SU582596A1 - Direct electric heating system for main pipelines - Google Patents

Description

one

The invention relates to the field of transportation of liquid viscous products through pipelines and can be used in the operation of pipelines for pumping petroleum products or slurries, especially in the fields of the North.

The electrical heating systems of trunk pipelines are known, which contain feeding substations connected to heaters located on the outer surface of the pipelines or located inside the pipe.

These systems have the following disadvantages.

If the heater is out of operation, the pipeline must be turned off and the heaters must be replaced and replaced.

This reduces the reliability and performance of pipelines.

The systems of direct electric heating of main pipelines are known, containing at least two of a series of grounded heaters — pipelines, in parallel with which at least two supply substations are installed, installed at intervals along the length of the pipeline. The heaters are usually supplied with alternating current, which necessitates the installation of a large number of nodes. It's reliability

2

the entire system and at the exit of a substation, provides a section of the pipeline. Power from neighboring substations is not supplied to the de-energized section, since pipelines between electrons are usually electrically connected.

When powered by a direct current, substations are built), so (as the norms of grounding voltage on the pipeline are somewhat higher. However, in this case, in the known systems, one or more substations do not warm up when one or more substations exit from the building).

In order to eliminate these drawbacks and increase reliability, the outputs of the rectifying devices at the power substations of the proposed system are connected to the opposite side of the polarizer, and the grounding between the substations is made on the same heater piping.

In addition, to maintain the level of electrical safety on pipelines with a large distance, when installing more than two power supply substations with quick fixtures, the polarity of the rectifier devices in the neighboring substations is different, and the grounding in the neighboring sections is made of different heaters.

3

The drawing shows a system diagram, a variant with three-phase rectifiers from two individual substations.

The heaters piping 1 and 2 are connected in parallel1 with the rectifying devices 3 and 4, with the polarity and connection of the adjacent rectifiers being opposite. Input 1 and 1 of the rectifying devices 3 and 4 are connected to the individual supply substations 5 and 6. In the sections between adjacent substations, one of the pipelines is grounded.

The proposed electric heating system works as follows.

During normal operation, each section of pipelines 1 and 2 is surrounded by current from adjacent rectifying devices 3 and 4. When a substation fails, current from adjacent rectifying devices will flow around the emergency section, which does not necessitate stopping and turning off the pipeline.

The grounding indicated in the diagram 7 makes it possible to increase the voltage supplied to the pipeline, which also reduces the number of substations and increases the reliability of the entire electrical heating system. In general, due to partial redundancy of heated sites from neighboring substations and the proposed grounding scheme, the number of FDs increases, and the substation-proofing of the entire system increases.

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Claims (2)

1. The system of direct electric heating of main pipelines, containing at least two rows of grounded heaters — pipelines, in parallel with which, with their two outputs, at least two rectifying devices, the inputs of each of which are connected to individual power supply substations m installed at intervals along the length of the pipeline, characterized in that, in order to increase the reliability of operation, the interlocked outlets are connected to the heater by m-pipelines of opposite polarity, and Landing in the area between substations is performed with a single heater-pipeline. 2. The system of claim 1, characterized in that, in order to preserve the electrical safety level on long-distance pipelines when installing more than two power supply substations with rectifying devices, the polarity of connecting rectifying devices at neighboring substations is different, and grounding adjacent areas of the wind at various x-pipe pipelines.