Research On the Meet of Energy Needs in Broiler Plant with Solar Panels

Sena Erden; Merve Aydin; Onur Taşkın; Ali Vardar

Araştırma Makalesi

Research On the Meet of Energy Needs in Broiler Plant with Solar Panels

Yıl 2019, Cilt: 13 Sayı: 37, 31 - 37, 26.05.2019

Sena Erden Merve Aydin Onur Taşkın , Ali Vardar

Öz

One of the biggest problems of today's enterprises is the high-value electricity costs. In order to solve this problem, solutions should be developed based on solar energy projects. Moreover, by selling after the self-consumption to the grid can be obtained more profit. This study includes the investigation of the rooftop of broiler plant with solar energy system. As a result, the total energy consumption of the plant was calculated as 46782 kWhyear-1. To cover the consumption, 508 pieces (250 Watt) polycrystalline solar panels were used. The panels can be generate a total energy of 161536 kWhyear-1. It is foreseen that a total energy of 114754 kWhyear-1 can be supply to the grid and 15264 $year-1 income can be obtain. The payback period of the system was found 5.9 years.

Anahtar Kelimeler

Solar energy, Poultry plant, Energy requirement, Energy cost

Kaynakça

Atay Ü, Işıker Y, and Yeşilata B (2009). Fotovoltaik güç destekli mikro sulama sistemi projesi-1: Genel Esaslar, V. Yenilenebilir Enerji Kaynakları Sempozyumu Bildiriler Kitabı, Diyarbakır, Türkiye, s: 57-62.
Atmaca M, Yusufoğlu G, and Kurtuluş AB (2014). Güneş enerjili sulamanın tarım sektöründe uygulaması. Bitlis Eren Ünversitesi Fen Bilimleri Dergisi, 3(2): 142-153.
Bayrakcı AG, and Koçar G (2012). Utilization of renewable energies in Turkey's agriculture. Renewable and Sustainable Energy Reviews, 16(1): 618-633.
Biçen T (2018). Güneş panelleriyle elektrik üretiminin teknik ve ekonomik analizi: Bursa örneği. Yüksek Lisans Tezi, Uludağ Üniversitesi, Fen Bilimleri Enstitüsü, Biyosistem Anabilim Dalı, Bursa.
Büyükzeren R, Altıntaş HB, Martin K, and Kahraman A (2015). Binalardaki fotovoltaik uygulamasının teknik, çevresel ve ekonomik incelenmesi: Meram Tıp Fakültesi Hastanesi örneği. EMO Bilimsel Dergi, 5(10): 9-14.
Dağtekin M (2012). Etlik Piliç Kümeslerinin serinletilmesinde güneş enerjisi kullanımınn tekno-ekonomik analizi. Çukurova Üniversitesi Ziraat Fakültesi Dergisi, 27(2): 11-20.
Flannery, TF ve Sahajwalla, V. (2013). Critical ten years: Australia's future: Solar energy. Secretariat of climate, Industry, Innovation, Climate Change Department. Science, Research and Higher Education, Canberra.
Ghaith AF, Epplin FM, and Frazier RS (2017). Economics of household wind turbine grid-tied systems for five wind resource levels and alternative grid pricing rates. Renewable Energy, 109: 155-167.
Hasan MA, and Parida, SK (2016). An overview of solar photovoltaic panel modeling based on analytical and experimental viewpoint. Renewable and Sustainable Energy Reviews, 60: 75-83.
Husain AA, Hasan WZW, Shafie S, Hamidon MN, and Pandey SS (2018). A review of transparent solar photovoltaic technologies. Renewable and Sustainable Energy Reviews, 94: 779-791.
Imteaz MA, and Ahsan A (2018). Solar panels: Real efficiencies, potential productions and payback periods for major Australian cities. Sustainable Energy Technologies and Assessments, 25: 119-125.
Jamil B, and Bellos E (2019). Development of empirical models for estimation of global solar radiation exergy in India. Journal of Cleaner Production, 207: 1-16.
Kendirli B, and Çakmak B (2010). Yenilenebilir enerji kaynaklarının sera ısıtmasında kullanımı. Ankara Üniversitesi Çevrebilimleri Dergisi, 2(1): 95-103.
MacKay DJC (2009). Sustainable Energy - without the hot air. UIT Cambridge Ltd. PO Box 145, Cambridge, CB4 1GQ, England, ISBN 978-0-9544529-3-3.
Pillai U, and McLaughlin J (2013). A model of competition in the solar panel industry. Energy Economics, 40: 32-39.
Singh R, and Banerjee R (2016). Effect of solar panel orientation on large-scale roof mounted solar photovoltaic scenario for Mumbai. Energy Procedure, 90: 401-411.
Tyagi VV, Rahim NAA, Rahim NA, and Selvaraj JAL (2013). Progress in solar PV technology: Research and achievement. Renewable and Sustainable Energy Reviews, 20: 443-461.
Varınca KB, and Gönüllü MT (2006). Türkiye’de güneş enerjisi potansiyeli ve bu potansiyelin kullanım derecesi, yöntemi ve yaygınlığı üzerine bir araştırma. I. Ulusal Güneş ve Hidrojen Enerjisi Kongresi 21 – 23 Haziran, Eskişehir pp.272-275.
Yegm (2018), http://www.yegm.gov.tr/anasayfa.aspx. Accessed: December 15, 2018.
Bayraktar H, Özkan S, Yalçın S (2015). Kanatlı hayvan yetiştiriciliğinde değişimler ve yeni arayışlar. Türkiye Ziraat Mühendisliği VIII. Teknik Kongresi Bildiri Kitabı, 12-16 Ocak 2015; Ankara, Türkiye. s: 838-859.

