Assessing the Physical and Environmental Aspects of Greenhouse Cultivation: A Comprehensive Review of Conventional and Hydroponic Methods

Farvardin, Mahrokh; Taki, Morteza; Gorjian, Shiva; Shabani, Edris; Sosa-Savedra, Julio C.

doi:10.3390/su16031273

Sustainability

2024

DOI: 10.3390/su16031273

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Assessing the Physical and Environmental Aspects of Greenhouse Cultivation: A Comprehensive Review of Conventional and Hydroponic Methods

Mahrokh Farvardin,

Morteza Taki,

Shiva Gorjian

et al.

Abstract: Population growth has presented several challenges in terms of energy, food supply, and environmental protection. The agricultural industry plays a crucial role in addressing these challenges by implementing innovative technologies that optimize resource utilization, minimize environmental impacts, and increase food production. Among these technologies, greenhouse cultivation systems have garnered substantial attention due to their ability to create a controlled environment for crop growth, resulting in higher… Show more

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Cited by 5 publications

References 172 publications

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Enhancing Greenhouse Performance Through Robotic Roof Cleaning Solutions: A Review

Amin,

Wang,

Chen

et al. 2024

Journal of Field Robotics

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The robotics industry has seen significant growth and advancement in the agricultural sector, particularly, in agricultural greenhouses. This study presents the most common cleaning methods for greenhouse roofs, including manual and automatic cleaning techniques. On the other hand, it provides greenhouse types, designs, and factors affecting lighting. It highlights the importance of cleaning and discusses the challenges of various robot designs and their future prospects. It was found that dust accumulation on greenhouse roofs could decrease the light intensity by 30%. Consequently, it could reduce the crop yield and quality by over 30%. Therefore, regular cleaning is crucial to provide the optimal light intensity for crops. The manual or traditional cleaning methods can cause damage, injuries, inefficiency, high costs, and labor shortages. This study investigates greenhouse‐cleaning robots and devices in terms of their operation, specifications, quality, and accuracy. Meanwhile, it summarizes the pros and cons of automatic cleaning. Furthermore, it evaluates robots based on a movement system, cleaning efficiency, and all characteristics in different countries. It was found that robots for Venlo‐type greenhouses are the most common and advanced robots, which achieve a light transmittance of up to 88% after cleaning. China and the Netherlands are at the forefront of commercial research technology applications. In conclusion, this study recommends investing more in robotic greenhouse cleaners to boost productivity and develop an intelligent cleaning system for greenhouse roofs. In addition, further research should be implemented to improve the durability and decrease the prices of robots.

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Enhancing Greenhouse Performance Through Robotic Roof Cleaning Solutions: A Review

Amin,

Wang,

Chen

et al. 2024

Journal of Field Robotics

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Efficiency and sustainability: Evaluating and optimizing energy use and environmental impact in cucumber production

Rashidi,

Azizpanah,

Fathi

et al. 2024

Environmental and Sustainability Indicators

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Design and experimentation of a solar-powered robot for cleaning the greenhouse roofs

Amin,

Wang,

Guoxiang

et al. 2024

Results in Engineering

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Assessing the Physical and Environmental Aspects of Greenhouse Cultivation: A Comprehensive Review of Conventional and Hydroponic Methods

Cited by 5 publications

References 172 publications

Enhancing Greenhouse Performance Through Robotic Roof Cleaning Solutions: A Review

Enhancing Greenhouse Performance Through Robotic Roof Cleaning Solutions: A Review

Efficiency and sustainability: Evaluating and optimizing energy use and environmental impact in cucumber production

Design and experimentation of a solar-powered robot for cleaning the greenhouse roofs

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