O. V. Panevnyk scite author profile

O. V. Panevnyk

5Publications

2Citation Statements Received

0Citation Statements Given

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Ivano-Frankivsk National Technical University of Oil and Gas

Publications

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Determination of the Well Jet Pump Operation Mode

Panevnyk¹,

Panevnyk²

2019

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Івано-Франківський національний технічний університет нафти і газу ВИЗНАЧЕННЯ РЕЖИМУ РОБОТИ СВЕРДЛОВИННОГО СТРУМИННОГО НАСОСА Анотація. Запропонована методика розв'язку системи рівнянь, які описують напірну характеристику свердловинного струминного насоса. Відповідно до приведеного в роботі алгоритму визначення гідравлічних втрат в робочому потоці на ділянці між робочою насадкою та камерою змішування здійснюється з використанням методу послідовних наближень. Розроблена послідовність проведення розрахункових операцій та програма для їх реалізації. Приведений в роботі розрахунковий алгоритм дозволяє змінювати точність прогнозування напору, створюваного струминним насосом та тривалість процедури його визначення. Реалізація запропонованого розрахункового комплексу може здійснюватись з використанням середовища Delphi та програмних ресурсів PTC Matchad. Ключові слова: нафтогазові ежекційні технології, свердловинний струминний насос, ежекційна система, напірна характеристика, метод послідовних наближень.

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Investigation of the joint work of a jet and plunger pump with a balancing crank-rod drive

Panevnyk

2020

OIJ

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Analysis of tendencies of oil and gas engineering development

Panevnyk¹,

Panevnyk²

2020

ogpe

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Based on the study of the dynamics of global costs for oilfield equipment, it was found that its production shows slow growth, the largest share of oil and gas machinery is in North America, and the largest segment of production belongs to the manufacture of equipment for collecting and transporting hydrocarbons and pipe products. In the process of analysis of the nomenclature and geography of production of machines, mechanisms, individual components and parts of drilling and oil and gas equipment, the inconsistency of the level of development of oil and gas engineering in Ukraine with the needs of the fuel and energy complex is shown. The required level of production of equipment and spare parts directly depends on the quality of maintenance of oil and gas machines, which with the development of new technologies for the development of hydrocarbon fields should increase. The main reasons for failures of oil and gas equipment are the lack of proper maintenance. Domestic oil companies are focused on the import of oil equipment, and a negative problem for the development of the domestic market of oil services is the reduction of their own production of oil and gas equipment. One of the most important competitive advantages of domestic service companies is a lower level of prices for services, as well as a deeper knowledge of the specifics and features of local conditions for the development of hydrocarbon deposits. An important aspect of the development of the service market is the transition to innovative technologies in the field of geological engineering and drilling. In accordance with the development trends of the world oil and gas engineering industry, the staffing requirements of service companies are increasing. Given the complexity of mining and geological conditions for the development of hydrocarbon deposits, the development of new technologies for oil and gas production requires increasing attention to training specialists who are aware of modern methods of design, operation and maintenance of oil and gas equipment.

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Сontrol and Regulation of the Hydraulic Jet Pump Operation Mode

Panevnyk¹,

Panevnyk²

2020

PDOGF

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Permanent monitoring and remote control of the operation mode of the hydraulic jet pump allows increasing the efficiency of the hydrajet mode of oil wells operation. Based on the analysis of the workflow of the ejection system, the authors reveal the relation between the density and flow rate of the mixed flow and the operating parameters of the oil hydraulic jet pump in the form of nonlinear dependencies, which make it possible to carry out remote control over the flow rate in the bottomhole circulation circuit. In the process of modeling the hydraulic relations between the elements of the ejection system, a binary diagram is constructed. This binary diagram is created in the form of two combined quadrants and presents the obtained regularities between the parameters of the mixed flow at the well outlet and the operation mode of the jet pump. The authors present the method of remote control over the operation mode of a well ejection system by means of varying the flow-rate of power fluid directed to the well by a ground pump unit and by means of changing the dimensions of the components of the flowing part of the jet pump. The regulation of the operation mode of the hydraulic jet pump occurs by changing the position of the operating point of the pumping unit. In the process of regulating the operation mode of the jet pump by changing the operating flow rate, the authors obtain a series of characteristics of the hydraulic system which determine the coordinates of the operating point of the pumping unit. Adjusting the operation mode of the ejection system by changing the dimensions of the components of the flowing part of the jet pump involves creating a series of its own characteristics with constant characteristics of its hydraulic system. The replacement of the components of the flowing part of the jet pump is carried out in a hydraulic way and does not require round-trip operations in the well. The authors present the graphical interpretation of the proposed methods of regulating the operation mode of the well ejection system in the form of combined characteristics of the jet pump and its hydraulic system built in the single system of coordinates.

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The Choice Ground of Downhole Stream Pump Geometrical Sizes

Panevnyk¹

2018

RRNGR

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The method of choosing geometric parameters of the well hole pump which ensures its operation in the mode of maximum efficiency is proposed. According to the algorithm developed, the ratio of the diameters of the working nozzle, the mixing chamber and the diffuser of the jet pump, as well as the distance between the nozzle and the speed equalization chamber and the axial dimensions of the flow part elements are regulated. During the process of establishing the required dimensions of the elements of the ejection system, the nature of the free working jet into the mixing chamber of the jet pump is taken into account, which determines the shape and structure of the estimated ratios governing the axial distance between the working nozzle and the resuscitation chamber of the mixing streams. The relationship between the mixing chamber diameters and the working nozzle and the amount of the jet pump coefficient of ejection which ensures its operation with the maximum possible values of the ejection system efficiency is shown. The analytical nature of the establishment of hydraulic interconnections among the elements of the ejection system is complemented by the experience of the practical use of deep jet pumps in the implementation of certain technological processes of construction, operation and repair of oil wells.

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O. V. Panevnyk

Determination of the Well Jet Pump Operation Mode

Investigation of the joint work of a jet and plunger pump with a balancing crank-rod drive

Analysis of tendencies of oil and gas engineering development

Сontrol and Regulation of the Hydraulic Jet Pump Operation Mode

The Choice Ground of Downhole Stream Pump Geometrical Sizes

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