RU2474943C1 - Plant of anti-emergency power supply of gas pumping unit - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: result is achieved due to identification of a separate anti-emergency unattended accumulator battery for anti-emergency power supply of a subgroup of collectors of an aggregate system to control accident-free stop of a gas pumping unit, identified from the set of collectors of the first category of the special group of power supply reliability, in order to avoid uncontrolled emergency stop. At the same time the anti-emergency accumulator battery is automatically connected for power supply to the dedicated subgroup of collectors of aggregate automatics only in case of an incident with disappearance of all three independent mutually redundant sources of supply, providing for power supply to aggregate collectors of the first category of the special group of power supply reliability.

EFFECT: higher safety of a gas pumping unit in part of prevention of such fires and explosions, which may be caused by a non-controlled emergency stop of a fully de-energised device.

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Description

FIELD OF THE INVENTION

The present invention relates to a backup power supply for electrical receivers of such gas pumping units (GPU), the design of which provides for compensating measures that increase the likelihood

accident-free shutdown of equipment even in the event of a complete blackout of the power supply, namely, the uninterruptible power supply installations of aggregate power receivers of a special group of the first category of reliability of power supply, the uninterrupted operation of which is necessary for the accident-free shutdown of the unit in order to prevent threats to human life, explosions and fires.

BACKGROUND

According to the current rules for the installation of electrical installations (PUE), seventh edition, introduction date 2003-01-01, chapter 1.2, "Power supply and electric networks", section "Categories of power consumers and ensuring the reliability of power supply": power consumers of the first category - power consumers, the interruption of power of which can entail a danger to people's lives, a threat to the security of the state, significant material damage, disruption of a complex technological process, disruption of the functioning of especially important elements s utilities, communications and television.

The first category power consumers in normal conditions should be provided with electricity from two independent mutually redundant power sources, and interruption of their power supply in case of power failure from one of the power sources can be allowed only for the period of automatic power recovery.

However, according to the PUE, a special group of electrical receivers is allocated from the first category of electrical receivers, the uninterrupted operation of which is necessary for an emergency shutdown of production in order to prevent a threat to human life, explosions and fires.

Moreover, to power a special group of power receivers of the first category, additional power supply from a third independent mutually redundant power source should be provided. As the third independent power source for a special group of power receivers, local power plants, power system power plants (in particular, generator voltage buses), uninterruptible power supply units designed for these purposes, rechargeable batteries, etc. can be used.

Gas pumping units are designed taking into account the requirements of the organization standard STO Gazprom 2-3.5-138-2007 "Typical technical requirements for gas compressor units and their systems."

According to clause 9.2 of STO Gazprom 2-3.5-138-2007, a special group of power receivers of the first category of reliability of power supply of GPU include systems of instrumentation and automation (from the automatic control system), magnetic bearings of the compressor, automatic fire protection (APZ), emergency lighting and oil pumps (providing oil for lubricating the bearings of the compressor and the GPU drive).

Moreover, according to clause 8.4 of STO Gazprom 2-3.5-138-2007:

Means of an automatic control system (ACS) belong to a special group of power receivers of the first category of power supply according to the rules of electrical installations of PUE. The main power supply is 220 V, 50 Hz. The backup power source is a 220 V rechargeable battery. Switching the automatic control system of the gas compressor to a backup power source (when the main voltage disappears) and vice versa should be carried out automatically by means of the automatic control system and should not affect the performance of all functions. Simultaneous shutdown of both networks is not allowed.

According to clause 8.13 of STO Gazprom 2-3.5-138-2007, if the disappeared alternating voltage has not been restored within a specified time, the self-propelled gun must automatically shut down the gas compressor.

In this case, a risk analysis shows:

1. Even the power supply of the technological equipment of the gas pumping unit from three independent mutually redundant power sources does not exclude the risk of an accident due to de-energization of the facility. For example, at compressor stations (which include gas compressor units), widely used batteries are used to organize backup batteries for industrial equipment (including gas pumping units), which leads to certain risks (including due to the human factor) due to their need periodic maintenance. So, due to improper personnel maintenance of the backup batteries being serviced, their capacity may not be enough for the time required for the automatic shutdown of the gas compressor in the event of a power failure on the main AC voltage inputs. At the same time, the use of more reliable maintenance-free batteries for organizing batteries of significant capacity necessary for backup power supply of the entire hazardous industrial facility may be considered economically unfeasible.

