Your search keyword '"Zhuravel, D."' showing total 5 results

1. Solar Dryer with Integrated Energy Unit

Author

Korobka S., Syrotyuk S., Zhuravel D., Boltianskyi B., and Boltianska L.

Subjects

technological process, convective drying, fruit, thermal energy, solar energy, heliodilator, diffusion, moisture transfer., Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830

Abstract

The work is devoted to the issue of the rational use of the solar energy in the technological process of fruit drying based on the use of solar drying devices, which are applied in various sections of the agro-industrial centers of Ukraine. The aim of this research was intensification of the fruits drying process using the solar energy by combining an air collector and drying chamber into a single power unit. To achieve the aim the heat exchange diagnostic techniques with alternative potentials of diffusion and moisture transfer was developed. This technique differs from those existing for the heat exchange research in that it allows the intensity of the moisture evaporation from a unit of the material surface to be calculated, based on the synthesis of the moisture content and the irreversible major laws of processes of the heat exchange characteristics of the fruits drying using the solar dryer. The above model makes it possible to diagnose the heat exchange processes and analyze the mathematical model of the heat exchange processes. It also allows modeling the changeable diffusion and moisture transfer potentials based on the dependences obtained and for the purpose of a further application in the methods and devices development to control the strain-deformed state of the fruits during the drying process. The method is offered for the calculation of diffusion and moisture transfer during drying fruits in the solar dryer.

Published

2021

2. ays to Improve the Efficiency of Pipelines Heat Insulation

Author

Struchaiev N., Postol Y., Stopin Y., Zhuravel D., and Hulevskyi V.

Subjects

energy saving, thermal insulation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830

Abstract

A significant part of thermal energy is lost precisely during its transportation. By increasing the efficiency of thermal insulation of pipelines, it is possible to reduce significantly heat loss around the world. The purpose of the paper is to develop and validate methods for increasing the efficiency of thermal insulation of pipelines by determining its optimal location. This purpose has been achieved by applying of a modified method for studying the process of heat loss, taking into account the radiation component, to calculate the heat loss and surface temperature of the thermal insulation with different spatial arrangements. For comparison, we analysed three options for the heat loss of pipe with a different spatial arrangement of thermal insulation coated with an aluminium reflective film facing outward, facing inward and in both directions. Comparison of these variants showed that it had been advisable to insulate the pipelines by installing an insulation layer coated with an aluminium reflective film facing in both directions. The main result of paper has been the proposed method for calculating of heat losses, which could be used in the design of thermal insulation of pipelines and the obtained data confirming the correspondence of theoretical calculations to actual values of the surface temperature of thermal insulation taking into account its various spatial arrangements. The importance of the results of the work lies in the possibility of using this technique to assess the effectiveness of thermal insulation of pipelines and determine the best solutions for its spatial location.

Published

2020

3. [Induction of the Tn10 precise excision in E. coli cells after accelerated heavy ions irradiation].

Author

Zhuravel' DV

Subjects

Carbon, Dose-Response Relationship, Radiation, Escherichia coli genetics, Escherichia coli growth & development, Helium, Mutation, Relative Biological Effectiveness, DNA Transposable Elements radiation effects, Escherichia coli radiation effects, Heavy Ions, Linear Energy Transfer

Abstract

The influence of the irradiation of different kinds on the induction of the structural mutations in the bacteria Escherichia coli is considered. The regularities of the Tn10 precise excision after accelerated 4He and 12C ions irradiations with different linear energy transfer (LET) were investigated. Dose dependences of the survival and relative frequency of the Tn10 precise excision were obtained. It was shown, that the relative frequency of the Tn10 precise excision is the exponential function from the irradiation dose. Relative biological efficiency (RBE), and relative genetic efficiency (RGE) were calculated, and were treated as the function of the LET.

Published

2004

4. [Regularities of excising transposon Tn10 in rec-mutant E. coli cells exposed to gamma radiation].

Author

Zhuravel' DV and Boreĭko AV

Subjects

DNA Repair, Escherichia coli genetics, Bacterial Proteins genetics, DNA Restriction Enzymes, DNA Transposable Elements, Deoxyribonucleases genetics, Escherichia coli radiation effects, Gamma Rays, Mutation, Rec A Recombinases genetics

Abstract

The regularities of gamma-induced excision of transposon Tn10 in different rec-strains of E. coli cells after gamma-irradiation have been studied. The survival of cells and relative frequency of the Tn10 elimination as a function of the 137Cs gamma-radiation doses were investigated. RecN and recA-mutants of E. coli were used for study of the role of rec-genes in the gamma-induced transposon excision. It was shown that the induced excision in the recN mutant was reduced. The transposon excision in the recA mutant was not revealed. The obtained results let to conclude that recA, and recN genes are involved not only in DNA repair processes but also in the gamma-induced transposon excision in bacteria.

Published

2002

5. [Study of the olfactory response in the Drosophila homeotic mutant leg-aristae-wing complex gene].

Author

Simonova OB, Sukhoverkhova TI, Zhuravel' DA, Romanova LG, and Korochkin LI

Subjects

Animals, Drosophila melanogaster anatomy & histology, Drosophila melanogaster physiology, Mutation, Smell genetics, Smell physiology, Drosophila melanogaster genetics, Genes, Homeobox

Abstract

Antennae are known to be olfactory organs in Drosophila. The leg-aristae-wing complex (lawc) mutation causes a homeotic transformation of the arista (the fifth element of antenna) into tarsal elements. To test how the homeotic transformation of the arista into the tarsus can affect behavior, we studied the olfactory response in the lawc mutants. The data were carefully processed by statistical methods. In spite of a low penetrance of the trait of arista transformation, the mutant flies were found to be approximately half as perceptible to attractant odors than the wild-type flies.

Published

2000