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Investigation of gas gathering pipelines operation efficiency and selection of improvement methods

Volovetskyi V. B., Doroshenko Ya. V., Kogut G. M., Dzhus A. P., Rybitskyi I. V., Doroshenko J. I., Shchyrba O. M.

Journal of Achievements in Materials and Manufacturing Engineering

2021

Vol. 107, nr 2

59--74

Purpose: The article implies theoretical and experimental studies of the liquid pollution accumulations impact on the efficiency of gathering gas pipelines operation at the Yuliivskyi oil and gas condensate production facility (OGCPF). Research of efficiency of gas pipelines cleaning by various methods. Design/methodology/approach: The research methodology consists of determining the hydraulic efficiency of gathering gas pipelines before and after cleaning of their internal cavity by different methods and comparing the obtained results, which allows to objectively evaluate the efficiency of any cleaning method. CFD simulation of gas-dynamic processes in low sections of gas pipelines with liquid contaminants. Findings: Experimental studies of cleaning efficiency in the inner cavity of the gas gathering pipelines of the Yuliivskyi OGCPF by various methods, including: supply of surfactant solution, creating a high-speed gas flow, use of foam pistons were performed. It was established that cleaning the inner cavity of gas gathering pipelines by supplying a surfactant solution leads to an increase in the coefficient of hydraulic efficiency by 2%-4.5%, creating a high-speed gas flow by 4%-7%, and under certain conditions by 8%-10 % and more. However, for two gas pipelines the use of foam pistons allowed to increase the coefficient of hydraulic efficiency from 5.7 % to 10.5 % with a multiplicity of foam from 50 to 90. be recommended for other deposits.The results of CFD simulation showed that the accumulation of liquid contaminants in the lowered sections of gas pipelines affects gas-dynamic processes and leads to pressure losses above the values provided by the technological regime. With the increase in liquid contaminants volume the pressure losses occur. Moreover, with a small amount of contamination (up to 0.006 m3), liquid contaminants do not have a significant effect on pressure loss. If the contaminants volume in the lowered section of the pipeline is greater than the specified value, the pressure loss increases by parabolic dependence. The increase in mass flow leads to an increase in the value of pressure loss at the site of liquid contamination. Moreover, the greater the mass flow, the greater the impact of its changes on the pressure loss. The CFD simulation performed made it possible not only to determine the patterns of pressure loss in places of liquid contaminants accumulation in the inner cavity of gas pipelines, but also to understand the gas-dynamic processes in such places, which is an unconditional advantage of this method over experimental. Research limitations/implications: The obtained simulation results showed that the increase in the volume of liquid contaminants in the inner cavity of gas gathering pipelines leads to an increase in pressure losses above the value provided by the technological regime. To achieve maximum cleaning of gas gathering pipelines, it is necessary to develop a new method that will combine the considered. Practical implications: The performed experimental results make it possible to take a more thorough approach to cleaning the inner cavity of gas gathering pipelines and to forecast in advance to what extent the hydraulic efficiency of gas gathering pipelines can be increased. Originality/value: The obtained results of CFD simulation of gas-dynamic processes in lowered sections of gas pipelines with liquid contaminants, experimental studies of the effectiveness of various methods of cleaning the inner cavity of gas gathering pipelines has original value.

Zmiana fazy w falach elektromagnetycznych po przekroczeniu kąta Brewstera

Marcak H., Tomecka-Suchoń S.

Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią PAN

2016

nr 93

35--48

W pracach rolniczych istotne jest określenie rozkładu wilgotności w glebie. W artykule przedstawiono metodę badania tego rozkładu na podstawie analizy pomiarów georadarowych. Przedstawiono opis właściwości pola elektromagnetycznego na granicy dwóch obszarów o różnych właściwościach elektrycznych w zależności od wielkości kąta padania promienia radarowego. Okazuje się, że zachowanie pola elektromagnetycznego istotnie zależy od stosunku prędkości fali w warstwie nadległej i leżącej pod granicą odbijającą. W szczególności dla stosunku tych prędkości mniejszego od jedynki, to dla kąta zwanego kątem Brewstera zanika energia fali odbitej. W artykule zwrócono uwagę na istotną zależność wielkości współczynnika odbicia i zmiany fazy sygnałów elektromagnetycznych od tego, czy kąt padania przekroczył kat Brewstera i kąt graniczny. Po przekroczeniu kąta Brewstera następuje zmiana fazy w sygnale odbitym o 90 stopni. Znajomość kąta Brewstera pozwala wyznaczyć stosunek prędkości fali elektromagnetycznej po obydwu stronach granicy, na której nastąpiło odbicie. W praktyce badań georadarowych kąt Brewstera powstaje w sytuacji, kiedy warstwa nadległa jest bardziej nasycona wodą. Na przykładzie badań prowadzonych na polach uprawnych pokazano jak na podstawie zaproponowanego sposobu identyfikacji kąta Brewstera można określić zmiany właściwości elektrycznych na profilu pomiarowym. Zmiana fazy pola georadarowego może być wykorzystana do ciągłej kontroli wilgotności gruntu i optymalnego sposobu jego nawadniania.

Information on moisture distribution in the soil is of great importance for agricultural projects. This article presents the GPR geophysical method for the study of water distribution in subsurface parts of rock formation. The analysis of the GPR measurements is used for a description of the electromagnetic field properties at the boundary of two areas of different electric properties, depending on the angle of incidence of radiation. It appears that the behavior of electromagnetic fields substantially depends on the ratio of the velocity waves in layers overlying and underlying the reflective border. In particular, for the ratio smaller than the ones disappears energy of the reflected wave. The article highlights the significant dependence of the reflectance and phase change of the electromagnetic signals on whether the angle of incidence exceeds the Brewster angle and the critical angle. Attention was focused on the Brewster angle and the critical angle for the size of the reflectance and phase change of the electromagnetic signals. In particular, after exceeding the Brewster angle a 90 degree change phase of the reflected signal occurs. Knowledge of this angle allows the ratio of GPR wave velocity in the neighboring soil regions to be determined. We demonstrate, on the example of tests carried out on cultivated areas, how the changes of dielectric properties on the investigated profile can be determined using the identification of the Brewster angle with the procedure proposed above. The phase change georadar field can be used for the continuous monitoring of soil moisture and its optimum method of irrigation.