        TY  - JOUR
T1  - Opportunities for The Use of Agrivoltaic Systems in Animal Barns: A Case Study of Water Buffalo Barns
TT  - Opportunities for the Use of Agrivoltaic Systems in Animal Barns: The Example of Buffalo Barns
AU  - Türkboyları, Elif
AU  - Yüksel, A.nedim
PY  - 2025
DA  - September
Y2  - 2025
DO  - 10.34248/bsengineering.1618933
JF  - Black Sea Journal of Engineering and Science
JO  - BSJ Eng. Sci.
PB  - Karyay Karadeniz Yayımcılık Ve Organizasyon Ticaret Limited Şirketi
WT  - DergiPark
SN  - 2619-8991
SP  - 1525
EP  - 1530
VL  - 8
IS  - 5
LA  - en
AB  - The utilization of fossil fuels has accelerated with technological advancements and population growth. The increase in harmful gas emissions from non-renewable energy sources is a significant contributor to climate change. To mitigate this threat, there has been a shift towards renewable energy sources, particularly solar energy. The placement of solar panel systems on agricultural land has given rise to agrivoltaic systems, which combine energy production and agricultural use of the same land. However, the installation of agrivoltaic systems often requires considerable agricultural land. In livestock farming, such as water buffalo barns, solar panels can be installed on barn roofs or over cooling ponds used by buffaloes, thus preventing the loss of agricultural land. For a closed water buffalo barn with a floor area of 588.3 m² (11.1 × 53.0 m), housing 70 animals, 13 fans with a capacity of 9500 m³ h-1 are required for ventilation and cooling. Additionally, 23.5 m² of cooling pads and a circulation pump with a 0.2 kWh capacity are necessary. A solar panel system of 14–15 kWh can meet the energy requirements for ventilation and cooling. When controlled, the panel system would occupy 156 m² of land, which expands to 312 m² if designed as an agrivoltaic system. Installing solar panels over buffalo cooling ponds can significantly reduce water loss caused by evaporation in summer.
KW  - Agrivoltaic
KW  - Anatolian water buffalo barn
KW  - Solar panel system
KW  - Ventilation
KW  - Cooling
N2  - The utilization of fossil fuels has accelerated with technological advancements and population growth. The increase in harmful gas emissions from non-renewable energy sources is a significant contributor to climate change. To mitigate this threat, there has been a shift towards renewable energy sources, particularly solar energy. The placement of solar panel systems on agricultural land has given rise to agrivoltaic systems, which combine energy production and agricultural use of the same land. However, the installation of agrivoltaic systems often requires considerable agricultural land. In livestock farming, such as water buffalo barns, solar panels can be installed on barn roofs or over cooling ponds used by buffaloes, thus preventing the loss of agricultural land. For a closed water buffalo barn with a floor area of 588.3 m² (11.1 × 53.0 m), housing 70 animals, 13 fans with a capacity of 9500 m³ h-1 are required for ventilation and cooling. Additionally, 23.5 m² of cooling pads and a circulation pump with a 0.2 kWh capacity are necessary. A solar panel system of 14–15 kWh can meet the energy requirements for ventilation and cooling. When controlled, the panel system would occupy 156 m² of land, which expands to 312 m² if designed as an agrivoltaic system. Installing solar panels over buffalo cooling ponds can significantly reduce water loss caused by evaporation in summer.
CR  - Adeh EH, Selker JS, Higgins CW. 2018. Remarkable agrivoltaic influence on soil moisture, micrometeorology and water-use efficiency. PLoS ONE, 13(11): e0203256. https://doi.org/10.1371/journal.pone.0203256
CR  - Ağır S, Derin-Güre P, Şentürk B. 2023. Türkiye’de Tarım ve Enerjinin Kesişimi, TarımFV: Güncel Yazın Işığında Bir Ön Değerlendirme. Hacettepe Univ İktisadi ve İdari Bil Sci Fac Derg, 41(Tarım özel sayısı): 1-22. https://doi.org/10.17065/huniibf.1250434
CR  - Anonymous. 2024a. URL: www.fansanmarket.com (accessed date: October 10, 2024)
CR  - Anonymous. 2024b. Güneş enerji sistemlerinin (GES) güç çıkışını etkileyen faktörler URL: https://mirsolar.com.tr/gunes-paneli-cikisini-ne-etkiler/ (accessed date: October 17,2024)
CR  - Atasever S, Erdem H. 2008. Manda yetiştiriciliği ve Türkiye’deki geleceği. OMÜ Zir Fak Derg, 23(1): 59-64.
CR  - Avcı H. 2015. İstanbul ili Avrupa yakasındaki manda işletmelerinin yapısal ve mekansal özelliklerinin belirlenmesi üzerine bir çalışma. Yüksek lisans tezi, Namık Kemal Univ Fen Bil Enst, Tekirdağ,Türkiye, pp: 69.
