Orientation for sustainable architectural development in Vietnam – an evolution of strategies

Haupt, Patrycja; Quan, Le; Chien-Thang, Le; Pham, Nicolas; Fedorczak-Cisak, Małgorzata

doi:10.37705/TechTrans/e2024016

Artykuł - szczegóły

Tytuł artykułu

Orientation for sustainable architectural development in Vietnam – an evolution of strategies

Autorzy

Haupt Patrycja , Quan Le , Chien-Thang Le , Pham Nicolas , Fedorczak-Cisak Małgorzata

Wybrane pełne teksty z tego czasopisma

Identyfikatory

DOI

10.37705/TechTrans/e2024016

Warianty tytułu

Języki publikacji

Abstrakty

The evolution of sustainable architectural development in Vietnam demonstrates a strategic response to climate change and environmental challenges. The Vietnamese government has implemented key policies, including the establishment of the Department of Environment in 1990 and the Law on Environmental Protection in 1993. Regulations such as QCXDVN 09:2005 and QCVN 09:2017/BXD emphasize energy-efficient construction. At COP26, Vietnam pledged to achieve net zero emissions by 2050 and is actively participating in a fair energy transition partnership (JETP) with G7 countries. To support these goals, Vietnam has developed green building evaluation systems like LEED, EDGE, and LOTUS, promoting renewable energy use and resource-efficient materials. This paper presents the guidelines for the new-built objects to meet the sustainability requirements based on case studies. This proactive approach not only addresses environmental concerns but also fosters economic growth and sustainable urban development.

Słowa kluczowe

architectural sustainable development guidelines green architecture sustainability development standards

zrównoważony rozwój architektoniczny architektura zielona wytyczne standardy rozwój zrównoważony

Wydawca

Wydawnictwo Politechniki Krakowskiej im. Tadeusza Kościuszki

Czasopismo

Technical Transactions

Rocznik

2024

Tom

Vol. 121, iss. 1

Strony

art. no. e2024016

Opis fizyczny

Bibliogr. 31 poz., il., tab., wykr.

