A greenhouse is a structure with walls and roof made chie y of transparent material such as glass in which plants requiring regulated climatic conditions are grown. Greenhouses technology addresses the major environmental factors of light, temperature, water, nutrition, and carbon dioxide, and features extensive discussions of greenhouse types, construction, and climate control. The text Greenhouse Technology and Management highlights technology such as hydroponics, computer control of environments, and advanced mathematical procedures for environmental optimization. First chapter presents promising ideas and results about the combination of Bayesian networks and energy demands prediction applied in greenhouses. In order to improve the location accuracy in the complicated greenhouse environment, a positioning system has been designed in second chapter. In third chapter, we focus on temperature field-wind velocity field optimum control of greenhouse environment based on CFD model. Fourth chapter discusses the e ort at constructing big data sensor networks for monitoring greenhouse gas emission. In fth chapter, various technologies for post-combustion and the best condition for using each technology have been discussed. Fabrication and characterization of dye-sensitized solar cells for greenhouse application have been focused in sixth chapter. The aim of seventh chapter is to de ne a type of greenhouse which is particularly suitable for plant material propagation in order to preserve forest biodiversity in the area of the Central Italy. The e ect of the evaporative cooling on the human thermal comfort and heat stress in a greenhouse under arid conditions has been focused in eighth chapter. In ninth chapter, we present a survey based greenhouse gas emissions accounting methodology for urban residential consumption, and apply it in Xiamen City, a rapidly urbanizing coastal city in southeast China. Tenth chapter investigates the residue behavior of chlorpyrifos in six vegetables in the greenhouse. In eleventh chapter, we focus on greenhouse-selected resistance to Cry3BB1-producing corn in three Western corn rootworm populations. The objective of twelfth chapter is to elucidate the e ects of chemical treatment on the loss of NH3, CH4, N2O, and CO2 from dairy cattle slurry applied to grassland soils. In thirteenth chapter, we develop a framework to examine the consequences of future sustainable forest management implementation scenarios on the long-term persistence of Sabah’s orangutan population. The objective of fourteenth chapter is to assess environmental risks of heavy metals pollution in the greenhouse soils and vegetables by using pollution index. Nutrient analysis of soil and soilless strawberries and raspberries grown in a greenhouse has been presented in fteenth chapter. A case study on analysis of solid waste management and greenhouse gas emissions in México has been proposed in sixteenth chapter. Seventeenth chapter describes E-CROP and gives an example of its application by focusing on arable cropping systems in the Netherlands Feasibility analysis of a standalone direct pumping photovoltaic system for irrigation in Mediterranean greenhouses has been revealed in last chapter
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