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[국내논문] Building Integrated Vegetation Systems into the New Sainsbury's Building Based on BIM 원문보기

Journal of KIBIM = 한국BIM학회논문집, v.4 no.2, 2014년, pp.25 - 32  

Lee, Dong-Kyu (현대건설 연구개발 본부 그린도시연구팀)

Abstract AI-Helper 아이콘AI-Helper

Today, there is a growing need of environment-friendly buildings, so-called 'green', facilities, and energy saving buildings to decrease environmental pollutants released into cities by construction activities. Green-Building Information Modeling (Green-BIM) is a purpose-built solution which support...

주제어

#BIV (Building Integrated Vegetation)   #BIM (Building Information Modeling)   #BGD (Blue Green Dream) Project  

AI 본문요약
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제안 방법

  • In terms of the energy consumption aspects of this project, future work is be required to fully assess a cost-benefit analysis and compare these data with the initial cost of investment to measure the payback time and calculate the future cost and benefit of using BIV system. This study will certainly help to guide decision-making processes involved throughout the life cycle of a building.
  • Also, as shown Figure 3-4, green roof systems were set from green roof layers of other literatures. This study primarily analyzed data from (1) solar radiation, (2) heat gains and losses, and (3) heating and cooling loads simulation to evaluate thermal performance of the building integrated with vegetation system or conventionally available envelops.

이론/모형

  • Layers of green wall and green roof were created also using Autodesk® Ecotect®. Similar with the simulation model of a climber covering wall created by Holm et al (26)in 1989, green wall consisting of three different elements; including leaves, stems and air gaps, were used in this study. Figure 3-4 shows the horizontal cross-section of the green wall system used for simulation.
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참고문헌 (41)

  1. Bass B BB. Evaluating rooftop and vertical gardens as an adaptation strategy for urban areas. Ottawa, Canada: National Research Council: Institute for Research and Construction. Report number: NRCC-46737, Project number A020, CCAF report B1046; 2003. 

  2. Apeksha Gupta, Matthew R. Hall, Christina J. Hopfe, Yacine Rezgui. BUILDING INTEGRATED VEGETATION AS AN ENERGY CONSERVATIONMEASURE APPLIED TO NON-DOMESTIC BUILDING TYPOLOGY IN THE UK. 14-16 November, 2011. 12th Conference of International Building Performance Simulation Association. 

  3. van Nederveen GA, Tolman FP. Modelling multiple views on buildings. Automation in Construction 1992;1(3) 

    상세보기

  4. LaiserinLetter(TM). Graphisoft on BIM. 2003. 

  5. National Building Information Model Standard Project Committee. National BIM Standard. 

  6. WILLMOTT DIXON. The Impacts of Construction and the Built Environment. 2010. 

  7. Rusell, T, Cutler, C, & Walters, M. Trees of the world. London: Lorenzo books; 2003. 

  8. Dunnett, N. P. & Kingsbury, N. Green Roofs and Living Walls. 2004 (Timber Press, Portland, Oregon). 

  9. KD Ewing. The Implications of Wilson and Palmer. 2003 (Industrial Law Journal) 

  10. Feng C, Meng Q, Zhang Y. Theoretical and experimental analysis of the energy balance of extensive green roofs. Energy and Buildings 2010;42(6) 

    상세보기

  11. Gary Grant, Luke Engleback and Barry Nicholson with contributions by Dusty Gedge, Mathew Frith, and Peter Harvey. Green Roofs: their existing status and potential for conserving biodiversity in urban areas. English Nature Research Reports. Report number: 498; 2003. 

  12. Eumorfopoulou E, Aravantinos D. The contribution of a planted roof to the thermal protection of buildings in Greece. Energy and Buildings 1998;27(1) 

    상세보기

  13. Powe NA, Willis KG. Mortality and morbidity benefits of air pollution (SO2 and PM10) absorption attributable to woodland in Britain. Journal of environmental management 2004;70(2) 

    상세보기

  14. Ottele M, Perini K, Fraaij ALA, Haas EM, Raiteri R. Comparative life cycle analysis for green facades and living wall systems. Energy and Buildings 2011;43(12) 

    상세보기

  15. Sternberg T, Viles H, Cathersides A, Edwards M. Dust particulate absorption by ivy (Hedera helix L) on historic walls in urban environments. Science of The Total Environment 2010;409(1) 

    상세보기

  16. Christina Koppe, Sari Kovats, Gerd Jendritzky, Bettina Menne. Health and global environmental change; Heat waves: Risks and Responses. Copenhagen: Energy, Environment and Sustainable Development, World Health Organization. Report number: Series No.2; 2004. 