Twórcy

autor

Haupt Patrycja

phaupt@pk.edu.pl

Cracow University of Technology, Faculty of Architecture

https://orcid.org/0000-0001-5595-9612

autor

Quan Le

lequan@hau.edu.vn

Hanoi Architectural University

https://orcid.org/0009-0002-9787-2464

autor

Chien-Thang Le

lethang.ird@gmail.com

Hanoi Architectural University

https://orcid.org/0000-0001-8962-030X

autor

Pham Nicolas

nicolas.pham@versailles.archi.fr

Ecole Nationale, Supérieure d'Architecture, Versailles

https://orcid.org/0000-0001-9827-0524

autor

Fedorczak-Cisak Małgorzata

mporanna@wp.pl

Cracow University of Technology, Faculty of Architecture, MCBE

https://orcid.org/0000-0003-1125-4068

Bibliografia

1. Akbari, H., Kolb, C. (2005). The Effects of Trees and Vegetation on Urban Heat Islands. Environmental Pollution 138(1), 55–65.
2. Anh, L.V., Minh, P.T. (2020). The Role of Traditional Materials in Contemporary Vietnamese Architecture. Sustainable Architecture and Building Materials Journal 6(3), 78–89.
3. Climate Action Tracker. Retrieved from https://climateactiontracker.org/countries/vietnam (access: 01.07.2024).
4. European Commission (2021). The European Green Deal.
5. Givoni, B. (1998). Climate Considerations in Building and Urban Design. Van Nostrand Reinhold.
6. Gordon, C., Gordon A.L. (2020). Vietnam’s Approach to Sustainable Development and Climate Change Mitigation. Journal of Sustainable Development 13(3), 67–89.
7. Government of Vietnam (1993). Law on Environmental Protection.
8. Hoang Thi Thu, H., Dang Kinh, B., Van Rompaey, A. (2022). Comprehensive assessment of coastal tourism potential in Vietnam. Vietnam Journal of Earth Sciences 44(4), 535–558. https://doi.org/10.15625/2615-9783/17374
9. Jim, C.Y., Chen, W.Y. (2009). Assessing the Benefits and Functions of Urban Trees in the Context of Environmental Management. Urban Forestry & Urban Greening 8(2), 155–167.
10. Le, T.P. (2019). Vietnamese Architecture and Urbanism. Hanoi Architectural Publishing House.
11. Lee, E.S., Lee S.H. (2015). Design and Performance Analysis of Sunshades for Improving Building Energy Efficiency. Energy and Buildings 85, 243–255.
12. Li, D.H. W., Lam, J.C. (2007). Cooling Potential of Radiant Surfaces in Buildings. Building and Environment 42(6), 2235–2245.
13. Logan, W.S. (2000). Hanoi: Biography of a City. University of Washington Press.
14. Miller, R. (2016). Architectural Science Review: Sunshades and Their Effect on Building Thermal Performance. Cambridge University Press.
15. Moudon, A.V. (2021). Vertical vs. Horizontal Sunshades: Comparative Study and Recommendations. Journal of Architectural Science Review 64(2), 95–108.
16. Mousazadeh, H., Sharifi, S. (2016). Optimizing Solar Thermal Systems for Building Applications. Building and Environment 109, 111–123.
17. Nguyen, H.C. (2010). The Impact of French Colonial Rule on Vietnamese Urban Planning and Architecture. Urban Studies Journal 47(7), 1497–1516.
18. Nguyen, K.Q. (2022). The Challenge of Energy Transition in Vietnam: Balancing Economic Growth and Environmental Sustainability. Energy Policy 156, 112433.
19. Nguyen, L.H., Pham, T.P. (2019). Climatic Adaptation in Traditional Vietnamese Architecture: A Study of Housing in Different Regions. Journal of Asian Architecture and Building Engineering 18(1), 67–74.
20. Nguyen, L.H., Pham, T.P. (2021). Thermal Management in Buildings: Techniques and Materials for Effective Cooling. Journal of Building Performance 12(3), 45–58.
21. Nowak, D.J., Nowak D.E. (2000). The Effects of Urban Trees on Air Quality. Urban Ecosystems 4(3), 257–272.
22. Olivier, J.G.J., Peters, J.A.H.W. (2022). Trends in Global CO2 and Greenhouse Gas Emissions: 2022 Report. PBL Netherlands Environmental Assessment Agency.
23. Olsen, D. (2013). Sustainable Building Design: Principles and Practice. Routledge.
24. Pham, D.H., Tran, Q.A. (2018). Vernacular Architecture in Vietnam: Adaptation to Climate and Culture. Sustainable Cities and Society 38, 82–93.
25. Pham, T.H., Le, T.N. (2019). Green Building Practices in Vietnam: Implementation and Challenges. Building and Environment 150, 365–373.
26. Sopian, K., Othman, M. (2021). Integration of Solar Thermal and Photovoltaic Systems in Building Designs. Journal of Building Performance 12(4), 13–25.
27. Tran, Q. (2017). Traditional Vietnamese Architecture: From Houses to Palaces. Journal of Vietnamese Studies 12(1), 25–46.
28. Tzempelikos, A., M.J. (2007). Radiant Cooling and Heating Systems for Buildings. Energy and Buildings 39(6), 654–664.
29. Vietnam Association of Architects. (2021). Green Architectural Design System.
30. Vo, Q. (2014). French Colonial Architecture in Vietnam. Journal of Southeast Asian Studies 45(2), 326–348.
31. Wang, L., Wang W.B. (2012). Cooling Effects of Urban Trees and Green Roofs in Hot Climates. Building and Environment 58, 102–110.

Uwagi

1. Section "Architecture and Urban Planning"

2. Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki (2025).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-98d0deff-1a5e-43fc-a093-4bf64ff2a930