2. For particularly demanding HPA technological systems (whose failure can cause a fire or explosion), the possibility of a complete disappearance of the power supply is taken into account and additional compensating (to reduce risks and increase the likelihood of an accidental shutdown of the GPU) technical measures are provided:

1) According to clause 6.13.3.8 STO Gazprom 2-3.5-138-2007, the magnetic bearings of the GPA compressor are duplicated by safety bearings, which must withstand at least ten drops of the compressor rotor in the event of a magnetic bearing failure.

2) According to clause 11.5 of the STO Gazprom 2-3.5-138-2007, in the event of a failure of the main and starting oil pumps (providing oil for lubricating the bearings of the compressor and the GPU drive), the automatic shutdown of the GPU must be ensured and brought to the reserve state (for example, after by using a battery of oil to lubricate the bearings).

3. Gas control system ACS with connected sensors and actuators (devices) consumes an order of magnitude less energy than other technological power receivers (including the oil pump system), powered by the first category of a special group of reliability of power supply.

The performed risk analysis allows us to conclude that a scenario is possible in which a third independent, mutually redundant power supply may not be able to provide (due to reduced battery capacity during operation) all the power receivers of a special group for the entire time required for a GPU failure-free shutdown , in the event of a power outage from the first and second independent mutually redundant power sources. As a result, ACS power supply is the “weakest link” (due to the lack of emergency reserve, since other critical systems provide compensatory measures in case of loss of power supply) and the ACS emergency power off scenario with sensors and actuators (devices) is dangerous , which will lead to uncontrolled emergency shutdown of a hazardous industrial facility.

The closest analogue of the claimed emergency power supply circuit of a gas compressor unit with an additional emergency battery for automatic control systems is, in our opinion, a method of power supply to electrical receivers providing a complex continuous technological process of industrial enterprises according to RF patent №RU 2352046 C1. The method of power supply to power receivers according to RF patent №RU 2352046 C1 provides for increasing the reliability of power supply by allocating a separate group of power receivers for which regulatory deviations of power supply parameters are unacceptable, and ensuring their power supply from an additional independent mutually redundant power supply with the required characteristics. The specified additional source (which can be positioned as "internal", since it is located in the immediate vicinity of a separate group of power consumers, in one technological box) is the main one for this separate group of power consumers. Moreover, external independent mutually redundant power supplies are redundant for this particular group. The power supply of the remaining power receivers (including a special group of power receivers providing emergency shutdown), which are not critical to the regulatory deviations of the parameters, is carried out both from two external independent mutually redundant external power sources, and from the above additional independent mutually redundant power source. The allocation of a separate group of power receivers for the reliability of power supply, proposed by RF patent No.RU 2352046 C1, (ensuring their main power supply from an additional independent mutually redundant power source, the characteristics of which are consistent with the characteristics of power receivers located in the immediate vicinity of these power receivers) makes it possible to operate a complex industrial process for any (normative or unacceptable) disturbances from an external electric power infringement.

However, the current standards and the method of power supply to power receivers according to the RF patent №RU 2352046 C1 do not provide for the separation of a separate control subgroup from a special group of the first category of reliability of power supply of gas supply units of power receivers of automatic control systems with sensors and actuators (devices) for which compensating measures are not provided that provide controlled emergency shutdown of the GPU equipment even in the event of a complete blackout, as for other responsible systems themes.

The challenge facing the developers of the present invention was to create an economical emergency power supply scheme for the gas compressor unit with additional emergency power supply for self-propelled guns with sensors and actuators (devices) for the time required to complete an automatic emergency stop in case of an incident with the complete disconnection of all three independent mutually redundant sources nutrition.

SUMMARY OF THE INVENTION

The problem under consideration is achieved through the use of an additional emergency battery, which automatically supplies power to the self-propelled guns with sensors and actuators (devices) in the event of a complete shutdown of the gas compressor before the automatic shutdown of the unit, to ensure emergency power supply to the automatic control systems for the time necessary completion of the GPA managed emergency shutdown.

At the same time, the relatively small required capacity of the emergency battery makes it possible to use the most reliable maintenance-free batteries for emergency power supply of automatic control systems without significant costs, which significantly reduces the likelihood of the human factor affecting the reliability of emergency power supply of self-propelled guns.

The use of an additional emergency battery with reliable maintenance-free batteries, which is automatically connected to ensure emergency power supply to the emergency stop control system for the time necessary to perform an emergency stop during an incident with a complete shutdown of the gas compressor before automatic shutdown of the unit, can increase safety at minimum cost (reduce fire risks and explosion) shutdown of a de-energized unit. This is the technical result of the claimed technical solution.

