Information and analytical technology for control and operation management of gas transportation systems operation modes

• Autorzy: Tevyashev Andriy , Iievlieva Svitlana

Warianty tytułu

PL

Informacja i technologia analityczna do zarządzania trybem pracy przy kontroli i obsłudze systemów trasportowych gazu

• Języki publikacji: EN

Abstrakty

EN

The purpose of the study is to develop new information and analytical technologies and tools for optimal stochastic control of the technological processes of production, preparation, transportation and distribution of energy resources in the gas transportation systems of Ukraine. The achievement of this goal will enable us to implement a unified, well-balanced approach to the modernization and rational development the gas transportation systems of Ukraine based on achieving maximum indicators in resource saving and environmentally friendly technologies in energy, which is currently extremely relevant.

PL

Celem badań jest opracowanie nowych technologii narzędzi informacyjnych i analitycznych dla optymalnego stochastycznego sterowania procesami technologicznymi produkcji, przygotowania, transportu i dystrybucji surowców energetycznych w systemach transportu gazu na Ukrainie.

Słowa kluczowe

EN

gas transportation systems; optimal stochastic control; information and analytical technologies

PL

systemy transportu gazu; optymalna kontrola stochastyczna; technologie informacyjne i analityczne

• Wydawca: Wydawnictwa Uczelniane Politechniki Bydgoskiej im. Jana i Jędrzeja Śniadeckich
• Czasopismo: Zeszyty Naukowe. Telekomunikacja i Elektronika / Uniwersytet Technologiczno-Przyrodniczy w Bydgoszczy
• Rocznik: 2018
• Tom: nr 21
• Strony: 69--84
• Opis fizyczny: Bibliogr. 10 poz., rys., tab.

Twórcy

autor

Tevyashev Andriy

• Kharkiv National University of Radio Electronics, Nauka Ave, 14, Kharkov, 61000, Ukraine

autor

Iievlieva Svitlana

• Kharkiv National University of Radio Electronics, Nauka Ave, 14, Kharkov, 61000, Ukraine

Bibliografia

• [1] Anderson L. New ASEA system for no-break power supply. ASEA Journal 45, 157–160.
• [2] Evdokimov A.G., Tevyashev A.D., 1980. Operative control of flow distribution in engineering networks.Kharkov: "SCHOOL".
• [3] GOST 31371.7-2008 Natural gas. Determination of the composition by gas chromatography with an uncertainty estimate. Part 7. Methods for measuring the molar fraction of components.
• [4] Novitsky N.N, Sukharev M.G, Tevyashev A.D., 2010. Pipeline energy systems:mathematical modeling and optimization. Science, Novosibirsk.
• [5] Pipelines. Part 1. Gas pipelines: ONTP-51-1-84, 1999. State Standard of Ukraine, (valid from 1986-01-01). Sectoral norms of technological design.
• [6] Tevyashev A.D., 2013. Stochastic Models and Methods for Optimizing the Operating Modes of Gas Transport Systems.Technological Audit and Production Reserves 6(4), 49–51.
• [7] Tevyashev A.D., Matvienko O.I., 2015. Mathematical model and the method of optimal stochastic control of the operation modes of the main water conduit. East European Journal of Advanced Technologies 6/4 (78), 45–53.
• [8] Tevyashev A.D., Matviyenko O.I., 2015. About One Problem of Optimal Stochastic Control of the Modes of Operation of Water Mains. Econtechmod. An International Quarterly Journal 4(3), 3–12.
• [9] Tevyashev A.D., Smirnova V.S., 2008. Mathematical modeling of non-stationary non-isothermal gas flow along the gas pipeline section. Radioelectronics and Informatics 2, 21–27.
• [10] Tevyashev A.D., Tevyasheva O.A., Smirnova V.S., 2012. On one strategy for optimizing the operating modes of gas-transport systems. East-European Journal of Advanced Technologies 4(3), 48–52.