Open Access
MATEC Web of Conferences
Volume 58, 2016
The 3rd Bali International Seminar on Science & Technology (BISSTECH 2015)
Article Number 04003
Number of page(s) 5
Section Others
Published online 23 May 2016
  1. Lippsmeier. G. 1980. Tropenbau Building In The Tropics. Van Nostrand Reinhold. NY.
  2. Satwiko. P. 2004. Solar-Wind Generated Roof Ventilation System (S iVATAS) for Humid Climate, The International Journal of Ventilation. Vol.3. No.3. December 2004.(ISSN 1473-3315)
  3. Santosa. M. 1994. Geometrical Plan Design and Roof Construction As Main Aspects Of The Housing Living Comfort Level, Research Report, Research Institutions, ITS Surabaya, pp 7-13.
  4. Givoni. B. 1976. Man, Climate and Architecture, Applied Science Publisher Ltd, Essex, UK
  5. Poonia. S. Jethoo. AS. Poonia, MP. 2011. A Short Review On Energy Conservation In Buildings Using Roof Coating Materials For Hot An Dry Climates”. Universal Journal of Environmental Research and Technology. Vol.1. Issue 3: 247-252.
  6. Wong. N.H. 2007. A Study of Effectiveness of Passive Climate Control In The Naturally Ventilated Residential Buildings In Singapore. The Journal of Environment and Buildings 42. 2007. 1395-1405. Department of Building. School of Design and Environment. National University of Singapore. The Republic of Singapore 117566. Singapore [CrossRef]
  7. Lau. A.K.K. Elias. S. and Lim. C.H. 2008. The Thermal Performance Evaluation of Roofing Systems and Materials in Malaysia Residential Development, In: Proceeding of 9th SENVAR and 2nd ISESEE Humanity and Technology Shah Alam. Malaysia. 387-395
  8. Aynsley. R and Spruill. M. 1990. The Thermal Comfort Models For Outdoor Thermal Comfort In Warm Humid Climates and Probabilities of Low Wind Speeds, Journal of Wind Engineering and The Industrial Aerodynamics 36 1990. pp.481-488 [CrossRef]
  9. Zakaria. N.Z. Peter. W. and Ahmad. R. 2008. Thermal and Energy Evaluation of Roofing and Ceiling Insulation For The Residential Building in Tropical Climate. In : Proceeding of 9th SENVAR and 2nd ISESEE Humanity Technology. Shah Alam. Malaysia, 577
  10. Prianto. E. Bonneaud. F. Depecker. P. Peneau. P.J. 2000. Tropical Humid Architecture in The Natural Ventilation Efficient Point of View. The Reference of Traditional Traditional Architecture in Indonesia, The International Journal of Architecture Science, Vol.1. No. 2. P.80-95.
  11. Moore. F. 1993. Environmental Control System: Heating, Cooling, Lighting, McGraw - Hill Inc, USA
  12. Santamouris. M. and Asimakopoulus. D. 1996. Passive Cooling of Building. James and James Science Publishers. London.
  13. Allard. F. 1998. The Natural Ventilated Building Design Handbook. James and James Science Publisher. London. pp 32-33.
  14. Szokolay. S.V. 1980. Environmental Science Handbook For Architects and Builders, The Construction Press, Lancaster, pp 381 -383.
  15. AEA Technology plc. 2002. Introduction to CFX-5, CFX International, AEA Technology plc, 8.19 Harwell Didcoot, Oxfordshire OX11 0RA, United Kingdom.
  16. Koenigsberger. O. Ingersol. T.G. Mayhew. A and Szokolay. S.V. 1973. Manual Of Tropical Housing and Buildings. Part 1: The Climatic Design. Bombay: Orient Longman
  17. Climate Datas of Surabaya City from 2009 - 2014, Geophysics and Meteorological Board (BMG) Juanda Climate Station
  18. Wonorahardjo. S. 2000. A Study Of Roof Ventilation Types and Their Influence On Indoor Thermal Comfort. SENVAR 2000. Edt: Santosa. M. The Laboratory Of Architectural Science and Technology. Department Of Architecture. Faculty Of Civil Engineering and Planning. ITS Surabaya