The Building Thermal Performance and Carbon
Sequestration Evaluation for Psophocarpus
tetrogonobulus on Biofaçade Wall in the
Tropical Environment
Plants are commonly known for its positive
correlation in reducing temperature. Since it can benefit buildings by
modifying the microclimate, it-s also believed capable of reducing
the internal temperature. Various experiments have been done in
Universiti Sains Malaysia, Penang to investigate the comparison in
thermal benefits between two rooms, one being a typical control
room (exposed wall) and the other a biofacade room (plant shaded
wall). The investigations were conducted during non-rainy season for
approximately a month. Climbing plant Psophocarpus
tetrogonobulus from legume species was selected as insulation for
the biofacade wall. Conclusions were made on whether the biofacade
can be used to tackle the energy efficiency, based on the parameters
taken into consideration.
[1] P. Sunakorn, Biofacade. from Kasetsart University Research and
Development Institute, 2008, [Online] Available:
http://biofacade.com/Eng001_Home.html (August 25, 2010).
[2] S. Sandifer, B. Givoni, "Thermal effects of vines of wall temperaturescomparing
laboratory and field collected data", Paper presented at the
Proceedings of the Annual Conference of the American Solar Energy
Society, Reno, Nevada, 2002
[3] Lam, M. H. Y., Ip, K., & Miller, A. (2005). Thermal shading effect of
climbing plants on glazed facades. Paper presented at the The 2005
World Sustainable Building Conference, Tokyo.
[4] Dunnet, N., & Kingsbury, N. (2008). Planting Green Roofs and Living
Walls. London: Timber Press
[5] M. Köhler, "Green facadesÔÇöa view back and some visions (Submitted
for publication)", in Urban Ecosyst, vol. 11, 2008, pp. 423-436,
submitted for publication.
[6] K. Chiang, A. Tan, Vertical Greenery for the Tropics (Book style)
Singapore: National Park Board, 2009.
[7] E. Alexandri, P. Jones, "Temperature decrease in an urban canyon due
to green walls and green roofs on diverse climates (Submitted for
publication", in Building and Environment, vol. 43, 2008, pp. 480-493,
submitted for publication.
[8] P. Blanc, The Vertical Garden: From Nature to the City (Book style)
New York: Norton, W. W. & Company, Inc., 2008.
[9] V. Laopanitchakul, P. Sunakorn, and A. Srisutapan, "Climbing-Plant on
solid wall for Reducing Energy in Tropical Climate (to be published)"
Paper presented at the Sustainable Building Conference 2008 Seoul,
Korea. to be published.
[10] N. H. Wong, A. Y. K. Tan, Y. Chen, K. Sekar, P. Y. Tan, D. Chan,
"Thermal evaluation of vertical greenery systems for building walls
(Submitted for publication)", in Building and Environment, vol. 45,
2010, pp. 663-672. submitted for publication.
[11] B. Bass, K. Liu, K.Y., and B. A. Baskaran, Evaluating rooftop and
vertical gardens as an adaptation strategy for urban areas. Canada:
National Research Council Canada. 2001.
[12] C. S. Aun, Green Building Index - MS1525: Applying MS1525:2007
Code of Practice on Energy Efficiency and Use of Renewable Energy
for Non-Residential Buildings, 2009, [Online] Available:
http://www.greenbuildingindex.org/Resources/20090214%20-
%20GBI%20MS1525-2007%20Seminar/20090214%20-
%20GBI%20MS1525-2007%20Seminar%20(CSA)%20Notes.pdf , (Feb
24, 2011).
[13] Earth Trends Country Profiles. Climate and Atmosphere: Malaysia,
2003, [Online] Available:
http://earthtrends.wri.org/pdf_library/country_profiles/cli_cou_458.pdf,
(Dec 9, 2010)
[14] T. P. Yok, B. Yeo, Y. W. Xi, and L. H. Seong, Carbon Storage and
Sequestration by urban trees in Singapore (Book style) Singapore:
Centre for Urban Greenery and Ecology (CUGE), 2009.
