LOW CARBON ARCHITECTURAL DESIGN

Şaziye Balku [1] , Filiz Koçyiğit [2]

154 122

Tendency towards sustainable energy resources is increasing and leading engineers and architects make joint efforts. Renewable energy potential present in nature can be used more efficiently so that while energy consumption is reducing, rate of energy gain, on the other hand, increases by architectural design methods. A sailing club in Gölbaşı, Ankara is designed as a low carbon building for optimum usage of solar and wind energy. It can be concluded using an energy efficient architectural design for a building before its construction makes it possible to meet the electrical and heat energy requirements at minimum cost and environmental friendly.

Energy efficient design, trombe wall
  • Bulut, Y. M., Yıldız, Z., “Comparing Energy Demand Estimation Using Various Statistical Methods: The Case of Turkey”, GU J Sci 29(2):237-244 (2016).
  • Fırat, S., “Application of Efficient & Renewable Energy Technologies in Low Cost Buildings and Construction”, J Polytechnic Vol: 17 No: 1 (Special Issue) 1-2, (2014).
  • Sassi P. “Strategies for Sustainable Architecture”, p.238, New York: Taylor& Francis INC. (2006).
  • Marszal, A. J. & Heisenberg, P. “A Literature Review of Zero Energy Buildings (ZEB) Definitions”, Aalborg: Department of Civil Engineering, Aalborg University, (DCE Technical Reports; No. 78) (2009).
  • Konters, J, “Planning for Solar Buildings in Urban Environments”, Doctoral Thesis, Lund University, Department of Architecture and Built Environment, Lund, Sweden. (2015),
  • TS EN ISO 13790 “Energy performance of buildings - Calculation of energy use for space heating and cooling”. https://www.iso.org/obp/ui/#iso:std:iso:13790:ed-2:v1:en.
  • Ruiz-Pardo, A., Dominguez, S.A., and Fernandez J.A.S. “Revision of the trombe wall calculation method proposed by UNE-EN ISO 13790”, Energy and Building 42, 763-773 (2010).
  • Yılmaz, Z. and Kundakçı, A. B., “An approach for energy conscious renovation of residential buildings in İstanbul by Trombe wall system”, Building and Environment 43, 508-517 (2008).
  • Y. Yıldız, “Impacts of Climate Change on Heating and Cooling Loads in Residential Buildings” GU J Sci 29(1):27-34 (2016).
  • Jiang, B. Ji J., Yi Hua, “The influence of PV coverage ratio on thermal performance of photovoltaiv-trombe wall”. Renew Energy 33 (2008) 2491-2498
  • Yunez-Cano A., Gonzales-Huerta R. de G., Tufino-Velazquez M., Barbosa R., B. Escobar, “Solar-hydrogen hybrid system integrated to a sustainable house in Mexico”, Int J Hydrogen Energy 41(2016) 19539-19545.
  • Munchi A. Sampath W., “CdTe Photovoltaics for Sustainable Electricity Generation”, J Electronic Materials, 45 (9) 2016.
  • http://www.ankara.climatemps.com/
  • Renewable Energy General Directorate. http://www.eie.gov.tr/MyCalculator/pages/ 6.aspx
  • Scherer, H.F., Pasamontes M., Guzman J.L. Alvarez, J.D., Normey-Rico, “Efficient building energy management using distributed model predictive control”, J Process Control (24) 740-749(2014).
  • Energy Efficient Architectural Design, Atılım University LAP Project ATÜ-LAP-C-1516-01 (2015-2016).
  • Incropera, F.P., Dewitt, D.P., Bergman, T. L., and Lavine, A.S., “Principles of Heat and Mass Transfer”, Seventh Edition, Wiley. Singapure, (2013).
  • Çengel, A. Y. “Heat and Mass Transfer. A Practical Approach”, Third Edition, Mc-Graw Hill, (2007) New York.
  • Turkish Republic Ministry of Forest and Water Affairs, Meteorology General Directorate, Global solar radiation and temperature measurements (2012).
  • The Mathworks. The language of technical computing, www.mathworks.com. (03.03.2016).
Konular Yaşam Bilimleri
Dergi Bölümü Architecture & City and Urban Planning
Yazarlar

Yazar: Şaziye Balku
E-posta: saziye.balku@atilim.edu.tr
Ülke: Turkey


Yazar: Filiz Koçyiğit
E-posta: filiz.kocyigit@atilim.edu.tr
Ülke: Turkey


Bibtex @araştırma makalesi { gujs316755, journal = {Gazi University Journal of Science}, issn = {}, address = {Gazi Üniversitesi}, year = {}, volume = {31}, pages = {13 - 23}, doi = {}, title = {LOW CARBON ARCHITECTURAL DESIGN}, key = {cite}, author = {Balku, Şaziye and Koçyiğit, Filiz} }
APA Balku, Ş , Koçyiğit, F . (). LOW CARBON ARCHITECTURAL DESIGN. Gazi University Journal of Science, 31 (1), 13-23. Retrieved from http://dergipark.gov.tr/gujs/issue/35772/316755
MLA Balku, Ş , Koçyiğit, F . "LOW CARBON ARCHITECTURAL DESIGN". Gazi University Journal of Science 31 (): 13-23 <http://dergipark.gov.tr/gujs/issue/35772/316755>
Chicago Balku, Ş , Koçyiğit, F . "LOW CARBON ARCHITECTURAL DESIGN". Gazi University Journal of Science 31 (): 13-23
RIS TY - JOUR T1 - LOW CARBON ARCHITECTURAL DESIGN AU - Şaziye Balku , Filiz Koçyiğit Y1 - 2018 PY - 2018 N1 - DO - T2 - Gazi University Journal of Science JF - Journal JO - JOR SP - 13 EP - 23 VL - 31 IS - 1 SN - -2147-1762 M3 - UR - Y2 - 2017 ER -
EndNote %0 Gazi University Journal of Science LOW CARBON ARCHITECTURAL DESIGN %A Şaziye Balku , Filiz Koçyiğit %T LOW CARBON ARCHITECTURAL DESIGN %D 2018 %J Gazi University Journal of Science %P -2147-1762 %V 31 %N 1 %R %U