AquiNutri – aplicativo de celular para otimização do arraçoamento de peixes / AquiNutri – cellphone app for fish feed otimization

A produção de peixes é uma atividade que cresce continuamente no Brasil e tecnologias surgem em diversos segmentos para contribuir em termos de facilidade de operação e redução de custos ao produtor. Visando otimizar o processo de arraçoamento de peixes foi desenvolvido um aplicativo para smartphones para calcular a quantidade de alimento a ser fornecida ao dia para duas espécies de peixes, tilápias e pacus. Com o auxílio do aplicativo é possível de maneira fácil e rápida verificar a quantidade de ração a ser fornecida a cada trato, que está associada à temperatura da água. Com a utilização deste recurso, espera-se que ocorra maior agilidade no momento da alimentação, bem como redução dos desperdícios de ração e, consequentemente, deterioração da qualidade de água e redução do custo com ração

Quality of second season soybean submitted to drying and storage

Drying agricultural products reduces the moisture content to suitable levels for storage, in order to maintain the product quality. However, special care with the temperatures applied in the process is important for the integrity and longevity of the material. The present study aimed at determining the immediate and latent effect of air-drying temperatures on the quality of soybean produced as a second season crop. The grains were collected at the R8 stage, close to the physiological maturity, with moisture content of approximately 23 % (w.b.), submitted to drying temperatures of 40 ºC, 50 ºC, 60 ºC, 70 ºC and 80 ºC, up to a moisture content of 12.5 ± 0.7 % (w.b.), and then stored under non-controlled humidity and temperature for 180 days. Thereafter, quality was assessed every 45 days by determining the dry matter loss, color and crude protein and lipid contents, as well as the acidity and peroxide indices of the crude oil extracted. Based on the results obtained, it was concluded that the increase in the air-drying temperature affects the soybean quality and crude oil extracted, being this effect enhanced with the storage time; the soybean and crude oil quality decline with an increase in the air-drying temperature and storage time; the air temperature of 40 ºC has the least effect on the quality of soybean grains and crude oil extracted

Evaluation of the rational use of agricultural space for better human occupation

Changes in microclimates in urbanized areas are due to direct human interference, such as the replacement of wooded areas by paving and construction in inadequate locations. For the study of environments, climatic variables interpreted in isolation have little informative content because its exist in set. Considering the expansion of urban areas over the rural environment, the characterization of anthropized environments has been an important tool for feeding urban projects that, in order to be sustainable, have used comfort indexes in your evaluations. Another resource currently used are decision support systems, such as those that use fuzzy logic, as they assist in the observation of conflicting situations such as those involving environmental issues. Thus, in this research, the human discomfort index (HDI) was used to assess 6 different microclimates and to verify the degree of interference of rural anthropization in human thermal comfort and with the observed information build a mathematical model based on fuzzy logic, relating climatic variables and microenvironments, in which the response variable were levels of human well-being. In the end, it was possible to conclude that the urbanization process in rural areas influences the microclimate and quality of the environments, reflecting human thermal comfort. In addition, the Fuzzy model constructed estimated the observed scenarios in a coherent manner, serving to assist in the management of agricultural environments and decision making

Oil composition and physiological quality of niger seeds after drying

With the depletion of fossil fuel resources accelerating the search for renewable energy sources, studies on agricultural products containing a significant amount of oil in their compositions have intensified. The objective of this work was to investigate the fatty acid profile and the physiological quality of the oil extracted from niger seeds dried at different temperatures. The seeds were dried at 40, 50, 60, and 70°C, until their moisture content reached 8.5 ± 1% (wet basis). The physiological properties of niger seeds were determined by assessing their germination, germination speed index, mean germination time, cold test, accelerated aging with a saturated solution, emergence percentage, and emergence speed index. The quality of the oil was evaluated using gas chromatography, based on the fatty acid profile. We concluded that drying air temperatures of 40 and 50°C did not compromise the physiological quality of niger seeds. However, the 70°C drying temperature seriously impaired seed quality. The drying temperatures that were used in this study did not substantially alter the fatty acid profile of niger oil