[15] J. Loh and R. S. Bedi, Yet to grow our own food, 2008, [Online]
Available:http://thestar.com.my/news/story.asp?file=/2008/5/11/focus/2
1193194&sec=focus, (Dec 9, 2010)
[16] C. Yu, T. C. Meng, W. N. Hien and T. P. Yok, "Preliminary study of
Leaf Area Index and thermal protection of vegetation in the tropical
climate (To be published)", Paper presented at the The 21th Conference
on Passive and Low Energy Architecture. Eindhoven, The Netherlands,
19-22 Sept 2004. to be published.
[17] P. Sunakorn, R. Pakarnseree, and M. L. V. Davivongs, "The Application
of Plants on Parking Structures to reduce CO2 (to be published)", Paper
presented at the iNTA Conference 2006 - Harmony in Culture and
Nature. to be published.
[18] E. R. Lemon, CO2 and Plants (Book style) AAAS Selected Symposium,
1983.
[19] H. Ibrahim, M. I. Mohd Izani, Y. Mohd Zamri, and B. Mohd Hariffin,
"Thermal Comfort Zone of a Campus Buildings in Malaysia (To be
published)", Paper presented at the Proceedings of the BSME-ASME
International Conference on Thermal Engineering, Dhaka, Bangladesh,
2001. to be published.
[20] N. J. Rosenberg, B. L. Blad S. B. Verma, Microclimate. The Biological
Environment (Book style) Canada: John Wiley and Sons, Inc., 1983.
[21] K. Ip, M. Lam and A. Miller, "Bioshaders for Sustainable Buildings (To
be published)", 2003. to be published.
[1] P. Sunakorn, Biofacade. from Kasetsart University Research and
Development Institute, 2008, [Online] Available:
http://biofacade.com/Eng001_Home.html (August 25, 2010).
[2] S. Sandifer, B. Givoni, "Thermal effects of vines of wall temperaturescomparing
laboratory and field collected data", Paper presented at the
Proceedings of the Annual Conference of the American Solar Energy
Society, Reno, Nevada, 2002
[3] Lam, M. H. Y., Ip, K., & Miller, A. (2005). Thermal shading effect of
climbing plants on glazed facades. Paper presented at the The 2005
World Sustainable Building Conference, Tokyo.
[4] Dunnet, N., & Kingsbury, N. (2008). Planting Green Roofs and Living
Walls. London: Timber Press
[5] M. Köhler, "Green facadesÔÇöa view back and some visions (Submitted
for publication)", in Urban Ecosyst, vol. 11, 2008, pp. 423-436,
submitted for publication.
[6] K. Chiang, A. Tan, Vertical Greenery for the Tropics (Book style)
Singapore: National Park Board, 2009.
[7] E. Alexandri, P. Jones, "Temperature decrease in an urban canyon due
to green walls and green roofs on diverse climates (Submitted for
publication", in Building and Environment, vol. 43, 2008, pp. 480-493,
submitted for publication.
[8] P. Blanc, The Vertical Garden: From Nature to the City (Book style)
New York: Norton, W. W. & Company, Inc., 2008.
[9] V. Laopanitchakul, P. Sunakorn, and A. Srisutapan, "Climbing-Plant on
solid wall for Reducing Energy in Tropical Climate (to be published)"
Paper presented at the Sustainable Building Conference 2008 Seoul,
Korea. to be published.
[10] N. H. Wong, A. Y. K. Tan, Y. Chen, K. Sekar, P. Y. Tan, D. Chan,
"Thermal evaluation of vertical greenery systems for building walls
(Submitted for publication)", in Building and Environment, vol. 45,
2010, pp. 663-672. submitted for publication.
