Comprehensive Utilisation and Performance Optimisation of Agro-electricity and Agro-photovoltaic Complementary Systems in Agricultural Production

Yehua Si; Yiding Wang; Yihao Cao; Delin Si

doi:10.62051/73tdky89

Authors

Yehua Si
Yiding Wang
Yihao Cao
Delin Si

DOI:

https://doi.org/10.62051/73tdky89

Keywords:

Agro-electricity and Agro-photovoltaic Systems, Agricultural Production, Renewable Energy, Integrated Utilisation, Performance Optimization

Abstract

Agroelectricity agro-photovoltaic (APV) complementary systems are increasingly attracting attention in the field of agricultural production as a way of integrating and utilising renewable energy resources. The aim of this study is to investigate the integrated utilisation and performance optimisation of agro-electricity agro-photovoltaic (AEPV) systems in agricultural production in order to improve the efficiency of agricultural production, conserve energy resources, and protect the environment. The integrated utilisation section explores the application of agroelectricity agro-photovoltaic systems in different types of agricultural production, emphasising the importance of integrated energy utilisation strategies to improve energy and economic efficiency. The Performance Optimisation Methods and Strategies section describes optimisation methods for system operation, equipment performance, energy dispatch and storage to improve system performance and reliability. The section on sustainability and environmental impacts emphasises the environmental friendliness and sustainability of agropower agro-photovoltaic systems, and discusses related environmental protection strategies and social responsibility. The research and application of agro-power agricultural and photovoltaic complementary systems are expected to bring more sustainable and cost-effective solutions to agricultural production.

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References

Pu, M., & Zhong, Y. (2020). Rising concerns over agricultural production as COVID-19 spreads: Lessons from China. Global food security, 26, 100409.

Jung, J., Maeda, M., Chang, A., Bhandari, M., Ashapure, A., & Landivar-Bowles, J. (2021). The potential of remote sensing and artificial intelligence as tools to improve the resilience of agriculture production systems. Current Opinion in Biotechnology, 70, 15-22.

Finger, R., Swinton, S. M., El Benni, N., & Walter, A. (2019). Precision farming at the nexus of agricultural production and the environment. Annual Review of Resource Economics, 11, 313-335.

Arora, N. K. (2019). Impact of climate change on agriculture production and its sustainable solutions. Environmental Sustainability, 2(2), 95-96.

Ma, L., Long, H., Tang, L., Tu, S., Zhang, Y., & Qu, Y. (2021). Analysis of the spatial variations of determinants of agricultural production efficiency in China. Computers and Electronics in Agriculture, 180, 105890.

Shikur, Z. H. (2020). Agricultural policies, agricultural production and rural households’ welfare in Ethiopia. Journal of Economic Structures, 9(1), 1-21.

Sánchez-Bravo, P., Chambers, E., Noguera-Artiaga, L., Sendra, E., Chambers IV, E., & Carbonell-Barrachina, Á. A. (2021). Consumer understanding of sustainability concept in agricultural products. Food quality and preference, 89, 104136.

Udomkun, P., Romuli, S., Schock, S., Mahayothee, B., Sartas, M., Wossen, T., ... & Müller, J. (2020). Review of solar dryers for agricultural products in Asia and Africa: An innovation landscape approach. Journal of Environmental management, 268, 110730.

Khan, Z. A., Koondhar, M. A., Khan, I., Ali, U., & Tianjun, L. (2021). Dynamic linkage between industrialization, energy consumption, carbon emission, and agricultural products export of Pakistan: an ARDL approach. Environmental Science and Pollution Research, 28, 43698-43710.

Chandio, A. A., Jiang, Y., Abbas, Q., Amin, A., & Mohsin, M. (2022). Does financial development enhance agricultural production in the long‐run? Evidence from China. Journal of Public Affairs, 22(2), e2342.

Hutchings, N. J., Sørensen, P., Cordovil, C. M., Leip, A., & Amon, B. (2020). Measures to increase the nitrogen use efficiency of European agricultural production. Global Food Security, 26, 100381.

Zhang, R., Ma, W., & Liu, J. (2021). Impact of government subsidy on agricultural production and pollution: A game-theoretic approach. Journal of cleaner production, 285, 124806.

Devkota, K. P., Devkota, M., Rezaei, M., & Oosterbaan, R. (2022). Managing salinity for sustainable agricultural production in salt-affected soils of irrigated drylands. Agricultural Systems, 198, 103390.

Awuchi, C. G., Awuchi, C. G., Ukpe, A. E., Asoegwu, C. R., Uyo, C. N., & Ngoka, K. E. (2020). Environmental impacts of food and agricultural production: a systematic review. Eur. Acad. Res, 8(2), 1120-1135.

Liu, Y., Zhuo, L., Varis, O., Fang, K., Liu, G., & Wu, P. (2021). Enhancing water and land efficiency in agricultural production and trade between Central Asia and China. Science of the Total Environment, 780, 146584.

Robina-Ramirez, R., Chamorro-Mera, A., & Moreno-Luna, L. (2020). Organic and online attributes for buying and selling agricultural products in the e-marketplace in Spain. Electronic Commerce Research and Applications, 42, 100992.

Byshov, N. V., Lazutkina, L. N., Konkina, V. S., Chikhman, M. A., & Fedosova, O. A. (2019). Improving the quality of agrarian education as a basis for transfering technologies to agricultural production. Dilemas Contemporáneos: Educación, Política y Valore, 6(Special).

do Prado Tanure, T. M., Miyajima, D. N., Magalhães, A. S., Domingues, E. P., & Carvalho, T. S. (2020). The impacts of climate change on agricultural production, land use and economy of the legal Amazon Region between 2030 and 2049. EconomiA, 21(1), 73-90.

Chavas, J. P., Cooper, J., & Wallander, S. (2019). The impact of input and output decisions on agricultural production risk. Journal of Agricultural and Resource Economics, 44(3), 513-535.

Cang, Y. M., & Wang, D. C. (2021). A comparative study on the online shopping willingness of fresh agricultural products between experienced consumers and potential consumers. Sustainable Computing: Informatics and Systems, 30, 100493.

De Brauw, A. (2020). Seasonal migration and agricultural production in Vietnam. In Migration, Transfers and Economic Decision Making among Agricultural Households (pp. 114-139). Routledge.

Dumortier, J., Carriquiry, M., & Elobeid, A. (2021). Where does all the biofuel go? Fuel efficiency gains and its effects on global agricultural production. Energy policy, 148, 111909.