Drying kinetics and effective diffusion of watermelon seeds

Studying the drying kinetics allows describing the process by mathematical models and obtaining information that helps to understand the phenomenon in question. Considering that watermelon (Citrullus lanatus) seeds have high moisture content and need to be subjected to drying, the objective was to select the model that best represents the drying behavior of watermelon seeds and determine the diffusion coefficient, activation energy and drying rate of these seeds at different temperatures. The seeds were dried in an experimental dryer at temperatures of 40, 45, 50, 55 and 60 °C, with air velocity of 0.8 m s-1, in four replicates. The models were fitted with non-linear regression analysis using the Gauss-Newton method. It was concluded that the models that best represent the drying kinetics of watermelon seeds are Approximation of Diffusion for temperatures of 40, 50 and 55 °C and Page for 55 and 60 °C. The highest drying rates are observed at the highest temperatures. The diffusion coefficients presented magnitude of 7.69684×10-10 and 1.27585×10-9 for the range from 40 to 60 °C, and the activation energy was 12.2641 kJ mol-1

PROPRIEDADES FÍSICAS DOS FRUTOS DE AMENDOIM DURANTE A SECAGEM

The present work was accomplished with the objective of evaluating the drying effect on the peanut fruits physical properties. Peanut fruits with an initial moisture content of 0.63 decimal db were dried with a temperature of 40 ºC. Bulk density, true density, porosity, thousand - grain weight, sphericity, circularity, projected area, surface area and surface/volume ratio physical properties were determined. Based on these re- sults, it is concluded that reducing the moisture content promotes reduction in all the physical properties of pea- nut fruits, except the surface/volume ratio that have their values increased with the moisture content reduction. The circularity as sphericity of the peanut fruit values was reduced during the drying process

Modelagem matemática da secagem dos frutos de amendoim em camada delgada

Este trabalho teve por objetivo ajustar modelos matemáticos aos dados experimentais da secagem dos frutos de amendoim em camada delgada, submetidos a diferentes temperaturas do ar de secagem. Foram utilizados frutos de amendoim da cultivar IAC 505. Os frutos de amendoim foram submetidos à secagem em estufa de ventilação forçada com diferentes níveis de temperatura (40; 50; 60 e 70 ºC). Aos dados experimentais foram ajustados dez modelos matemáticos tradicionalmente utilizados para representação da cinética de secagem em camada delgada. Baseado nos resultados encontrados, conclui-se que dentre os modelos ajustados aos dados experimentais, o modelo de Page foi o escolhido para representar o fenômeno de secagem em camada delgada dos frutos de amendoim. O coeficiente de difusão efetivo aumenta com a elevação da temperatura, e a sua relação com a temperatura de secagem pode ser descrita pela equação de Arrhenius. As propriedades termodinâmicas entalpia e entropia tiveram seus valores reduzidos com aumento da temperatura do ar de secagem, enquanto que os valores da energia livre de Gibbs aumentam com o aumento da temperatura.The aim of this study was to fit mathematical models to the experimental data from the thin-layer drying of peanut fruit subjected to different drying-air temperatures. Peanut fruit from the IAC 505 cultivar were used. The peanut fruit were subjected to drying in a forced ventilation oven at different temperature levels (40, 50, 60 and 70 ºC). Ten mathematical models, traditionally used to represent the kinetics of thin-layer drying, were fit to the experimental data. Based on the results, it can be concluded that among the models adjusted to the experimental data, the Page model was chosen to represent the phenomenon of thin-layer drying in peanut fruit. The effective diffusion coefficient increases with the rise in temperature, and its relation to the drying temperature can be described by the Arrhenius equation. The values for the thermodynamic properties, enthalpy and entropy, were reduced with the increasing temperature of the drying air, while the values for Gibbs free energy increased with the increase in temperature

Physiological potential of soybean seeds after maturation and submitted to artificial drying

Abstract: This study evaluated the physiological potential of soybean seeds harvested during two seasons, on different maturation stages and subjected to different drying temperatures. The seeds were harvested at the maturations stages R7, R7 + 2, R7 + 3, R7 + 5, R7 + 6, R7 + 7, R7 + 10 and R7 + 12 days (55, 50, 45, 40, 35, 30, 25, and 20% of moisture content). For each maturation stage, seeds were divided into three samples: one sample was used to directly evaluate the physiological potential, and the others were dried at 40 °C and 50 °C, until reaching the moisture content of 11.5%. The physiological potential was evaluated through germination test, first germination count of germination, accelerated aging, modified cold, electrical conductivity and seedling emergence. The maximum physiological potential of seeds is achieved at the moisture content of 55%, the point that the dry matter is maximum. The seeds became tolerant to artificial drying approximately at the stage R7 + 7 days (30% of moisture content). Germination and vigor of the soybean seeds reduce as the drying temperature is increased from 40 °C to 50 °C, and this effect is enhanced when the seeds show moisture contents above 30%