[11] B. Bass, K. Liu, K.Y., and B. A. Baskaran, Evaluating rooftop and
vertical gardens as an adaptation strategy for urban areas. Canada:
National Research Council Canada. 2001.
[12] C. S. Aun, Green Building Index - MS1525: Applying MS1525:2007
Code of Practice on Energy Efficiency and Use of Renewable Energy
for Non-Residential Buildings, 2009, [Online] Available:
http://www.greenbuildingindex.org/Resources/20090214%20-
%20GBI%20MS1525-2007%20Seminar/20090214%20-
%20GBI%20MS1525-2007%20Seminar%20(CSA)%20Notes.pdf , (Feb
24, 2011).
[13] Earth Trends Country Profiles. Climate and Atmosphere: Malaysia,
2003, [Online] Available:
http://earthtrends.wri.org/pdf_library/country_profiles/cli_cou_458.pdf,
(Dec 9, 2010)
[14] T. P. Yok, B. Yeo, Y. W. Xi, and L. H. Seong, Carbon Storage and
Sequestration by urban trees in Singapore (Book style) Singapore:
Centre for Urban Greenery and Ecology (CUGE), 2009.
[15] J. Loh and R. S. Bedi, Yet to grow our own food, 2008, [Online]
Available:http://thestar.com.my/news/story.asp?file=/2008/5/11/focus/2
1193194&sec=focus, (Dec 9, 2010)
[16] C. Yu, T. C. Meng, W. N. Hien and T. P. Yok, "Preliminary study of
Leaf Area Index and thermal protection of vegetation in the tropical
climate (To be published)", Paper presented at the The 21th Conference
on Passive and Low Energy Architecture. Eindhoven, The Netherlands,
19-22 Sept 2004. to be published.
[17] P. Sunakorn, R. Pakarnseree, and M. L. V. Davivongs, "The Application
of Plants on Parking Structures to reduce CO2 (to be published)", Paper
presented at the iNTA Conference 2006 - Harmony in Culture and
Nature. to be published.
[18] E. R. Lemon, CO2 and Plants (Book style) AAAS Selected Symposium,
1983.
[19] H. Ibrahim, M. I. Mohd Izani, Y. Mohd Zamri, and B. Mohd Hariffin,
"Thermal Comfort Zone of a Campus Buildings in Malaysia (To be
published)", Paper presented at the Proceedings of the BSME-ASME
International Conference on Thermal Engineering, Dhaka, Bangladesh,
2001. to be published.
[20] N. J. Rosenberg, B. L. Blad S. B. Verma, Microclimate. The Biological
Environment (Book style) Canada: John Wiley and Sons, Inc., 1983.
[21] K. Ip, M. Lam and A. Miller, "Bioshaders for Sustainable Buildings (To
be published)", 2003. to be published.
@article{"International Journal of Earth, Energy and Environmental Sciences:55582", author = "Abdul M. A. Rahman and Foong S. Yeok and Atikah F. Amir", title = "The Building Thermal Performance and Carbon
Sequestration Evaluation for Psophocarpus
tetrogonobulus on Biofaçade Wall in the
Tropical Environment", abstract = "Plants are commonly known for its positive
correlation in reducing temperature. Since it can benefit buildings by
modifying the microclimate, it-s also believed capable of reducing
the internal temperature. Various experiments have been done in
Universiti Sains Malaysia, Penang to investigate the comparison in
thermal benefits between two rooms, one being a typical control
room (exposed wall) and the other a biofacade room (plant shaded
wall). The investigations were conducted during non-rainy season for
approximately a month. Climbing plant Psophocarpus
tetrogonobulus from legume species was selected as insulation for
the biofacade wall. Conclusions were made on whether the biofacade
can be used to tackle the energy efficiency, based on the parameters
taken into consideration.", keywords = "biofacade, thermal benefits, carbon sequestration,Psophocarpus tetrogonobulus.", volume = "5", number = "4", pages = "230-9", }
