Specifications for the Phytotechnical Arrangement of the Surrounding Renewable Energy Sources (RES) Environment

Ioannis Mitrousis (), Evripidis Farmakis (), Konstantinos Farmakis () and Vasileios K. Drosos ()
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Ioannis Mitrousis: Democritus University of Thrace
Evripidis Farmakis: University of Derby
Konstantinos Farmakis: University of Derby
Vasileios K. Drosos: Democritus University of Thrace

SN Operations Research Forum, 2025, vol. 6, issue 3, 1-21

Abstract: Abstract On a theoretical and practical level, the benefits and environmental impacts resulting from the use of renewable and non-renewable energy sources have been mostly accepted, understood, and calculated. In addition, infrastructure construction studies have been conducted, studied, and implemented for the utilization of most energy sources. The cognitive processes for processing information about processable energy sources are not directly involved with renewable or non-renewable energy sources but refer to each of the energy sources that make them up separately. The aim of the present paper is to carefully select the best or most suitable landscaping design, phytotechnical planning, phytotechnical material, and phytotechnical method for the arrangement of renewable energy sources (RES) environment. The methodology that will be used will be as follows: Collection of findings from data sources and data collection such as literature review. Consideration of alternative solutions for findings. State whether the hypothesis or theory is supported or not supported and/or can answer the research questions. Consideration of the generalizability of the findings. There are specific factors for a phytotechnical method in photovoltaic energy power generating stations that need to be considered and analyzed in the present paper. Such as planting surfaces that are safe for planting, planting species to be used and related to the soil morphology or physiology, plants’ height, preparatory interventions to create suitable conditions at planting sites, and growing methods and maintenance of the planting. These factors are defined according to the classification of photovoltaic station work (A1, A2, B, exempt from environmental licensing). The results include the selection of the necessary plant species according to the principles of phyto-technical arrangement and the necessary specifications.

Keywords: Photovoltaic power plants; Planting species; Potential risks; Preparatory interventions (search for similar items in EconPapers)
Date: 2025
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DOI: 10.1007/s43069-025-00526-w

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