Introduction. Maximum use of potential biological potential of seed material is among the ways to increase the production and to improve the quality of agricultural products. In view of the above, various methods of preseeding treatment of seeds of agricultural crops by means of electromagnetic fields are used. At the same time there is insufficient clarity of reproducibility of the results of radiation. Problem Statement. However, the conventional methods for determining germination capacity require a wide range of equipment and materials and are time-consuming. Therefore, the search for new methods of pre-seeding treatment and the development of rapid calorimetric methods are promising directions of research. Purpose. To study the effect of irradiation on seed material, by calorimetric methods. Materials and Methods. To determine the caloric value of seed material, two batches of Scarlet barley seeds are taken, one of which is irradiated with an electric field. The caloric value of the grain has been determined using the calorimetric device B-08M, according to DSTU ISO 1928:2006. Results. The results of quantitative indicators of temperature change of the irradiated and reference batch of barley grain have been presented in a graphical form to visualize the effect of irradiation. The analysis of results has shown that the non-irradiated seeds have a germination capacity of 82%, while for the irradiated seeds this index is equal to 88%. Respectively, their caloric value is 10 842 kJ/kg and 11 985 kJ/kg, i.e. differs by 10.5%. An experimental dependence has been established that to increase germination by 1% it is necessary to increase the caloric value of seed mass by approximately 1.83%. Conclusions. A 10-11% increase in the caloric value of the seeds after irradiation indicates that the irradiation process is realized. The use of calorimetry methods can be recommended as a seed material irradiation quality control method.
Introduction. Single-phase power supply of induction motors is used in public utilities, in microclimate control systems for remote agricultural consumers, in water supply and pipeline transport systems, etc. In practice, there is the use of induction motors with three-phase stator winding in the conditions of single-phase power supply. Starting and operating capacitors are used to enable their operation when powered by a single-phase network. Problem. There are many fairly accurate methods for calculating the characteristics of an induction motor in asymmetric, including single-phase, modes of operation, but they are based on differential equations, which does not allow to obtain analytical expressions for preliminary analysis and synthesis of such systems. Goal. The purpose of this article is to develop the analytical method of definition of electromagnetic torque and energy losses of voltage-regulated three-phase induction motors working according to the scheme of single-phase inclusion with the phase-shifting capacitor. Methodology. The method is based on the theory of symmetric components and analysis of replacement schemes of induction machine in motor and generator modes. Results. The analysis of the obtained data shows that at a constant value of the phase-shifting capacitor capacity induction motor working according to the scheme of single-phase inclusion has a minimum of losses at one value of slip at different values of supply voltage. Therefore, if you keep this slip constant when the load changes, you can achieve a mode of minimizing losses at a constant value of the capacity, optimal for this slip. This shows that the thyristor voltage regulator can be used as an energy-saving element under variable load, while the capacitance of the phase-shifting capacitor can remain constant when changing the load in a wide range provided that this slip is stabilized. Originality. The developed method allows to obtain analytical expressions for comparative analysis of electromagnetic torque and energy losses of three-phase induction motors powered by a single-phase network at different values of the capacity of the phase-shifting capacitor, supply voltage for different variants of schemes for including three-phase induction motors in a single-phase network. Practical value. Based on the developed analytical method, the optimal parameters of phase-shifting capacitors and rational schemes for including three-phase induction motors in a single-phase network can be determined.
Introduction. To date, many different devices and methods have been developed for pre-sowing stimulation of seeds in order to increase yields and to maximize the seed bioenergy capacity.Problem Statement. However, the conventional methods for pre-sowing stimulation of seeds with subsequent determination of germination require a wide range of equipment and consumables plus long research time. Developing new methods of pre-sowing treatment and the development of new methods for determining the bioenergycapacity of sowing material is a promising field of research.Purpose. The purpose of this research is to study the stress method for pre-sowing stimulation of seeds and determination of its bioenergy capacity by the calorimetry method.Materials and Methods. To determine the bioenergy capacity of seed material, two batches of Myronivska-808 variety wheat seeds are taken, one of which is subjected to a stress in the form of impact on a rigid surface. The bioenergy capacity of the seed has been determined with the use of the calorimetric device B-08 M, according to DSTU ISO 1928:2006.Results. It has been shown that the bioenergy capacity before and after impact is 10842 kJ/kg and 12649 kJ/kg, respectively, the difference between them is 1807 kJ/kg. This indicates that as a result of the stress treatment of the seeds, their bioenergy capacity increases by 14.3%. At the same time, no seed damages caused by falling of the seed mass from a height of 3 m on a motionless surface have been found.Conclusions. An increase in the bioenergy capacity of seeds after impact by 14—15% indicates that the stress method of pre-sowing stimulation is rather effective. The use of calorimetry methods may be recommended as a way to control the quality of the stress method of pre-sowing stimulation of seed material.
Introduction. Maximum use of potential biological potential of seed material is among the ways to increase the production and to improve the quality of agricultural products. In view of the above, various methods of preseeding treatment of seeds of agricultural crops by means of electromagnetic fields are used. At the same time there is insufficient clarity of reproducibility of the results of radiation.Problem Statement. However, the conventional methods for determining germination capacity require a wide range of equipment and materials and are time-consuming. Therefore, the search for new methods of pre-seeding treatment and the development of rapid calorimetric methods are promising directions of research.Purpose. To study the effect of irradiation on seed material, by calorimetric methods. Materials and Methods. To determine the caloric value of seed material, two batches of Scarlet barley seeds are taken, one of which is irradiated with an electric field. The caloric value of the grain has been determined using the calorimetric device B-08M, according to DSTU ISO 1928:2006 Results. The results of quantitative indicators of temperature change of the irradiated and reference batch of barley grain have been presented in a graphical form to visualize the effect of irradiation. The analysis of results has shown that the non-irradiated seeds have a germination capacity of 82%, while for the irradiated seeds this index is equal to 88%. Respectively, their caloric value is 10 842 kJ/kg and 11 985 kJ/kg, i.e. differs by 10.5%. An experimental dependence has been established that to increase germination by 1% it is necessary to increase the caloric value of seed mass by approximately 1.83%.Conclusions. A 10-11% increase in the caloric value of the seeds after irradiation indicates that the irradiation process is realized. The use of calorimetry methods can be recommended as a seed material irradiation quality control method.
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