Browsing by Author "Odewole, M.M."
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Item Comparative analysis of physico-chemical properties of oil extract from two varieties of fluted pumpkin seeds using different extraction methods(Kathmandu University Journal of Science, Engineering and Technology. Published by Kathmandu University of Science, Engineering and Technology, Dhulikhel Kavre PB No 6250 Kathmandu Nepal. Available online at https://www.nepjol.info/index.php/KUSET/article/view/21283, 2017) Sunmonu, M.O.; Ajala, E.O.; Odewole, M.M.; Morrison, S.; Alabi, A.M.This study investigates physical and chemical properties two seeds namely Ugba (Telfairia pedata) and Ugwu (Telfairia occidentalis) using soaking soxhlet methods of extraction. The physical properties examined are moisture content, ash content, crude protein, fat and oil, crude fibre and carbohydrates. The chemical properties examined are Acid value (mgKOH/g), saponification value, iodine value, free fatty acid, peroxide and refractive index. Higher mean values of moisture content, ash content, crude fibre and carbohydrates were noticed in Ugwu than in Ugba under soaking method. However, the trend was reversed for crude protein and free fatty acid, in whose case they appear to be higher in Ugba than in Ugwu. For soxhlet method, moisture content, ash content, crude fibre and carbohydrates seems to have higher mean values in Ugwu seed compared to when Ugba seed was used. However, crude protein and fat and oil content were higher using Ugba seed than Ugwu seed oil. For soaking method, Ugba seed seem to produce higher mean values of sap value, iodine value, and refractive index when compared with Ugwu seed. On the other Ugwu, seems to produce acid value, free fatty acid and peroxide value when compared with ugba for soaking method. Using soxhlet apparatus however, Ugba seed produces higher mean values for acid value, sap value, iodine value, and free fatty acid compared to Ugwu. The reverse was the case with peroxide and refractive index, still with soxhlet apparatus.Item Development of an Instrumentation System for a Laboratory Model Food Product Dryer(2020) Ajiboye, A.T.; Yusuf, A.O.; Odewole, M.M.Item Development of Instrumentation System for a Laboratory Model Food Product Dryer(Faculty of Engineering, Federal University Oye-Ekiti, 2020) Ajiboye, A.T.; Yusuf, A.O.; Odewole, M.M.Item Effects of packaging materials, pickling agents and spices on the microbial counts of pickled okra(Nigerian Journal of Pure and Applied Science, 2016) Sunmonu, M.O.; Ajala, E.O; Odewole, M.M.; Adebiyi, J; Osuolale, A.L.Okra samples classified as variety 47-4 according to National Horticultural Research Institute (NIHORT), Ibadan, Nigeria were separately pickled in olive oil, groundnut oil and vinegar (5% acetic acid) spiced with ginger, garlic and mixture of ginger and garlic preserved in stainless steel, glass and plastic jars (12 jars each) for 7days at room temperature. For the purpose of comparison, the spices were controlled for using a parallel experiment with no spices added to the pickled okra. The storage environment temperature and relative humidity ranges from 260C to 290C and 66% to 78% respectively. Various microbial growth or count (bacteria and fungi) such as Total Viable Count, Coliform Count, Fecal Coliform Count and Fungal Count of each treatment combination (packaging materials, the pickling agents and spices) were observed at the end of the experiment and the result was evaluated using ANOVA at p ≤ 0.05. From the results of the research, vinegar in glass jars shows an absent of some microorganisms as well as the least microbial counts (1.0 × 105 cfu/ml) irrespective of the spice used. Mixture of spices in any pickling agents irrespective of the packaging materials shows great increase in microbial load beyond value gotten when individual spices were used. In general, highest microbial load were observed in okra pickled with olive oil, spiced with ginger and preserved in stainless steel jar while okra pickled in vinegar shows comparatively very low microbial count. Generally, the TVC ranges within 8.6 × 105 to 1.0 × 105 cfu/ml, CC range from 6.9 × 105 to 0.00 cfu/ml, FCC ranges from 3.7 × 105 to 0.00 cfu/ml while FC ranges from 3.2 × 103 to 1.0 × 103 cfu/ml.Item Modeling and optimization of drying rate and quality parameters of dried osmo-pretreated green bell pepper (Capsicum annuum)(Nigerian Journal of Pure and Applied Science, 2016) Odewole, M.M.; Ajala, E.O.; Obajemihi, O.I.; Adeyinka-Ajiboye, O.; Oyeniyi, S.K.A study on modeling and optimization of osmotic dehydration and drying of green bell pepper was carried out. Five levels of osmotic process durations (60 min, 90 min, 120 min, 150 min and 180 min) and five levels of osmotic solution concentrations (5% (w/w), 10% (w/w), 15% (w/w), 20% (w/w) and 25% (w/w) as input parameters were used. Design Expert 8.0.3 version was used to design the experiment in order to get all possible combinations of durations and concentrations. After pretreating all samples of fresh green pepper in hypertonic osmotic solution concentrations of NaCl for the required durations, they were all dried at 50˚C in a fabricated cabinet dryer. The following output parameters were modeled and optimized with Design Expert 8.0.3 version: drying rate, vitamin C, crude protein, crude fibre, fat, ash content, water loss, solid gain, shrinkage and rehydration ratio. Ten (10) model equations, one for each of the output parameters were developed, and checked for adequacy and validity. All developed model equations were found to present functional relationships between input and output parameters. Hence, all developed model equations can be used as reliable tools for estimating, predicting and conducting analysis of the process. Best optimized results were selected based on desirability (0 - 1). Drying rate (maximized), vitamin C (maximized), crude protein (maximized), crude fibre (maximized), fat (maximized), ash content (minimized), water loss (maximized), solid gain (maximized), shrinkage (minimized) and rehydration ratio (maximized) got desirability of 0.889, 1.00, 1.00, 1.00, 1.00, 1.00, 1.00, 0.85, 0.734 and 0.868 respectively.