RU93130U1 - HEATED PIPELINE - Google Patents

Abstract

 1. A heated pipeline containing a heated technological pipeline and a heating tube laid together with it, made of ferromagnetic material, with a current conductor connected at one end to an AC source, characterized in that it is equipped with an additional heating tube of ferromagnetic material, forming a pair with the original ferromagnetic heating tube, and the current conductor is drawn through an additional heating tube, while to the source of alternating Both ends of the current conductor are connected. ! 2. The heated pipeline according to claim 1, characterized in that the heating tube is intermittent.

Description

The utility model relates to the field of construction of heated pipelines.

Known pipelines with a heating system "Therm trac" [1. Therm trac, Surface effect heating system. THER-MON. Heat Heating Specialists].

The principle of operation of the heating system is based on the phenomenon of the skin effect. The heating device is a ferromagnetic conduit called a “heating tube” through which a special insulated skin-effect conductor is drawn. At one end, the heating tube and conductor are interconnected, and at the other they are connected through an AC source. The electric current is concentrated on the inner surface of the heating tube, and the Joule heat generated due to this is transmitted by a contact method to the heated pipeline, increasing the temperature of the pipe surface and its contents.

The main disadvantage of such a pipeline is that in case of violation of the integrity of the heating tube, which is most exposed to external destructive loads, the reverse current circuit breaks. Electric heating stops, the product transported through the pipeline can freeze, which leads to huge restoration work.

The technical challenge facing the utility model is to increase the availability and reliability of the pipeline heating system.

To solve this problem, a heated pipeline containing a heated technological pipeline and a heating pipe made of ferromagnetic material with a current conductor connected at one end to an AC source, is equipped with an additional heating pipe made of ferromagnetic material, forming a pair with the original heating pipe, and the current the conductor at the end opposite the AC source is mounted in the opposite direction and extended through a heating tube, while both ends of the current conductor are connected to an alternating current source.

Since no current flows through the heating tube, it can be intermittent.

In addition, several pairs of heating tubes with current conductors connected at both ends to an alternating current source can be laid along a heated process pipeline. This will reduce the specific power from one linear meter of the heating tube, thereby increasing the life of the conductor.

The utility model is illustrated in the drawing, which shows a diagram of the laying of a heated pipeline.

The heated pipeline contains a technological pipeline 1 for transporting products. Together with pipeline 1, at least two heat pipes (heat pipes) 2 and 3, made of a material with ferromagnetic properties, are laid, through which the loop of the current conductor 4 is sequentially passed. When laying the pipe, heat pipes and heat pipes are laid parallel to the heated pipes and each other. The free ends of the conductor are connected to an AC source 5, for example, to a transformer of a complete transformer substation.

Each of the heating tubes can be made intermittent, in the form of sections 6 separated from each other, strung on the conductor in an unlimited number. This makes it possible to heat not only linear sections of the process pipeline, but also valves, fittings and other technological elements, laying sections of heating tubes of various lengths along them.

To exclude damage to the structure of the conductor (cable) from excessive deformation and destruction of its insulation when pulled through a large number of heating pipes, heat sinks, the circuit is divided into mounting sections, interconnected electrically in arbitrary places 7.

It becomes possible to heat local zones, with the exception of zones in which heating is undesirable.

The proposed induction-resistive heating system has a high degree of electrical safety during operation, due to the isolation of the current conductor (current-carrying core) from the heating tube.

Several pairs of heating tubes can be laid along the process pipeline, which will significantly increase the heating temperature and reduce the specific power from one linear meter of the tube. It becomes possible to isolate the electric heating network from the main power supply with a grounded neutral, to increase the electrical safety of maintenance personnel and to increase the service life of the current conductor.

Claims (2)

1. A heated pipeline containing a heated technological pipeline and a heating tube laid together with it, made of ferromagnetic material, with a current conductor connected at one end to an AC source, characterized in that it is equipped with an additional heating tube of ferromagnetic material, forming a pair with the original ferromagnetic heating tube, and the current conductor is drawn through an additional heating tube, while to the source of alternating Both ends of the current conductor are connected. 2. The heated pipeline according to claim 1, characterized in that the heating tube is intermittent.