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Pregled bibliografske jedinice broj: 882891

Critical Period Method - Innovative Method for Sizing of the Irrigation Systems: Case Kosovo


Lajqi, Shpetim; Đurin, Bojan; Baić, Lucija; Doci, Ilir; Lajqi, Naser; Drilon, Meha
Critical Period Method - Innovative Method for Sizing of the Irrigation Systems: Case Kosovo // Mehanizaciâ na zemedelieto, 63 (2017), 4; 157-160 (podatak o recenziji nije dostupan, članak, znanstveni)


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Naslov
Critical Period Method - Innovative Method for Sizing of the Irrigation Systems: Case Kosovo

Autori
Lajqi, Shpetim ; Đurin, Bojan ; Baić, Lucija ; Doci, Ilir ; Lajqi, Naser ; Drilon, Meha

Izvornik
Mehanizaciâ na zemedelieto (0861-9638) 63 (2017), 4; 157-160

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
Critical Period Method ; Irrigation ; Water Pumping ; Renewable Energy Sources ; Solar Photovoltaic Energy ; Pump Station ; Water Reservoir ; Sustainable Development

Sažetak
Systematic approach and sustainable use of water and energy is the key point for human existence. Irrigation systems are one of the main directions for the development of the economy. Renewable energy sources, especially solar photovoltaic (PV) energy are suitable as input energy for the irrigation systems. By using the original and innovative scientifically sizing method named Critical Period Method, the irrigation systems are sustainable, given the economic, environmental and social indicators. This method includes design elements of the solution by subsystems: Photovoltaic generator + invertor - PV, pump station - PS and water reservoir - WR based on the critical period of operation of each one. Critical Period Method is different from the usual sizing methods because instead of a single critical period, which relates to the maximum daily water consumption, this method considers three critical periods (for subsystems PV, PS, and WR) due to the different balancing days. Each of the critical periods is determined with regards to a certain balance period. Critical day/period for subsystem PV is determined by statistical minimization, with regards to the difference between over pumped and demand quantity of water. For the subsystem, WR critical day/period is the day with maximum water demand and the shortest duration of solar radiation suitable for the operation of the pump station. A critical day/period for the subsystem PS also coincides with this critical day. Pumps use electric energy produced by using solar photovoltaic energy and causing water pumping into the water reservoir, which with its usual hydraulic role of storing water also has the function of energy reservoir. This concept is adaptable and can be implemented in the previously constructed systems, as well as for the new ones. Application of Critical Period Method replaces the installation of long energy supply lines and associated energy losses, and additionally reduces greenhouse gas emissions. Application of Critical Period Method is suitable for rural areas because of locations where classical power network is not available or has limited availability, i.e. remote areas and on islands. In order to prove this innovative method, a practical application is predicted to perform in irrigation of agriculture field in Deçan, Kosovo.

Izvorni jezik
Engleski

Znanstvena područja
Elektrotehnika, Građevinarstvo, Temeljne tehničke znanosti

Napomena
Rad u ovom časopisu objavljen je i u zborniku radova konferencije ''Agricultural Machinery 2017'', Varna, Bugarska.



POVEZANOST RADA


Ustanove:
Geotehnički fakultet, Varaždin

Profili:

Avatar Url Lucija Plantak (autor)

Avatar Url Bojan Đurin (autor)

Citiraj ovu publikaciju:

Lajqi, Shpetim; Đurin, Bojan; Baić, Lucija; Doci, Ilir; Lajqi, Naser; Drilon, Meha
Critical Period Method - Innovative Method for Sizing of the Irrigation Systems: Case Kosovo // Mehanizaciâ na zemedelieto, 63 (2017), 4; 157-160 (podatak o recenziji nije dostupan, članak, znanstveni)
Lajqi, S., Đurin, B., Baić, L., Doci, I., Lajqi, N. & Drilon, M. (2017) Critical Period Method - Innovative Method for Sizing of the Irrigation Systems: Case Kosovo. Mehanizaciâ na zemedelieto, 63 (4), 157-160.
@article{article, author = {Lajqi, Shpetim and \DJurin, Bojan and Bai\'{c}, Lucija and Doci, Ilir and Lajqi, Naser and Drilon, Meha}, year = {2017}, pages = {157-160}, keywords = {Critical Period Method, Irrigation, Water Pumping, Renewable Energy Sources, Solar Photovoltaic Energy, Pump Station, Water Reservoir, Sustainable Development}, journal = {Mehanizaci\^{a} na zemedelieto}, volume = {63}, number = {4}, issn = {0861-9638}, title = {Critical Period Method - Innovative Method for Sizing of the Irrigation Systems: Case Kosovo}, keyword = {Critical Period Method, Irrigation, Water Pumping, Renewable Energy Sources, Solar Photovoltaic Energy, Pump Station, Water Reservoir, Sustainable Development} }
@article{article, author = {Lajqi, Shpetim and \DJurin, Bojan and Bai\'{c}, Lucija and Doci, Ilir and Lajqi, Naser and Drilon, Meha}, year = {2017}, pages = {157-160}, keywords = {Critical Period Method, Irrigation, Water Pumping, Renewable Energy Sources, Solar Photovoltaic Energy, Pump Station, Water Reservoir, Sustainable Development}, journal = {Mehanizaci\^{a} na zemedelieto}, volume = {63}, number = {4}, issn = {0861-9638}, title = {Critical Period Method - Innovative Method for Sizing of the Irrigation Systems: Case Kosovo}, keyword = {Critical Period Method, Irrigation, Water Pumping, Renewable Energy Sources, Solar Photovoltaic Energy, Pump Station, Water Reservoir, Sustainable Development} }




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