  17. K.S White, Q.K Ahmad, O. Anisimovic, N. Arnell, S. Brown, M. Campos. Technical Summary, Climate Change 2001: Impacts, Adoption and Vulnerability. 2001 (United Nations' IIntergovernmental Panel on Climate Change (IPCC) Cambridge University Press, Cambridge) 

  18. Peck, H., Payne, A., Christopher, M. and Clark, M. Relationship Marketing: Strategy and Implementation. Oxford: Butterworth-Heinemann: ; 1999. 

  19. Alexandria E, Jones P. Temperature decreases in an urban canyon due to green walls and green roofs in diverse climates. Building and Environment 2008;43(4) 

    상세보기

  20. Santamouris M. The canyon effect. In: Santamouris M. (ed.) Energy and climate in the urban built environment London, UK: James and James Publishers; 2001. pp. 69-96. 

  21. McPherson EG. Preserving and restoring urban biodiversity: cooling urban heat islands with sustainable landscapes. In: Platt RH, Rowntree RA, Muick PC, editors. The ecological city. Amherst, US: University of Massachusetts Press. 1994. 

  22. Ministry of Economy Baden-Wurttemberg in Cooperation with Environmental Protection Department of Stuttgart. Climate booklet for urban development 2008. 

  23. [Online] Available from: www.clarkeassociates.cc/index.php?PageNamegr04.php. 

  24. NEWTON J, GEDGE D, WILSON S, EARLY P. Building Greneer An assessment of the use of green roofs, green walls and other features on and in buildings. CIRIA, London.: ; 2007. 

  25. Hoyano A. Climatological Uses of Plants for Solar Control and the Effects on the Thermal Environment of a Building. Energy and Buildings 1988;11(1-3) 

  26. Holm D. Thermal Improvement by Means of Leaf Cover on External Walls - a Simulation-Model. Energy and Buildings 1989;14(1) 

    상세보기

  27. Stec WJ, van Paassen AHC, Maziarz A. Modelling the double skin facade with plants. Energy and Buildings 2005;37(5) 

    상세보기

  28. MILLER A, IP K, SHAW K, LAM M. Vegetation on building facades: "Bioshader". 2007. 

  29. Papadakis G, Tsamis P, Kyritsis S. An experimental investigation of the effect of shading with plants for solar control of buildings. Energy and Buildings 2001;33(8) 

    상세보기

  30. [Online] Available from: http://www.gebaeudekuehlung.de/en_regenwasser.html. 

  31. DINSDALE S, PEAREN B, WILSON C. Feasibility Study for Green Roof Application on Queen's University Campus. Queen's Physical Plant Services: ; 2006. 

  32. Palomo Del Barrio E. Roof components models simplification via statistical linearisation and model reduction techniques. Energy and Buildings 1999;29(3) 

    상세보기

  33. D. Aravantinos, F. Psomas and N. Tsakiris. Experimental Test of the Temperature Fluctuation on the Layers of a Green and a Conventional Roof and Evaluation of its Effect on their Thermal Performance. Sixth National Conference for Renewable Energy Sources: . Report number: Vol A, pp111-126, Volos; 1999. 

  34. Niachou A, Papakonstantinou K, Santamouris M, Tsangrassoulis A, Mihalakakou G. Analysis of the green roof thermal properties and investigation of its energy performance. Energy and Buildings 2001;33(7) 

    상세보기

  35. Weston Design Consultants. Section 7. Task 600/700. Energy Efficiency Analysis and Air Quality Benefits Discussion. Chicago Green Roof Study City of Chicago; 2000. 

  36. Wong NH, Chen Y, Ong CL, Sia A. Investigation of thermal benefits of rooftop garden in the tropical environment. Building and Environment 2003;38(2) 

    상세보기

  37. Patrick Villella. Green Your Design WithAutodesk(R) Ecotect(R) and Revit(R). 2009. 

  38. Autodesk. Autodesk(R) Green Building Studio(R) Questions and Answers 2009. 

  39. Okinaka T, Nojima Y, Kobayhi T, Seto H. Covering effects of climbing plants on wall temperature of concrete building. 1994 (Technical Bulletin Of Faculty Of Horticulture Chiba University) 125-134. 

  40. Juri Yoshimi HA. THERMAL SIMULATIONS ON THE EFFECTS OF VEGETATED WALLS ON INDOOR BUILDING ENVIRONMENTS. School of Architecture, The University of Sheffield; 2011. 

  41. City of London Corporation. City of London Green Roof Case Studies. 2011. 

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