building projects in the UAE. J. Build. Eng. 2020, 27, 100894.
  29. Zuo, J.; Zhao, Z.Y. Green building research-current status and future agenda: A review. Renew. Sustain. Energy Rev. 2014, 30, 271–281.