CR  - Bakır C, Yılancı A. 2023. Türkiye’deki farklı iller için şebekeye bağlı arazi ve çatı tipi lisanssız fotovoltaik güç santrallerinin tekno-ekonomik analizi. Mühendis ve Makina, 63(709): 560-584. https://doi.org/10.46399/muhendismakina.114780
CR  - Grätzel M. 2009. Recent advances in sensitized mesoscopic solar cells. Acc Chem Res, 42(11): 1788-1798.
CR  - Karaağaç MO, Oğul H, Bardak S. 2020. Güneş enerji sistemi tasarımı: kanatlı hayvan çiftliği örneği. Düzce Univ J Sci Technol, 8(1): 711-722. https://doi.org/10.29130/dubited.490154
CR  - Kırbaş İ. 2023. Agrivoltaik sistemler ve tarım alanlarının hibrit kullanımı. Uluslar Müh Tasarım Teknol Derg, 5(1-2): 9-19.
CR  - Kocaman İ, Kurç HC. 2018. A research on the determination of lactation length and milk yield of Anatolian water buffaloes under different environmental conditions. J Sci Eng Res (JSER), 5(8): 39-44.
CR  - Koç K, Şahin O. 2023. Bitlis ili, Güroymak ilçesi, Gölbaşı beldesindeki Anadolu mandası işletmelerinde barınak içi karbondioksit (CO2) emisyonu üzerine barınak hacmi ve sürü büyüklüğünün etkisi. J Anim Sci Econ, 2(2): 44-52. https://doi.org/10.5152/JASE.2023.1224595
CR  - Korkmaz MS. 2015. Buharlaşma kayıplarının yüzer fotovoltaik paneller ile azaltılması. Yüksek lisans tezi, İstanbul Teknik Univ Fen Bil Enst, İstanbul,Türkiye, pp: 89.
CR  - Koyuncu M, Çetin İ, Sargın HG, Çetin E. 2021. Bursa ili Mustafakemalpaşa ilçesi manda yetiştiriciliği &quot;Karaoğlan mahallesi örneği&quot;. Hayvansal Üretim, 62(1): 25-34. https://doi.org/10.29185/hayuretim.820358
CR  - Kul E, Filik G, Şahin A, Çayıroğlu H, Uğurlutepe E, Erdem H. 2018. Effects of some environmental factors on birth weight of Anatolian buffalo calves. Turk J Agric-Food Sci Technol, 6(4): 444-446. https://doi.org/10.24925/turjaf.v6i4.444-446.1716
CR  - MCT (Republic of Türkiye Ministry of Culture and Tourism). 2024. https://tekirdag.ktb.gov.tr/TR-75726/genel-bilgiler.html (accessed date: October 03,2024)
CR  - MENR (Republic of Türkiye Ministry of Energy and Natural Resources). 2024. https://enerji.gov.tr/eigm-resources-en (accessed date: October 08, 2024)
CR  - Satılmış AS, Kul E. 2024. Herd management practices in water buffalo enterprises in Amasya province: Feeding, milking and health protection. Turk J Agric-Food Sci Technol, 12(5): 753-762. https://doi.org/10.24925/turjaf.v12i5.753-762.6593
CR  - Toledo C, Scognamiglio A. 2021. Agrivoltaic systems design and assessment: A critical review, and a descriptive model towards a sustainable landscape vision (three-dimensional agrivoltaic patterns). Sustainability, 13(12): 6871. https://doi.org/10.3390/su13126871
CR  - Türkeş M. 2020. İklim değişikliğinin tarımsal üretim ve gıda güvenliğine etkileri: bilimsel bir değerlendirme. Ege Coğrafya Derg, 29(1): 125-149.
CR  - Yılmaz EA, Can Öziç H. 2018. Türkiye’nin yenilenebilir enerji potansiyeli ve gelecek hedefleri. ODÜ SOBİAD, 8(3): 525-535.
CR  - Yüksel AN, Türkboyları E. 2021. Use of solar panels in water buffalo barns for providing climatic environmental conditions. Iğdır Int Appl Sci Congr, April 14-15, Iğdır, Türkiye, pp: 301-310.
CR  - Yüksel AN, Yüksel-Türkboyları E. 2018. Using the photovoltaic cells for ventilation and cooling of the animal barns. 1st Int 14th Natl Cong Agric Struct Irrig (ICASI-2018), 26-28 September, Antalya, Türkiye, pp: 49-55.
CR  - Wathes CM, Charles DR. 1994. Livestock housing. CAB Int: Wallingford, Oxon, UK, pp: 428.
UR  - https://doi.org/10.34248/bsengineering.1618933
L1  - https://dergipark.org.tr/en/download/article-file/4516928
ER  -