3 research outputs found
Characteristics of the first selective breeding generation of the antoninsko-zozulenets intrabreed type of Ukrainian carp breeds in 4th and 5th years of life
Purpose. To provide a comprehensive characterization of the first selective breeding generation of the Antoninsko-Zozulenets intrabreed type of Ukrainian carp breeds in the 4th and 5th years of life based on productive and biological parameters.
Methodology. The material for the study were age-3+ and 4+ individuals of the Antoninsko-Zozulenets intrabreed type of carp. The main productive and biological parameters were studied during spring valuation and autumn harvest according to generally accepted methods in fish farming. The exterior assessment of the experimental groups was carried out for following parameters: weight, length, height and body girth. Measurements were made with a centimeter tape with an accuracy of 1 mm. Individual weighing was carried out on electronic commercial scales with an accuracy of 1 g. The main exterior indices were analyzed and determined based on the measurement results: girth index, body length to height ratio, head length to body length ratio.
Findings. The conducted study showed that the yield from wintering was in the range of 91.31–92.25% for age-3, and 90.68–91.78% for age-4 fish. At the same time, weight loss was 6.43–7.65% in the third year of life and 5.74–7.46% in the fourth year of life.
The survival rate of age-3+ fish was 95.3 - 96.6%, age-4+ 95.9 - 97.2%. The average weight of age-3+ framed and scaled carps was 3835.0±77.27 g and 3740.0±120.50 g, respectively. The weight gain during the season was 2.0 kg in scaled and 2.1 kg in framed carps. The average individual body weight of age-4+ fish was on average 5060.0±110.54 g for framed individuals and 4900.0±117.26 g for scaled ones. The weight gain of scaled Antoninsko-Zozulenets carp was 1.8 kg, framed carp - 1.9 kg. According to exterior parameters, age-3+ and age-4+ fish had higher values of the body length to height and condition factor, but were inferior in terms of the head length to body length ratio compared to their peers with the scaled cover.
Originality. For the first time in the conditions of Ukraine, a comparative analysis of fish productive and biological parameters of the replacement brood stock of the first selective breeding generation of the Antoninsko-Zozulenets intrabreed type of the Ukrainian framed and scaled carp breed was carried out.
Practical value. The use of brood fish of a new intrabreed type with defined features of the genotype will allow obtaining new promising lines for industrial cultivation at different levels of intensification of aquaculture and in different climatic zones as well as hybrids between geographically isolated populations
Optimal Management in the Operation of Complex Technical Systems
Developing a cost management system for a complex technical system (CTS) at the stages of its life cycle is a modern trend aimed at creating sustainable cooperation ties based on requirements, including those of manufacturers and consumers. The article explores the concept of a complex technical system. The principles and properties of a complex technical system were described. A model of a procedure for checking the operability of a complex technical system with an arbitrary distribution of the time of independent manifestation of a failure was proposed for the example of compressor station equipment. Models of operation of complex technical systems based on information about their state were considered. It was also shown how to optimize maintenance decisions for these systems in terms of the minimum average unit cost and how reliable this ensures. Additionally, proof of the existence of an optimal verification strategy was given. An algorithm for determining the moments of verification was developed to ensure the minimum cost. The methods of collecting, processing, and effectively using information for making decisions about the technical condition of complex products and the possibility of further exploitation were improved based on selecting informative diagnostic features and constructing models that comprehensively consider the maximum and current level of their parameters. This allowed for the quality of the final products to be ensured. The practical use of the proposed methods of diagnosis and forecasting made it possible to increase the actual CTS resource by 1.5–2.0 times. This also increased the productivity of the technological process by 1.6 times due to the reduction of the number of stops for maintenance for replacement, adjustments, and sub-adjustments. As a result, the value of the lack of basic production was reduced from 1.2 % to 0.8 %, and the cost of manufacturing products was decreased by 1.2–2.0 times
Optimal management in the operation of complex technical systems
Developing a cost management system for a complex technical system (CTS) at the stages of its life cycle
is a modern trend aimed at creating sustainable cooperation ties based on requirements, including those of
manufacturers and consumers. The article explores the concept of a complex technical system. The principles and
properties of a complex technical system were described. A model of a procedure for checking the operability of a
complex technical system with an arbitrary distribution of the time of independent manifestation of a failure was
proposed for the example of compressor station equipment. Models of operation of complex technical systems based
on information about their state were considered. It was also shown how to optimize maintenance decisions for these
systems in terms of the minimum average unit cost and how reliable this ensures. Additionally, proof of the existence
of an optimal verification strategy was given. An algorithm for determining the moments of verification was developed
to ensure the minimum cost. The methods of collecting, processing, and effectively using information for making
decisions about the technical condition of complex products and the possibility of further exploitation were improved
based on selecting informative diagnostic features and constructing models that comprehensively consider the
maximum and current level of their parameters. This allowed for the quality of the final products to be ensured. The
practical use of the proposed methods of diagnosis and forecasting made it possible to increase the actual CTS resource
by 1.5–2.0 times. This also increased the productivity of the technological process by 1.6 times due to the reduction of
the number of stops for maintenance for replacement, adjustments, and sub-adjustments. As a result, the value of the
lack of basic production was reduced from 1.2 % to 0.8 %, and the cost of manufacturing products was decreased by
1.2–2.0 times