Yıl 2019, Cilt: 13 Sayı: 37, 31 - 37, 26.05.2019

Sena Erden Merve Aydin Onur Taşkın , Ali Vardar

Öz

Kaynakça

Atay Ü, Işıker Y, and Yeşilata B (2009). Fotovoltaik güç destekli mikro sulama sistemi projesi-1: Genel Esaslar, V. Yenilenebilir Enerji Kaynakları Sempozyumu Bildiriler Kitabı, Diyarbakır, Türkiye, s: 57-62.
Atmaca M, Yusufoğlu G, and Kurtuluş AB (2014). Güneş enerjili sulamanın tarım sektöründe uygulaması. Bitlis Eren Ünversitesi Fen Bilimleri Dergisi, 3(2): 142-153.
Bayrakcı AG, and Koçar G (2012). Utilization of renewable energies in Turkey's agriculture. Renewable and Sustainable Energy Reviews, 16(1): 618-633.
Biçen T (2018). Güneş panelleriyle elektrik üretiminin teknik ve ekonomik analizi: Bursa örneği. Yüksek Lisans Tezi, Uludağ Üniversitesi, Fen Bilimleri Enstitüsü, Biyosistem Anabilim Dalı, Bursa.
Büyükzeren R, Altıntaş HB, Martin K, and Kahraman A (2015). Binalardaki fotovoltaik uygulamasının teknik, çevresel ve ekonomik incelenmesi: Meram Tıp Fakültesi Hastanesi örneği. EMO Bilimsel Dergi, 5(10): 9-14.
Dağtekin M (2012). Etlik Piliç Kümeslerinin serinletilmesinde güneş enerjisi kullanımınn tekno-ekonomik analizi. Çukurova Üniversitesi Ziraat Fakültesi Dergisi, 27(2): 11-20.
Flannery, TF ve Sahajwalla, V. (2013). Critical ten years: Australia's future: Solar energy. Secretariat of climate, Industry, Innovation, Climate Change Department. Science, Research and Higher Education, Canberra.
Ghaith AF, Epplin FM, and Frazier RS (2017). Economics of household wind turbine grid-tied systems for five wind resource levels and alternative grid pricing rates. Renewable Energy, 109: 155-167.
Hasan MA, and Parida, SK (2016). An overview of solar photovoltaic panel modeling based on analytical and experimental viewpoint. Renewable and Sustainable Energy Reviews, 60: 75-83.
Husain AA, Hasan WZW, Shafie S, Hamidon MN, and Pandey SS (2018). A review of transparent solar photovoltaic technologies. Renewable and Sustainable Energy Reviews, 94: 779-791.
Imteaz MA, and Ahsan A (2018). Solar panels: Real efficiencies, potential productions and payback periods for major Australian cities. Sustainable Energy Technologies and Assessments, 25: 119-125.
Jamil B, and Bellos E (2019). Development of empirical models for estimation of global solar radiation exergy in India. Journal of Cleaner Production, 207: 1-16.
Kendirli B, and Çakmak B (2010). Yenilenebilir enerji kaynaklarının sera ısıtmasında kullanımı. Ankara Üniversitesi Çevrebilimleri Dergisi, 2(1): 95-103.
MacKay DJC (2009). Sustainable Energy - without the hot air. UIT Cambridge Ltd. PO Box 145, Cambridge, CB4 1GQ, England, ISBN 978-0-9544529-3-3.
Pillai U, and McLaughlin J (2013). A model of competition in the solar panel industry. Energy Economics, 40: 32-39.
Singh R, and Banerjee R (2016). Effect of solar panel orientation on large-scale roof mounted solar photovoltaic scenario for Mumbai. Energy Procedure, 90: 401-411.
Tyagi VV, Rahim NAA, Rahim NA, and Selvaraj JAL (2013). Progress in solar PV technology: Research and achievement. Renewable and Sustainable Energy Reviews, 20: 443-461.
Varınca KB, and Gönüllü MT (2006). Türkiye’de güneş enerjisi potansiyeli ve bu potansiyelin kullanım derecesi, yöntemi ve yaygınlığı üzerine bir araştırma. I. Ulusal Güneş ve Hidrojen Enerjisi Kongresi 21 – 23 Haziran, Eskişehir pp.272-275.
Yegm (2018), http://www.yegm.gov.tr/anasayfa.aspx. Accessed: December 15, 2018.
Bayraktar H, Özkan S, Yalçın S (2015). Kanatlı hayvan yetiştiriciliğinde değişimler ve yeni arayışlar. Türkiye Ziraat Mühendisliği VIII. Teknik Kongresi Bildiri Kitabı, 12-16 Ocak 2015; Ankara, Türkiye. s: 838-859.

Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Tarımsal Biyoteknoloji (Diğer)
Bölüm	Makaleler
Yazarlar	Sena Erden Merve Aydin Onur Taşkın Ali Vardar
Yayımlanma Tarihi	26 Mayıs 2019
Yayımlandığı Sayı	Yıl 2019 Cilt: 13 Sayı: 37

Kaynak Göster

APA	Erden, S., Aydin, M., Taşkın, O., Vardar, A. (2019). Research On the Meet of Energy Needs in Broiler Plant with Solar Panels. Journal of Biological and Environmental Sciences, 13(37), 31-37.
AMA	Erden S, Aydin M, Taşkın O, Vardar A. Research On the Meet of Energy Needs in Broiler Plant with Solar Panels. JBES. Mayıs 2019;13(37):31-37.
Chicago	Erden, Sena, Merve Aydin, Onur Taşkın, ve Ali Vardar. “Research On the Meet of Energy Needs in Broiler Plant With Solar Panels”. Journal of Biological and Environmental Sciences 13, sy. 37 (Mayıs 2019): 31-37.
EndNote	Erden S, Aydin M, Taşkın O, Vardar A (01 Mayıs 2019) Research On the Meet of Energy Needs in Broiler Plant with Solar Panels. Journal of Biological and Environmental Sciences 13 37 31–37.
IEEE	S. Erden, M. Aydin, O. Taşkın, ve A. Vardar, “Research On the Meet of Energy Needs in Broiler Plant with Solar Panels”, JBES, c. 13, sy. 37, ss. 31–37, 2019.
ISNAD	Erden, Sena vd. “Research On the Meet of Energy Needs in Broiler Plant With Solar Panels”. Journal of Biological and Environmental Sciences 13/37 (Mayıs 2019), 31-37.
JAMA	Erden S, Aydin M, Taşkın O, Vardar A. Research On the Meet of Energy Needs in Broiler Plant with Solar Panels. JBES. 2019;13:31–37.
MLA	Erden, Sena vd. “Research On the Meet of Energy Needs in Broiler Plant With Solar Panels”. Journal of Biological and Environmental Sciences, c. 13, sy. 37, 2019, ss. 31-37.
Vancouver	Erden S, Aydin M, Taşkın O, Vardar A. Research On the Meet of Energy Needs in Broiler Plant with Solar Panels. JBES. 2019;13(37):31-7.