The installation of emergency power supply to gas pumping units is set, the design of which provides for compensating measures that increase the likelihood of an accident-free shutdown of equipment during incidents with a complete power outage, made in the form of an uninterruptible power supply with a charging rectifier device and a voltage inverter, the power of which is supplied from two independent mutually redundant power sources alternating voltage containing backup battery a battery as the third independent mutually redundant power source connected through the control and switching equipment of the unit with two other independent power sources of the unit and aggregate power receivers of the first category of a special group of reliability of power supply, including a subset of power receivers of the aggregate control system for emergency shutdown of the gas pumping unit from the aggregate power consumers of the first categories of a special group of reliability of power supply, ex characterized in that it contains an emergency maintenance-free battery connected through the control and switching equipment of the installation with all three independent power sources of the unit and a subgroup of power receivers of the control system for failure-free shutdown of the gas pumping unit from the aggregate power consumers of the first category of a special power supply reliability group, with the possibility of uninterrupted power supply power units in automatic mode having:

- all aggregate power receivers of the first category of a special group of reliability of power supply from two independent mutually redundant AC power sources or a backup battery;

- subgroups of electrical receivers of the aggregate control system for the emergency shutdown of the gas pumping unit from the emergency battery for the time required to complete the emergency controlled shutdown of the unit, in the event of a power outage, from two independent mutually redundant AC power sources and a backup battery until the emergency shutdown unit.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 - block diagram of a method of emergency power supply of a gas pumping unit;

Figure 2 - block diagram of the installation of emergency power supply of a gas pumping unit.

DETAILED DESCRIPTION OF THE INVENTION

Figure 1 presents in a block diagram of a sequence of actions for implementing the method of emergency power supply of a gas pumping unit, where:

1st stage - determine the algorithm for performing a controlled emergency shutdown of the gas compressor in case of incidents with the disconnection of independent mutually redundant AC voltage power sources, if the disappeared AC voltage is not restored within a specified time;

2nd stage - determine the subgroup of power receivers of the aggregate control system for an emergency shutdown of the gas pumping unit from the aggregate power receivers of the first category of a special group of reliability of power supply, the operation of which is ensured by the controllable emergency shutdown of the gas compressor in case of an incident with complete disconnection of independent mutually redundant power sources of the unit;

3rd stage - determine the time during which the subgroup of power receivers of the aggregate control system for the emergency shutdown of the gas pumping unit must function to complete the algorithm of the controlled emergency shutdown of the gas compressor in case of an incident with the complete disconnection of independent mutually redundant power sources of the unit;

Stage 4 - based on the characteristics of the subgroup of power receivers of the aggregate control system for the emergency shutdown of the gas pumping unit and the time during which it is necessary to ensure the completion of the algorithm for the controlled emergency shutdown of the gas compressor unit during an incident with the complete shutdown of independent mutually redundant power sources of the unit, the characteristics of the emergency battery with maintenance free batteries;

5th stage - ensure the placement of the selected emergency battery with maintenance-free batteries near the self-propelled guns;

6th stage - connect the selected emergency battery to the emergency power supply of the gas pumping unit, made in the form of an uninterruptible power supply with a backup battery as the third independent mutually redundant power source, with a charging rectifier device and a voltage inverter, with the possibility of uninterrupted operation power supply of aggregate power receivers in automatic mode:

- all aggregate power receivers of the first category of a special group of reliability of power supply from two independent mutually redundant AC power sources or a battery as the third independent mutually redundant power source;

- subgroups of power receivers of the aggregate control system for the emergency shutdown of the gas pumping unit from the emergency battery for the time required to complete the emergency controlled shutdown of the unit in the event of a power outage from two independent mutually redundant alternating voltage power sources and a backup battery as the third independent mutually redundant power supply, before an emergency shutdown unit.

Figure 2 presents a preferred variant of the block diagram of the installation of emergency power supply of the gas pumping unit, where:

7 - the first external independent mutually redundant power supply unit GPA;

8 - devices for automatic inclusion of a reserve;

9 - power receivers of critical aggregate systems of gas compressor units powered by the first category of a special group of reliability of power supply, with the exception of automatic control system of gas compressor units with sensors and actuators (devices);

10 - the second external independent mutually redundant power supply unit GPA;

11 - backup battery, which performs the function of a third independent mutually redundant power source;

12 - control and switching equipment with voltage converters (including a charging rectifier device and a voltage inverter);

13 - emergency battery with maintenance-free batteries;

14 - GPA self-propelled guns with sensors and actuators (including equipment for emergency emergency systems);

The invention is carried out as follows: a method of emergency power supply of a gas pumping unit is provided by the sequence of actions shown in the flowchart (see Figure 1).

