Please use this identifier to cite or link to this item: https://dspace.mnau.edu.ua/jspui/handle/123456789/12004
Title: Agricultural Land: Crop Production or Photovoltaic Power Plants
Authors: Havrysh, Valeriy
Гавриш, Валерій Іванович
Hruban', Vasyl'
Грубань, Василь Анатолійович
Kalinichenko, Antonina
Szafranek, Edyta
Keywords: agricultural land
carbon dioxide
crop production
emission
photovoltaic
profitability index
sensitivity analysis
Social Sciences: Geography, Planning and Development
Environmental Science: Environmental Science (miscellaneous)
Computer Science: Computer Science (miscellaneous)
Engineering: Building and Construction
Environmental Science: Management, Monitoring, Policy and Law
Computer Science: Computer Networks and Communications
Energy: Energy Engineering and Power Technology
Computer Science: Hardware and Architecture
Energy: Renewable Energy, Sustainability and the Environment
Issue Date: 2022
Citation: Havrysh, V., Kalinichenko, A., Szafranek, E., & Hruban, V. (2022). Agricultural land: Crop production or photovoltaic power plants. Sustainability (Switzerland), 14(9) doi:10.3390/su14095099
Abstract: Mitigation of climate change requires a decrease in greenhouse gas emissions. It motivates an increase in renewable electricity generation. Farmers can develop renewable energy and increase their profitability by allocating agricultural land to PV power plants. This transition from crop production to electricity generation needs ecological and economic assessment from alternative land utilization. The novelty of this study is an integrated assessment that links economic and environmental (carbon dioxide emissions) indicators. They were calculated for crop production and solar power generation in a semi-arid zone. The results showed that gross income (crop production) ranges from USD 508/ha to USD 1389/ha. PV plants can generate up to 794 MWh/ha. Their market cost is EUR 82,000, and their production costs are less than wholesale prices in Ukrainian. The profitability index of a PV project ranges from 1.26 (a discount range is 10%) to 3.24 (a discount rate is 0). The sensitivity analysis was carried out for six variables. For each chosen variable, we found its switching value. It was revealed that the most sensitive variable is a feed-in tariff. Operational expenses and investment costs are the most sensitive variables. Carbon dioxide footprints range from 500 to 3200 kgCO2/ha (depending on the crop). A 618 kW PV plant causes a release of carbon dioxide in the range of 5.2–11.4 gCO2/kWh. The calculated carbon dioxide payback period varies from 5 to 10 months.
URI: https://dspace.mnau.edu.ua/jspui/handle/123456789/12004
Appears in Collections:Публікації науково-педагогічних працівників МНАУ у БД Scopus
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