Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Photovoltaic (PV) systems are becoming more and more popular around the world, and Latvia is not an exception. This is mainly due to the increased efficiency and reduction in price of PV modules. However, Latvia still ranks below most European Union countries in the use of PV modules for electricity production. A significant problem for many farms and households in Latvia which use PV modules, is the lack of storage for the produced electricity. As a result, large amounts of electricity are sold for a relatively low price and while being bought from the main grid for a relatively high price. The aim of the study is to determine and compare the electricity consumption and PV systems producing electricity each month on the Jasmini Farm during 2020. The study shows that during the year, only 25.4% of all the electricity used on the Jasmini Farm was from PV modules, but the rest of the electricity was bought from the main grid. Furthermore, from all the electricity which PV modules produced in 2020, only 29.5% was used on the farm, while the rest was sold to the main grid.
Rocznik
Tom
Strony
111--118
Opis fizyczny
Bibliogr. 10 poz., rys., tab.
Twórcy
autor
- Latvia University of Life Sciences and Technologies
autor
- Latvia University of Life Sciences and Technologies
Bibliografia
- 1.Brudermann, T., Reinsberger, K., Ulz, A., Kislinger, M. & Posch, A. (2013) Photovoltaics in agriculture: A case study on decision making of farmers. Energy Policy, 62, 96-103.
- 2.Cossu, M., Murgia, L., Ledda, L., Deligios, P.A., Sirigu, A., Chessa, F. & Pazzona, A. (2014) Solar radiation distribution inside a greenhouse with south-oriented photovoltaic roofs and effects on crop productivity. Applied Energy, 133, 89-100.
- 3.Electrical capacity from renewables (2020), Central Statistical Bureau of Latvia https://data1.csb.gov.lv:443/sq/42692 (22.02.2021).
- 4.Kadowaki, M., Yano, A., Tanaka Ishizu, F., Tanaka, T. & Noda, S. (2012) Effects of greenhouse photovoltaic array shading on welsh onion growth. Biosystem Engineering, 111, 290-297.
- 5.Kuo, Y.-C., Chiang, C.-M., Chou, P.-C., Chen, H.-J., Lee, C.-Y. & Chan, C.-C. (2012) Applications of building integrated photovoltaic modules in a greenhouse of Northern Taiwan. J. of Biobased Materials and Bioenergy, 6, 721-727.
- 6.Renewable capacity statistics (2020), IRENA https://irena.org/publications/2020/Mar/Renewable-Capacity-Statistics-2020 (22.02.2021).
- 7.Rozentale, L., Lauka, D., Blumberga, D. Accelerating power generation with solar panels. Case in Latvia. Energy Procedia, 147, 600-606.
- 8.Solar energy (2021), IRENA https://www.irena.org/solar (22.02.2021).
- 9.Stanka, N., Aboltins, A., Palabinskis, J. (2020) Impact of high temperature and other factors on PV module efficiency on small farms in Latvia. 19th International Scientific Conference Engineering for Rural Development Proceedings. Jelgava, 19, 472-480.
- 10.Xue, J. (2017) Photovoltaic agriculture - New opportunity for photovoltaic applications in China. Renewable and Sustainable Energy Reviews, 73, 1-9.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8caf4c7c-1188-4922-a716-c1db5215c268