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Author: KAU × End date: 2014 × Start date: 2014 × Type: Thesis × Thesis Type: M.Tech. ×
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    ThesisItemOpen Access
    Development and evaluation of a cassava (Manihot esculenta) storage cum packaging system
    (Department of post harvest technology and agricultural processing, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2014) Chinthana, D T; KAU; George, Mathew
    Cassava (Manihot esculenta) has its origins in South America. This tuber root crop has become the staple food of the economically weaker sections of these countries as this can be grown in most of the adverse climatic and in fertile soil condition. In India the major production today is still from Kerala followed by Tamil Nadu and Andra Pradesh where it is gaining commercial importance for the production of Sago and Starch. The shelf life of this crop starts deteriorating immediately after harvesting and becomes unmarketable within 2-3 days. Hence, this study was undertaken to develop a more practical and affordable method to increase the shelf life of cassava by keeping in mind the economically weaker sections of society worldwide. The method chosen was to store the fresh cassava roots in boxes made up of locally available materials such as (wood, plastic, plywood) and filled with easily available cheap filler materials which are within the reach of the common man. To maintain moist condition of the filler materials small quantity of water was sprinkled daily. The filler materials selected ranged from different types of soils like sand , clay and laterite soil, cheap synthetic materials like sponge and plastic cuttings, and easily available organic materials like cassava leaves, coir, saw dust and wooden shavings. For the present study, the size of the box was developed to house around 6 Kgs of the roots along with filler materials. Two locally available popular varieties of Cassava viz. M4 and Muttechi were chosen for the study. First experiment was carried out with M4 variety with nine different filler materials as explained above stored in nine wooden boxes. Quality parameters were studied periodically in a range 5 days. It was found that cassava could be stored for 40 days using wooden shavings as filler material followed by sawdust and coconut fibre for 35day. The second experiment was the repetition of the same study with another variety commonly known as Muttechi variety in Kerala. Quality parameters were studied periodically in a range 5 – 7 days. It was found that cassava could be stored for 37 days using wooden shavings as filler material followed by sawdust (32days) and coconut fibre 27days. First two experiments revealed that synthetic filler materials like sponge, plastic etc were harmful to their survival. Organic materials like cassava leaves, Sand as a filler material was good in the initial stages but could not support for longer durations. The above two experiments were conducted using wooden boxes. In order to find the impact of material of construction of box on the storage duration of cassava, a third study was done choosing three materials (wooden box, plastic box and plywood boxes). Nine boxes were used for the study (3 each for the same material). The best three filler materials coconut fibre, saw dust and wooden shavings out of nine filler materials used in first and second experiments were used in the third experiment R.H 75% and temperature was 32ºC. Results of third experiment showed that the storage box played an important role more than that of the filler materials, as the roots stored in plywood box with best of the three filler materials could not survive for more than 15 days Comparing all the quality parameters it was observed that cassava roots stored in wooden box with wooden shavings as filler materials with routine replenishing of moisture by adding small quantity of water was best suited for extending the shelf life of the cassava roots up to 37 days during winter and the results could be less during summer with the extended shelf life of around 15 days. The economic analysis of the storage system was conducted and it was found for storing 1kg of cassava in the developed storage system with wooden shavings as a filler material including labour charges was Rs. 4.62/-. Hence, it can be concluded that this simple method of extending the shelf life of cassava roots by storing them in wooden boxes with wooden shavings as filler material with retention of moisture in the boxes by sprinkling small quantity of water daily is very economical, successful and easy for quick transportation.
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    ThesisItemOpen Access
    Soil erosion studies under simulated rainfall conditions in a lateritic terrain
    (Department of Land and Water Resources and Conservation Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2014) Praveena, K K; KAU; Kurien, E K
    Soil erosion IS a complex phenomenon involving the detachment and transport of soil particles, storage and runoff of rainwater and infiltration. Soil erosion depends on several factors such as climate, soil type, topography, cropping and land management practices, the antecedent conditions and the size of the area under consideration. The present study was carried out in the lateritic terrain of KCAET campus, Tavanur, Malappuram District. This study was aimed at developing a rainfall simulator and studying the performance of the developed rainfall simulator, the effect of rainfall on soil loss, the effect of rainfall on runoff and developing a soil erosion model. A rainfall simulator was fabricated to study the erosion processes. Rainbird 12115118 Van Pop up sprinkler heads were used as the drop formers. The simulator evaluated for its performance. The soil was reddish brown and belonged to the textural class of sandy loam. It belonged to the Naduvattom series. The experimental set up consisted of three units viz., the runoff plot, the rainfall simulator and the runoff-sediment collection unit. Twelve runoff plots with twelve different slopes of 1.5, 2.0, 2.6, 3.0, 3.2, 4.0, 5.0, 6.0, 9.0, 10, 12 and 13 per cent in different locations, each plot with a size of2 x 1.5 m were prepared. The fabricated rainfall simulator could produce rainfall intensities varying from 8.16 to 8.80 ern/h. The uniformity of rainfall varied from 89.01 to 92.70 per cent and the average drop size varied from 1.5 to 2.8 mm. A relationship between supply pressure and intensity of rainfall as well as intensity and uniformity of rainfall was developed. Studies were conducted on soil loss and runoff at different land slopes under simulated rainfall conditions. The soil loss and runoff was found to increase with increase in rainfall intensity and land slopes and there were no much variations on runoff and soil loss at 6 to 10 per cent land slopes. A linear multiple regression analysis and 3D surface plot analysis was used to incorporate slope and rainfall intensities into a single prediction equation of soil loss and runoff using SPSS software and MATLAB package. The linear equations developed by the regression analysis are as follows: Q = 38.9451 - 11.606 S - 126.391 E = 124.356 1 - 0.807 S -951.420 (R2 = 0.649) (R 2 = 0.307) The quadratic equations developed by the 3D surface plot analysis are as follows: Q = 130.8 - 28.72 S + 48.12 1 + 2.11 S2 - 1.544 S 1 E = - 647.4 - 49.261 + 86.94 S - 0.3206 12 +6.296 S I As the variants explained were satisfactory enough to explain the runoff and soil loss, it may be concluded that the causative factors namely slope and intensity are bearing directive impact on soil erosion. A canonical analysis was worked out to determine the effect on runoff and soil loss by the vector of parameters u ing slope and intensity. Canonical R was computed and the same was 0.82034 and it is significant at 1 per cent level. Hence it may be concluded that the vector of process 'including slope and intensity as parameters together navigates the ultimate impact namely runoff and soil loss.
