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ThesisItem Open Access Evaluation and refinement of low cost automation system for naturally ventilated greenhouse(Department of Soil and Water Conservation Engineering, Tavanur, 2019) Jinu, A; KAU; Abdul Hakkim, V MGreenhouses are structures used for offseason cultivation of crops and also for obtaining maximum production from unit area. In greenhouses, crop growing environment as well as growing medium can be modified by adopting suitable technologies for microclimate control and water and fertilizer application. Manual controls of microclimate and water and fertilizer application are time and labour consuming and hence automation is required for the better greenhouse management. The study entitled “Evaluation and refinement of low cost automation system for naturally ventilated greenhouses” was conducted during the period July 2015 to February 2017 to modify the existing low cost automation system at ARS Anakkayam and also for its performance evaluation. Existing automation system has limitations such as it cannot manage temperature and relative humidity separately and also it cannot manage irrigation and fertigation. These problems were rectified in refined automation system. The refinement of the system was done by changing the microcontroller used in the automation system and also using a timer for the timely management of irrigation and fertigation. The refined system was capable of managing temperature and relative humidity separately and performing irrigation and fertigation operations inside the greenhouse. The refined automation system was tested without crop and with crop during three crop seasons with salad cucumber crop (variety Saniya) inside the greenhouse. The experiment was conducted inside a naturally ventilated greenhouse situated at the ARS, Anakkayam, under Kerala Agricultural University. For comparison, salad cucumber was cultivated inside another greenhouse which is manually controlled. Microclimate as well as crop data were collected from outside the greenhouse and both these greenhouses and compared. The temperature inside the AGH was less compared to NAGH and the relative humidity inside the automated greenhouse never exceeded above 70%. The yield and all other crop parameters were better in AGH compared to NAGH.ThesisItem Open Access Optimization of greenhouse ventilation for humid tropics(Department of Irrigation and Drainage Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2000) Jinu, A; KAU; Abdul Hakkim, V MIn any agricultural sector, the need of the hour is to maximize the yield per unit area to cater the needs of our population, which is exploding at an alarming rate. Protected cultivation or controlled environment agriculture is one of the methods to increase the crop production from unit area. Of the various forms of protected cultivation, greenhouses are most common. Our state falls under humid tropical climatic condition. Greenhouse cooling is to be done during peak hours of daytime under this climatic condition. Ventilation plays an important role in green house cooling. A study was conducted to determine the optimum greenhouse ventilation for humid tropics and to analyze the effect of different cooling methods viz. natural ventilation, fan and pad system, mist system and roof shading on greenhouse cooling. The study showed that natural ventilation could reduce the greenhouse temperature to a great extent. The different percentages of ventilation used for the experiment were 13.8, 11.5, 9.2, 6.9, 4.6 and 2.3. The study was also conducted without ventilation. As percentage ventilation increases, greenhouse cooling increases and inside relative humidity decreases. 13.8 percent ventilation gave maximum greenhouse cooling and this value is taken as the optimum percentage of natural ventilation. But the natural ventilation alone cannot meet the cooling requirement during peak hours. Fan and pad system is found to be not effective for greenhouse cooling in this particular study. Even 2.3 percentage of natural ventilation condition gave better cooling than fan and pad cooling system. Misting is an effective method to lower down the greenhouse temperature within a short period of time. Misting was done along with fans at different percentages of ventilation and the different climatic parameters were studied. The results showed that while misting, the maximum cooling was obtained at 2.3 percent of ventilation. Effect of roof shading on greenhouse cooling was tested with one shade net over the greenhouse. Roof shade has a significant effect on greenhouse cooling. Th inside temperature of the greenhouse was higher than the outside temperature by more than lOoe during peak hours of the day time, when no ventilation was provided and fan and pad system, mist system and shade cover were not used. But when the green house was covered with a shade net, an inside to outside temperature difference of one or two degree was observed. Also, while operating fan and pad system and mist system, shaded condition gave better cooling. Fan and pad system operated without shade cover, could not bring down the greenhouse temperature below ambient temperature. But for the shaded condition, greenhouse temperature could be lowered to a value less than the ambient temperature. Misting under shaded condition at 2.3 percent ventilation gave maximum cooling. Misting inside an unshaded greenhouse at 2.3 percent ventilation could bring down the greenhouse temperature to 32°C, but misting inside a shaded greenhouse at 2.3 percent ventilation lowered the greenhouse temperature to 29°C. Use of two shade net layers did not give any additional cooling, and at this condition the light intensity inside the greenhouse was only 10 percent of the outside light intensity. It only increases the cost of the greenhouse and hence it is not recommended to use two shade net layers for greenhouses.