RU88361U1 - DEVICE FOR DISPOSAL OF HEAT LOSS OF HEAT TRACES - Google Patents

Abstract

A device for recovering heat losses of heating mains, consisting of a horizontal soil collector made of a polymer pipe in the form of a helical spiral filled with a coolant, connected through a circulation pump to a heat pump evaporator, characterized in that the spiral spiral of the manifold pipe is located around the heating main channel.

Description

The utility model relates to industrial heat power engineering and can be used for utilization of heat losses in heat supply networks.

Horizontal soil collectors are widely known for extracting low-potential soil energy for heat pump evaporators, which are separate polymer pipes laid horizontally under a layer of soil, laid relatively tight and connected to each other in series or in parallel [http://www.ivd.ru/document .xgi? id = 5102 & gid = 393 & hid = 514 & oid = 514, http://www.insolar.ru].

The disadvantages of such collectors are: a large area of land displacement (about 25-50 m ² ); low heat removal - 10-35 W from one square meter of soil surface; probability of freezing of soil in the area of the collector; high hydraulic resistance.

The closest in design is a horizontal soil collector with a spiral spiral layout of pipes, which is a spiral spiral of polymer pipes, laid and covered in a horizontal trench to a depth below the freezing of the soil [http://www.g-mar.ru/Statyi8.htm] .

The disadvantages of this device are the low heat removal from one square meter of the soil surface, the likelihood of freezing of soil in the area of the manifold, high hydraulic resistance.

The technical result achieved by the claimed utility model is to increase profitability and reliability, to utilize the inevitable regulated heat losses of the heat network, and to eliminate the displacement of useful land.

The technical result is achieved in that the device for utilization of heat losses of heating mains consists of a soil collector made of a polymer pipe in the form of a helical spiral filled with a coolant connected through a circulation pump to a heat pump evaporator. The spiral spiral of the polymer pipe is located around the heating main channel.

The figure 1 shows a device for the utilization of heat losses of heating mains.

The figure 2 shows a fragment of the proposed horizontal spiral spiral soil collector, located at a depth of the heating line Ngr.

A device for recovering heat losses of heating mains consists of a horizontal soil collector 1 laid around a heating main channel 2, with pipelines 3 of a heat supply network filled with soil 4, which is connected through a circulation pump 5 to the evaporator of the heat pump 6.

A device for utilization of heat losses of heating mains is as follows. The heat flux from pipelines 3, in an amount not exceeding the normalized heat loss from one linear meter of the heating main, is on average 100 W / m [SNiP 2.04.14-88 *. Thermal insulation of equipment and pipelines / Gosstroy of Russia. - M .: GUP TsPP, 2000. - 28 p.], Enters the heat supply channel 2 and is perceived by a horizontal soil collector 1, in which, under the action of the circulation pump 5, the heat carrier is directed to the heat pump evaporator 6. The degree of heating of the heat carrier in the collector is 3- 5 ° C.

The effectiveness of the proposed design of a horizontal spiral spiral soil collector consists in increasing the heat removal from one running meter of the collector and utilizing the inevitable heat losses of the heat supply network. Thus, the proposed horizontal spiral spiral soil collector eliminates the disadvantages of the currently existing designs of horizontal soil collectors and, as a result, improves the technical and economic performance of the heat pump, utilizes the inevitable regulated heat losses of the heat network and eliminates the crowding out of useful land.

Claims (1)

A device for recovering heat losses of heating mains, consisting of a horizontal soil collector made of a polymer pipe in the form of a helical spiral filled with a coolant, connected through a circulation pump to a heat pump evaporator, characterized in that the spiral spiral of the manifold pipe is located around the heating main channel.