RU40077U1 - INSTALLATION FOR RESEARCH OF GAS WELLS - Google Patents

Abstract

Installation for the study of gas wells relates to techniques for conducting work on the well and can be used in the gas industry. The installation includes a constricting device, instrumentation for measuring pressure and temperature, a multi-parameter sensor, a recording unit, a radio station and a data concentrator. The essence of the claimed utility model lies in the fact that the installation includes a multi-parameter sensor, a registration unit, a radio station and a data concentrator, and the instrumentation is connected by a cable to the input of a multi-parameter sensor, the output of which is connected to the input of the registration unit by cable, the registration unit and the radio station wireless communication using a radio modem, and the radio station is connected to the data hub with a communication cable.

Description

The inventive utility model relates to techniques for conducting work in the well and can be used in the gas industry.

A well-known installation for researching wells, including a lubricator, a winch, a separator, a container for measuring liquid, a diaphragm meter and control and measuring devices for measuring pressure and temperature [A.I. Gritsenko, Z. S. Aliev, O. Ermilov, etc. ., Guide to the study of wells, M., Science, 1985, p.17].

Significant disadvantages of the installation are, firstly, its bulkiness, low efficiency. The installation consists of several mobile units, which require constant assembly-disassembly at each well under study, as the installation allows research on only one well. Secondly, the installation does not provide environmental safety during research; gas is released into the atmosphere. Thirdly, information is collected visually.

The well-known installation "Nadym" for the study of wells [ibid, p.499]

The installation is a wellhead small-sized quick-detachable device consisting of three main functional elements: a separator, a flow meter, a container for separated solid impurities and liquids, and control and measuring devices for measuring pressure and temperature.

A significant disadvantage of the installation is the low efficiency, because assembly of the installation is carried out directly at the well and the installation cannot be operated in continuous mode. This installation allows you to conduct research only on one well and does not provide information about the mutual influence of the work of wells on each other. When exploring a well, gas is flared, polluting the environment.

The closest analogue of the claimed installation, adopted as a prototype, is the installation for the study of wells "PNA-1 Mode", [ibid, p. 503].

The installation consists of a diaphragm meter equipped with a unit for installing an acoustic probe, a communication cable, a recording unit with access to listening and recording devices, as well as control and measuring devices for measuring pressure and temperature.

A significant disadvantage of the installation is that it is applicable for the study of single wells in conditions of relative uniformity of the opened interval of the reservoir. The installation does not allow taking into account in-situ gas flows between the drainage zones of the well clusters, as well as between the wells in the well itself, which does not allow sufficient hydrodynamic research (GDI) to be sufficient. In addition, GDI is accompanied by the release of gas into the atmosphere, which affects the environment. Of all the measured parameters, only the concentration of solids in the gas is automatically recorded. Gas flow, temperature and pressure are recorded visually.

The purpose of the claimed utility model is to increase the efficiency and environmental safety of research due to greater efficiency and elimination of gas losses.

The goal is achieved in that the design of the installation allows you to quickly record the operation parameters of several wells at the same time (flow rate, pressure, temperature), allows you to conduct GDI into the gas pipeline in a continuous mode of operation of the well, which ensures environmental safety of studies and eliminates gas loss and flaring it. The design of the installation eliminates such bulky components as a separator, capacitive equipment. The installation does not require special preparatory work before the DRO, because provides automatic registration of measured parameters during the operation of wells, i.e. taking into account their mutual influence as in conditions

irregularities in the grid location of wells by area, and lithological heterogeneity of the section. This provides high efficiency and increases the efficiency of DRO.

The essence of the claimed utility model "Installation for the study of gas wells" is that the installation includes a multi-parameter sensor, a recording unit, a radio station and a data concentrator.

Using the registration unit in the installation allows you to automatically record the parameters measured by a multi-parameter sensor, calculate the well flow rate and transmit information to the network simultaneously for 8 working wells (well cluster).

The use of multi-parameter sensors in the installation allows the study of wells without the release of gas into the atmosphere. In addition, the use of a multi-parameter sensor allows you to get a set of productive characteristics for the reservoir-well-gas collection system. Such characteristics include productivity coefficients, hydrodynamic resistance, as well as the coefficient of heat loss of wells, piping, plume, etc.

The technical result achieved by the implementation of the claimed utility model is to exclude gas losses and payments for air pollution, to reduce the complexity of the well research process by reducing the number of staff, and to increase labor safety by eliminating the effects of factors such as noise and toxicological effects gas combustion products such as carbon monoxide.

Installation for researching gas wells (Fig.) Includes: a constricting device 1, instrumentation for measuring pressure 2 and temperature 3, a multi-parameter sensor 4, a recording unit 5, a radio station 6 and a data concentrator 7.

Installation works as follows. Organization of the collection, transmission, control and adjustment of the studied parameters at the installation is carried out

based on a survey of the underlying nodes (controllers) by a higher node. The data of the studied parameters: gas flow - from the constricting device 1, pressure and temperature - from the control devices 2 and 3 - are fed to the input of the multi-parameter sensor 4 and then transmitted via the communication cable to the input of the registration unit 5. The registration unit 5 simultaneously receives the information of the studied parameters of the well cluster, but not more than 8, carries out their processing, i.e. automatic registration of the obtained data, calculation of the rates of individual wells, as well as the total production rate of the wellbore and transmits the processed information via a wireless communication line to radio station 6, from where the data of the studied parameters are transmitted via a communication cable to data concentrator 7 (operator station).

This setup allows you to quickly make adjustments to the studied parameters due to feedback from the data concentrator through the radio station and the registration unit to the multi-parameter sensor.

Using the inventive design of the installation for the study of gas wells in relation to LLC "Yamburggazdobycha" eliminates the loss of gas in one investigated well in the amount of 200 thousand m ³ / day. The economic effect is determined by two main components:

- elimination of gas losses;

- the exclusion of payments for environmental pollution.

Claims (1)

Installation for researching gas wells, including a constricting device, instrumentation for measuring pressure and temperature, characterized in that it contains a multiparameter sensor, a recording unit, as well as a radio station and a data concentrator, the instrumentation being connected by cable to the input of the multiparameter sensor the output of which is connected to the input of the registration unit with a cable, the registration unit and the radio station have wireless communication using a radio modem, and the radio station is inena concentrator data cable connection.