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A Concept of Smart Agro-photovoltaic Tunnels
Identificadores del recurso
http://eprints.imdea-agua.org:13000/1606/13/A_Concept_of_Smart_Agro-Photovoltaic_Tunnels%20%282%29.pdf
Wielgat, R. and Kolodziej, A. and Candela, L. and Lisowska-Lis, A. and Jasielski, J. and Chlastawa, L. and Touhami, M. and Jaramillo, M.F. (2024) A Concept of Smart Agro-photovoltaic Tunnels. IEEE Access, 12. pp. 40765-40794. ISSN 2169-3536
Origin
(e-Prints: Repositorio Institucional de IMDEA Agua)

File

Title:
A Concept of Smart Agro-photovoltaic Tunnels
Description:
The paper is a review of chosen reports on the integration of photovoltaics and agrotechnics and also presents the concept of an agro-photovoltaic foil tunnel module. The concept of an agro-photovoltaic module assumes the possibility of integrating the modules into the intelligent agro-photovoltaic fields. The proposed solution combines the cultivation in a foil tunnel with a photovoltaic farm. The paper reviews electronic solutions to control ambient parameters particularly those influencing the rate of photosynthesis in foil tunnels. The article also presents an analysis of energy and water balance of the module in 4 different climatic zones. The climate zones include locations in Poland, Spain, Algeria, and Colombia. The module’s water requirements include drip irrigation and fogging systems. Water is assumed to be obtained from rainfall, desalination, non-conventional (treated, desalinated) resources, groundwater, and sub-artesian wells. The module’s energy needs include electricity consumption for pumping freshwater, desalination and water treatment, irrigation and fertilization, additional lighting and heating of plants, folding and unfolding of foil covers, and energy consumption related to control. The article also presents an analysis of crop shading by solar panels and its impact on the selected crop. The functionality of the presented solution was assessed for tomato cultivation in the four selected areas. A foil tunnel of the total area 240 m2 was considered. 60 m2 of the tunnel was covered by the PV panels. Results of the analysis show that the most energetically effective agro-photovoltaic cultivation of tomatoes appears to be in the Saharan region of Africa where 16 MWh annual energy surplus has been obtained. Slightly less effective seem to be cultivations in Spain (Cartagena) and Colombia (Cali) with the approximately 15.5 MWh/a. The least effective agro-photovoltaic cultivation of tomatoes proved to be in Poland where the energy surplus reached 8.5 MWh/a. However, economic return from the cultivation strongly depends on local energy and tomato prices. The system of smart tunnels proposed by the authors combines photovoltaics with controlled protection of crops against unfavorable and extreme climatic conditions. In addition, the system allows plants to be grown with the maximum possible number of days with natural growing conditions, i.e. with uncovered tunnels, with natural bio-fertilization and with natural sunlight.
Relation:
http://dx.doi.org/10.1109/ACCESS.2024.3376411
http://eprints.imdea-agua.org:13000/1606/
Autor/Productor:
Wielgat, R.
Kolodziej, A.
Candela, L.
Lisowska-Lis, A.
Jasielski, J.
Chlastawa, L.
Touhami, M.
Jaramillo, M.F.
Date:
2024
Tipo de recurso:
Article
PeerReviewed
Format:
text

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      1. <bibo:abstract datatype="http://www.w3.org/2001/XMLSchema#string">The paper is a review of chosen reports on the integration of photovoltaics and agrotechnics and also presents the concept of an agro-photovoltaic foil tunnel module. The concept of an agro-photovoltaic module assumes the possibility of integrating the modules into the intelligent agro-photovoltaic fields. The proposed solution combines the cultivation in a foil tunnel with a photovoltaic farm. The paper reviews electronic solutions to control ambient parameters particularly those influencing the rate of photosynthesis in foil tunnels. The article also presents an analysis of energy and water balance of the module in 4 different climatic zones. The climate zones include locations in Poland, Spain, Algeria, and Colombia. The module’s water requirements include drip irrigation and fogging systems. Water is assumed to be obtained from rainfall, desalination, non-conventional (treated, desalinated) resources, groundwater, and sub-artesian wells. The module’s energy needs include electricity consumption for pumping freshwater, desalination and water treatment, irrigation and fertilization, additional lighting and heating of plants, folding and unfolding of foil covers, and energy consumption related to control. The article also presents an analysis of crop shading by solar panels and its impact on the selected crop. The functionality of the presented solution was assessed for tomato cultivation in the four selected areas. A foil tunnel of the total area 240 m2 was considered. 60 m2 of the tunnel was covered by the PV panels. Results of the analysis show that the most energetically effective agro-photovoltaic cultivation of tomatoes appears to be in the Saharan region of Africa where 16 MWh annual energy surplus has been obtained. Slightly less effective seem to be cultivations in Spain (Cartagena) and Colombia (Cali) with the approximately 15.5 MWh/a. The least effective agro-photovoltaic cultivation of tomatoes proved to be in Poland where the energy surplus reached 8.5 MWh/a. However, economic return from the cultivation strongly depends on local energy and tomato prices. The system of smart tunnels proposed by the authors combines photovoltaics with controlled protection of crops against unfavorable and extreme climatic conditions. In addition, the system allows plants to be grown with the maximum possible number of days with natural growing conditions, i.e. with uncovered tunnels, with natural bio-fertilization and with natural sunlight.</bibo:abstract>

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