The preferred installation option emergency power supply of the gas pumping unit (see Figure 2) provides:

- the voltage of external independent mutually redundant power supplies 7, 10 is supplied to the input of electrical receivers of critical aggregate systems 9, automatic control system self-propelled guns with sensors and actuators 14 through devices for automatically switching on the reserve 8;

- additionally, the voltage from the output of the devices for automatically switching on the reserve 8 is supplied to the input of the control and switching equipment with voltage converters 12.

At the same time, the control and switching equipment with voltage converters 12 provides:

- automatic charge of the backup battery 11 from external independent mutually redundant power supplies 7 or 10;

- automatic charge of the emergency battery 13 from external independent mutually redundant power supplies 7 or 10;

- in the event of an emergency disappearance of voltage from external independent mutually redundant power supplies 7 and 10, automatic supply of the converted voltage of the main battery 11 to the input of all power consumers of the first category of the special power supply reliability group GPA (power consumers of the GPA 9 aggregate systems and automatic control system ACS with sensors and actuators 14 );

- in the event of a power outage from external independent mutually redundant power supplies 7, 10 and from the backup battery 11, the converted voltage of the emergency battery 13 is automatically fed to the input of the automatic control system with sensors and actuators 14.

The backup power supply with the provision of an emergency reserve (according to Figure 1) can be recommended for use when organizing the power supply scheme (according to Figure 2) of power receivers of the first category of a special group of reliability of power supply of the gas compressor to increase the safety of the unit by reducing the likelihood of an uncontrolled emergency stop. Such emergency compensating measures are of additional interest for units with minimized, in terms of the exclusion of automatic fire extinguishing installations of the GPA shelter, fire protection.

The claimed invention of the installation of emergency power supply to the gas pumping unit is based on the allocation of power receivers of the aggregate control system for the emergency shutdown of the gas pumping unit to a separate control subgroup (from the power receivers of the first category of a special reliability group of power supply), for the emergency power supply of which an additional emergency battery is used next to the emergency battery emergency with The swarm automatically supplies power to the electrical receivers of the aggregate automation, which controls the emergency stop algorithm, in the event of an emergency disappearance of all three independent mutually redundant voltages before the end of the emergency shutdown of the unit for the entire time necessary to complete the emergency controlled shutdown of the unit.

The claimed invention of the installation of emergency power supply of the gas pumping unit has the advantage when compensating measures are considered to increase the safety of the gas compressor unit (in terms of preventing such fires and explosions that could be caused by an uncontrolled emergency stop of the emergency power off unit).

The present invention has been described in detail with reference to a preferred embodiment, however, it is obvious that it can be implemented in various ways, without going beyond the stated scope of legal protection defined by the claims.

Claims (1)

Installation of emergency power supply for gas pumping units, the design of which provides for compensating measures that increase the likelihood of an emergency stop of equipment during incidents with a complete power outage, made in the form of an uninterruptible power supply with a charging and rectifying device and a voltage inverter, the power of which is supplied from two independent mutually redundant AC power sources battery backup voltage a battery as the third independent mutually redundant power source connected through the control and switching equipment of the unit with two other independent power sources of the unit and aggregate power consumers of the first category of a special group of reliability of power supply, including a subgroup of power consumers of the aggregate control system for an emergency shutdown of a gas pumping unit from aggregate power consumers of the first category special group of reliability of power supply, characterized the fact that it contains an emergency maintenance-free battery connected through the control and switching equipment of the installation with all three independent power sources of the unit and a subgroup of power receivers of the control system for failure-free shutdown of the gas pumping unit from the aggregate power consumers of the first category of a special group of reliability of power supply, with the possibility of uninterrupted power supply automatic receivers in automatic mode: all modular power receivers of the first category of a special group of reliability of power supply from two independent mutually redundant AC power sources or a backup battery; subgroups of power receivers of the aggregate control system for the emergency shutdown of the gas pumping unit from the emergency battery for the time required to complete the emergency controlled shutdown of the unit, in the event of a power outage, from two independent mutually redundant AC power sources and a backup battery until the emergency shutdown of the unit .

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