FEASIBILITY STUDY OF A PASSIVE HOUSE: ANKARA CASE

Gul Nihal GUGUL

Öz


The amount of residential energy consumption has a significant share over final energy consumption in Turkey which is increasing parallel to the rapid increase in population, economic growth and the number of houses. For this reason, energy savings in residential sector is of great importance in Turkey. In this study, technical feasibility study of a single detached Passive House located in Ankara, Turkey of which has cold and dry climate is investigated using building energy simulation software. House is designed to take advantage of solar radiation at maximum level with convenient shape, color and window/wall ratio. Model house has high insulation level and low air tightness. According to the simulations conducted, minimum space heating demand of the 3 bedroom, 120 m2 single detached house located in Ankara, Turkey is estimated as 6,2 kWh/m2-year, overcompensating the “15 kWh/m2-year” Passive House target sufficiently. The primary energy demand is calculated as 30,8 kWh/m2, marginally below the 120 kWh/m2 target.


Anahtar Kelimeler


Passive house, Low energy buildings, Building Energy Simulation

Tam Metin:

PDF (English)

Referanslar


DOE2, 2018, eQUEST Overview [online], http://www.doe2.com/download/equest/eQUESTv3-Overview.pdf [Last accessed: 12.1.2018]

USDO, 2018, EnergyPlus Energy Simulation Software [online], http://www.energyplus.gov/ [Last accessed: 12.1.2018]

TRNSYS, 2018, A TRaNsient SYstems Simulation Program [online], http://sel.me.wisc.edu/trnsys [Last accessed: 1.3.2018]

ESRU, 2018, ESP-r Overview, Energy Systems Research Unit. [online], http://www.esru.strath.ac.uk/Programs/ESP-r_overview.htm [Last accessed: 4.1.2018]

Lee H., Gurung S., Brick T. Zero Energy Buildings, Helsinki Metropolia University of Applied Sciences, 2012.

Bulut, A. N., 2018, Pasif Evler & Firsatlar. [online], http://www.imsad.org/Uploads/Etkinlikler/Adana/izocam_nuri_bulut.pdf [Last accessed: 5.2.2018]

Wolfgang F. What Can be a Passive House in Your Region with Your Climate?, Darmstadt: Passive House Institute

Tiwari D. Passive House Concept: Standard and Case study, Degree Thesis, Metropolia University of Applied Sciences, 2018.

European Commission, 2014, Shares Tool Manual Version 2014.51008. pp. 1-27

Passive House Institute, 2018, Passive House Database, [online], https://passivhausprojekte.de/index.php#s_adfa73159c0f55f1b6b68ec8f21a28c1 [Last accessed: 5.5.2018]

Passive House Institute, 2018, Passive House Database-Turkey, [online], https://passivhausprojekte.de/index.php?lang=en#k_TURKEY [Last accessed: 5.7.2018]

GDM-HDD, 2018, General Directorate of Meteorology Heating Degree Days, [online], https://www.mgm.gov.tr/veridegerlendirme/gun-derece.aspx. [Last accessed: 3.3.2018]

Demirel B. Pasif Ev Uygulamasinin Türkiye İçin Değerlendirilmesine Yönelik Bir Çalışma, Master Thesis, Istanbul Technical University, Department of Architecture, Istanbul, 2013.

Güçü I. Evaluation of Passive Building Design Parameters for Izmir City, Master Thesis, Izmir Katip Celebi University, Department of Urban Regeneration Izmir, 2016.

Varkie, T., 2018, Internal heat gains (IHG), energy-models, [online], http://energy-models.com/internal-heat-gains-ihg, [Last accessed: 5.1.2018]

Ahn B., Park J., Yoo S., Kim J., Leigh S., Jang C. Savings in Cooling Energy with a Thermal Management System for LED Lighting in Office Buildings, Energies 2015; 8:6658-6671.

Cristina Escribá M. Heat Gains, Heating and Cooling In Nordic Housing, Degree Thesis, Aalto University, Department of Electrical Engineering, 2015.

USDOE-Weather, 2018, EnergyPlus Energy Simulation Software-Weather Data Sources, [online], https://energyplus.net/weather-location/europe_wmo_region_6/TUR//TUR_Ankara.171280_IWEC, [Last accessed: 1.1.2018]

Gugul, G. N., 2018, Energy Simulation Study of Efficient Construction Materials for Cold Climate Homes, 9th International Cold Climate Conference Sustainable new and renovated buildings in cold climates, Kiruna, Sweden

NPTEL, 2018, Cooling and Heating Load Calculations. National Programme on Technology Enhanced Learning, [online], https://nptel.ac.in/courses/112105129/pdf/R&AC%20Lecture%2035.pdf [Last accessed: 1.1.2018]

Gugul, G. N., 2017, Techno-Economic Analysis of Solar Domestic Hot Water System for Single Detached Dwellings in Konya, International Conference on Engineering Technologies, Konya, Turkey, 775-780.


Madde Ölçümleri

Ölçüm Çağırılıyor ...

Metrics powered by PLOS ALM

Refback'ler

  • Şu halde refbacks yoktur.


Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Selçuk-Teknik Dergisi  ISSN:1302-6178