Energy-saving design and control strategy towards modern sustainable greenhouse: A review

článek v časopise ve Web of Science, Jimp

en

A greenhouse is an energy-intensive sector with substantial greenhouse gas emissions and extensive energy consumption. Energy-saving greenhouse strategies become particularly important on the premise of ensuring effective crop production to achieve sustainable energy development. This paper aims to deliver a comprehensive review on crucial energy-saving strategies from greenhouse design to operational stage. This contribution analyses effective energy-saving methods for greenhouse design considering greenhouse structures, ventilation and lighting systems. It details the energy-saving operation of greenhouses by summarising renewable energy technologies and integration systems, including photovoltaic modules, solar collectors, heat pumps and other integrated modules. These environment-friendly technologies achieve the purpose of environment protection and energy conservation of greenhouse. The research findings reveal that more than half of the energy is saved through appropriate greenhouse renovation. Control strategies for improving the energy efficiency of the greenhouse in aspects of monitoring system management and control algorithms have been discussed as well. The neural network combined with other control algorithms is a suitable approach to solve nonlinear control problems with a good control accuracy. In the final part, the life cycle environmental impacts and environmental footprints assessment of greenhouse is discussed. Life cycle assessment of modern integrated greenhouse is expected to be further studied. This review provides valuable insights and suggestions for the design and transformation of modern sustainable greenhouses.

A greenhouse is an energy-intensive sector with substantial greenhouse gas emissions and extensive energy consumption. Energy-saving greenhouse strategies become particularly important on the premise of ensuring effective crop production to achieve sustainable energy development. This paper aims to deliver a comprehensive review on crucial energy-saving strategies from greenhouse design to operational stage. This contribution analyses effective energy-saving methods for greenhouse design considering greenhouse structures, ventilation and lighting systems. It details the energy-saving operation of greenhouses by summarising renewable energy technologies and integration systems, including photovoltaic modules, solar collectors, heat pumps and other integrated modules. These environment-friendly technologies achieve the purpose of environment protection and energy conservation of greenhouse. The research findings reveal that more than half of the energy is saved through appropriate greenhouse renovation. Control strategies for improving the energy efficiency of the greenhouse in aspects of monitoring system management and control algorithms have been discussed as well. The neural network combined with other control algorithms is a suitable approach to solve nonlinear control problems with a good control accuracy. In the final part, the life cycle environmental impacts and environmental footprints assessment of greenhouse is discussed. Life cycle assessment of modern integrated greenhouse is expected to be further studied. This review provides valuable insights and suggestions for the design and transformation of modern sustainable greenhouses.

Control strategy; Energy efficiency; Environmental footprint. (word count: 15722); Greenhouses; Life cycle assessment; Renewable technology

01.08.2022

Elsevier Ltd

1364-0321

164

112602–112602

22