SELECTION OF BASIC VARIANTS OF DESIGN SCHEMES FOR GAS DISCHARGE AND UTILIZATION SYSTEMS FOR SOLVING THE MAIN TASKS OF GAS DYNAMIC ANALYSIS OF SHOCK WAVE PROCESSES IN THE CHANNELS OF THE GAS DISCHARGE AND UTILIZATION SYSTEMS

Maksimenko A.F. – Doctor of Technical Sciences, Professor of the Gubkin Russian State University of Oil and Gas (National Research University), maksimenko.a@gubkin.ru maksimenko.a@gubkin.ru
Kuznechikov A.S. – Senior Lecturer at the Gubkin Russian State University of Oil and Gas (National Research University), kas@gubkin.ru kas@gubkin.ru

УДК 622.691; 533.6

Key words: gas discharge and utilization systems; gas dynamics; shock wave processes; pipeline systems; design schemes; gas dynamic analysis.

In this paper, we consider the features of the choice of variants of the design schemes of gas discharge and utilization systems for solving the main problems of gas dynamic analysis of shock wave processes in the channels of the gas discharge and utilization systems. Schemes for various stages of the shock wave propagation process in a pipeline are given.

SELECTION OF BASIC VARIANTS OF DESIGN SCHEMES FOR GAS DISCHARGE AND UTILIZATION SYSTEMS FOR SOLVING THE MAIN TASKS OF GAS DYNAMIC ANALYSIS OF SHOCK WAVE PROCESSES IN THE CHANNELS OF THE GAS DISCHARGE AND UTILIZATION SYSTEMS

Maksimenko A.F. – Doctor of Technical Sciences, Professor of the Gubkin Russian State University of Oil and Gas (National Research University), maksimenko.a@gubkin.ru
Kuznechikov A.S. – Senior Lecturer at the Gubkin Russian State University of Oil and Gas (National Research University), kas@gubkin.ru

Key words: gas discharge and utilization systems; gas dynamics; shock wave processes; pipeline systems; design schemes; gas dynamic analysis.

In this paper, we consider the features of the choice of variants of the design schemes of gas discharge and utilization systems for solving the main problems of gas dynamic analysis of shock wave processes in the channels of the gas discharge and utilization systems. Schemes for various stages of the shock wave propagation process in a pipeline are given.