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Tytuł artykułu

The investigation of relationship of heating and cooling degree hour calculations for Southeastern Anatolia Region with altitude, latitude and longitude

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Degree-day values can be calculated using climatic data. Thus, seasonal, monthly, daily and hourly energy requirements for heating and cooling in buildings can be calculated. The effect of outside ambient temperature can be determined by means of the degree-day method in determining the basic temperature values in buildings. The altitude and latitude affect significantly the temperature distribution in the Earth. Thus, the latitude and altitude values are required to determine the degree hour values. This study was taken in 9 provinces located in the Southeastern Anatolia Region (SAR). The annual outdoor dry-bulb thermometer temperatures for a long period of nine provinces in the SAR were obtained to determine heating and cooling degree hour values according to the six different base temperatures. According to the suggested six different base temperature values, the cumulative long-term annual heating degree-hour (HDH) value was 50862 in total for Gaziantep province. The lowest cumulative long-term annual heating degree-hour value took place in Sanliurfa province as 39638. Also, the highest total cooling degree-hour (CDH) value took place in Sanliurfa province as 10886 degree-hour value and the lowest value took place in Sirnak province as 3909. It was determined that there was not an exact linear or monotonous relationship between HDH and CDH values and altitude, latitude and longitude values. However, although it was seen that the relationship of CDH values with the altitude was not a formal linear or monotonous relationship, it was determined that CDH values decreased linearly together with the increasing altitude values when the values were examined.
Słowa kluczowe
Rocznik
Tom
Strony
673--683
Opis fizyczny
Bibliogr. 16 poz., tab., wykr.
Twórcy
autor
  • Osmaniye Korkut Ata University, Osmanyie Vacational School, 80000 Osmaniye
autor
  • Suleyman Demirel University, Agricultural Structure and Irrigation Department, 32260 Isparta
autor
  • Suleyman Demirel University, Agricultural Structure and Irrigation Department, 32260 Isparta
autor
  • Siirt University, Biosystem Department, 56100 Siirt Turkey
Bibliografia
  • Anonymous (2015). Broiler Production, Agriculture Ministry, [online][15.12.2015] Available at: http://www.tarim.gov.tr
  • Anonymous (2016a). Animal Production, Education Ministry, [online] [16.01.2016] Available at: http://megep.meb.gov.tr
  • Anonymous (2016b). Paralel ve Meridyenlerin Özellikleri (online) [16.01.2016] Available at http://bilgiyelpazesi.com/egitim_ogretim/konu_anlatimli_dersler/cografya_ dersi_ile_ilgili_konu_anlatimlar/paralel_enlem_ve_paralellerin_ozellikleri.asp
  • Atilgan A., Yucel A., Oz H. (2012). Determination of heating and cooling day data for broiler housing: Isparta case, Journal of Food, Agriculture & Environment Vol.10 (3&4), 2012, pp. 353-356.
  • Bayram M., Yesilata B. (2009). Integration of number of heating and cooling degree days, IX. National Plumbing Engineering Congress, May6-9, 2009, Izmir, pp.425-432.
  • Bulut H., Buyukalaca O., Yilmaz T. (2007). Analysis of heating and cooling degree hours for the Marmara Region, 2. National Climate Congress, 111-122.
  • Buyukalaca O., Bulut H., Yilmaz T. (2001). Analysis of Variable-Base Heating and Cooling Degree-Days For Turkey, Applied Energy, 69/4, 269-283.
  • Castaneda M., Claus F. (2013). Variability and trends of heating degree-days in Argentina. International Journal of Climatology, 33: 2352-2361.
  • Durmayaz A., Kadioglu M. (2003). Heating Energy Requirements And Fuel Consumptions In The Biggest City Centers Of Turkey, Energy Conversion and Management, 44(7): 1177-1192.
  • Erturk M. (2012). Investigation of Different Method and Development in heating and cooling Degree hour calculations. Phd Thesis, Balikesir University, Natural an Applied Sciences, Balikesir.
  • Erturk M., Kurt H.A., Kilic A., Kaya S. (2015). The relationship of altitude, latitude and longitude to investigate for the marmara region in heating and cooling degree hours calculations, Tesisat Mühendisligi, 150: 36-52.
  • Kadioglu M, Sen Z, Gultekin L. (2001). Variations and trends in Turkish seasonal heating and cooling degree-days. Climatic Change 49: 209 - 223.
  • Lindley J.A., Whitaker J.H. (1996). Agricultural buildings and structures. 2nd edn. Technical Books Information Publishing Group, USA, 1996. 605 p.
  • Matzarakis A, Balafoutis C. (2004). Heating degree-days over Greece as an index of energy consumption. International Journal of Climatology 24: 1817 - 1828.
  • Sensoy S., Dermircan M., Ulupınar Y., Balta I. (2015). Turkey Climate, General Directorate of State Meteorology, (Online) 15.03.2015. Available at http://www. mgm.gov.tr/files/iklim/turkiye_iklimi.pdf,.
  • Yildiz I, Sosaoglu B. (2007). Spatial distributions of heating, cooling, and industrial degree-days in Turkey. Theoretical and Applied Climatology 90: 249-261.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-deefb3e6-ebb6-4bc7-ad09-9586d52878b2
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