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    ThesisItemOpen Access
    Development of a filter system for roof water harvesting
    (Department of Land and Water Resources and Conservation Engineering, Kelappaji College of Agricultural Engineering and Technology, Tavanur, 2014) Shijila, Erikottil; KAU; Sathian, K K
    This thesis work was undertaken to study the performance of modified mesh filter under rainfall. The mesh filter was modified with two other filters such as sand and charcoal filter and their combination study was conducted on artificial rainwater and evaluated the quality of filtered water. The two filters are fabricated with naturally available material such as above 1 mm size coarse sand and small pieces of burned coconut shell. These materials are freely available from surroundings and each material was filled in each PVC pipes of 25 cm length. From the first study four buildings are selected in the campus have different impurity levels that because of rain fall events, purposes or constructed material. It was found that there are small variations in the quality of harvested water but after filtration all results are same because filter was not depends on the roofing material and impurity level. The quality parameter like pH of the rainwater harvested after the filtration with mesh filter for all roofs met the USEPA secondary drinking water standard range of 6.5-8.5. The electrical conductivity, turbidity and suspended solids are also met the drinking water standards by WHO and the calculated average filter efficiency of mesh filter was 81.3 %. From the filter combination study the quality parameter such as pH, electrical conductivity, turbidity and suspended .,olids also examined through water quality analyzer of collected samples. As per the BIS 10500 of 2004 and WHO all the results are in the permissible range. The BOD test result was ranging from 44 to 92 mg/l and compared to inflow the filtered water has drastic reduction in the values. From the coliform test it was cleared that there were no colifirms (011 OOml) in the filtered water after 24 hour incubation period where as in inflow water coliforms were detected. It was found that there is a marked reductio'. .n the concentration of impurities, The reduction in im urities ranges from 84 to 86 % and the charcoal tilter has highest filtration rate of 9.42 m3/minlm2 compared to others. The results clearly. revealed that combined filters remove the impurities in a more efficient manner than of the mesh filter developed earlier. There is only minor difference between the both filters. The results clearly revealed that combined filters remove the impurities in a mo: e efficient manner than of the mesh filter developed earler. There is only minor difference between the both filters.
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    ThesisItemOpen Access
    Design, development and evaluation of an automated drip irrigation system
    (Department of Land and Water Resources and Conservation Engineering, Kelappaji College of Agricultural Engineering and technology, Tavanur, 2014) Navneet, Sharma; KAU; Abdul Hakkim, V M
    The present study was conducted to design, develop and evaluate an automated drip irrigation system working on the basis of soil moisture deficit and to establish the relationship between soil moisture content, electrical conductivity. The study involved fabrication of a soil moisture deficit based automation system and testing of the system under laboratory and field conditions. The system was tested and calibrated for automatic irrigation scheduling. As the soil started drying up, water content decreased and the conductivity reading in the data logger decreased. When the sensor readings reach the preset threshold level, the system gets automatically switched on. The irrigation setup was operated until the moisture reached the preset level of field capacity. Conversely, an increase the soil water content increased the conductivity. In this way, automation system continuously recorded fluctuations in soil moisture content under varying field conditions. Laboratory tests were conducted to evaluate the performance of the drip automation system in salt solution, sandy loam and laterite soils to develop the calibration curves. It was observed that there existed a significant correlation between the soil moisture content and electrical conductivity of sensors. Soil moisture sensors were evaluated with respect to the moisture content of sandy loam and laterite soils. In sandy loam soil, the values of maximum and minimum sensor output values were 17.5 to 3.3 mS/m and for laterite soil it was 15.1 to 2.4 mS/m. In the field evaluation using amaranths crop, the moisture distribution was more or less uniform near the soil surface soon after irrigation. The developed electrical conductivity based soil moisture sensors performed well in the laboratory study using sandy loam and laterite soils, but during field evaluation in sandy loam soil its performance was not satisfactory. In case of capacitor type soil moisture sensor, the performance was satisfactory in both conditions. Capacitor type soil moisture sensor performed well in sandy loam soil in the field evaluation. From the results of this study it can be concluded that capacitor type soil moisture sensor can perform better than electrical conductivity based soil moisture sensor for field use. The drip automation system developed was simple, precise, sensitive, light weight, cost effective in construction and fast responding. The speed of measurement, cheapness and portability are the key advantages and the system is easily adaptable for use with automatic logging equipment. There is scope for further studies on optimization of the electrode geometry and evaluation of electrical conductivity based soil moisture sensors with different fertilizer and chemical application.