RU34002U1 - Gas heating apparatus with a water circuit - Google Patents

Description

GAS HEATING UNIT WITH WATER CIRCUIT

The utility model relates to the field of communal and industrial heat power.

A known heating gas apparatus with a water circuit, in which the heat exchanger is a four-row stack of pipes through which the products of combustion move, and from the outside are washed with water filling the apparatus. (Kyazimov G.G. Fundamentals of the gas economy. M. Higher School, 1987, p. 240).

The disadvantage of this device is the difficulty of manufacturing and achieving the optimal ratio between the amount of heat transfer and the required amount of traction.

The closest in technical essence to the proposed utility model is a household gas heating apparatus with a water circuit manufactured by Rostovgazapparat AOGV-17, 4.3, model 2210, GOST 20219-74, TU 51-20-25-92 (see the Guide to Operation “The household gas heating apparatus with a water circuit, p.6-7).

The heat exchanger of the gas apparatus contains a vertical casing with an inlet and outlet pipe, tube sheets, in which teshumenny pipes are fixed, evenly spaced around the circumference, turbulators are inserted in the pipes, which are single plates with bent (in different directions) semicircular vanes blocking the pipe section, at the manufacture of which holes are formed for the passage of combustion products.

The heated medium enters the housing through the inlet pipe, washes the pipes and exits through the outlet pipe. The coolant - the combustion products, enters the pipes, passes through the turbulators and as a result of heat exchange, giving heat to the heated medium, leaves the apparatus.

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The disadvantage of this apparatus is that with sufficiently large diameters of the heat exchange pipes to overlap the pipe section, the blades are made of the corresponding size, therefore, in the manufacture they get large openings for the passage of the coolant, which leads to an increase in the rate of passage of the combustion products and a deterioration in heat transfer.

Reducing the diameter of the pipes leads to an increase in their number and increase the complexity of manufacturing and cost of products.

In addition, the need to obtain the desired heat transfer at high gas velocities leads to an increase in heat transfer area and installation dimensions.

The objective of the utility model is to intensify the heat transfer process of the heating apparatus, optimize the geometric parameters of the turbulators and reduce the dimensions of the heating apparatus.

The technical result is achieved in that each turbulator consists of two plates interconnected, each of which has bent semicircular blades and openings for the passage of coolant, and the blades and holes of one plate are offset by half a step relative to the blades and holes of the other plate.

In FIG. 1 shows a gas heating apparatus with a water circuit, a longitudinal section.

In FIG. 2 - turbulator, front view.

In FIG. 3 - turbulator, side view.

A gas heating apparatus with a water circuit comprises a casing 1, a heat exchanger 2, a furnace device 3, and a smoke exhaust device 4.

The housing of the heat exchanger 5 has a supply pipe 6 and a discharge pipe 7 of the heated medium, tube sheets 8.9, in which heat exchanger pipes 10c of the outside are installed, washed by water and evenly spaced around the circumference. In the channels of the heat exchange tubes 10 are placed the turbulators And, consisting of two plates 12 and 13, rigidly connected to each other.

Each of the plates 12, 13 has bent semicircular blades 14, blocking the cross section of the heat exchange pipe 10, during the manufacture of which holes 15 are formed for the passage of the coolant. Moreover, the blades and holes of one plate are offset by a half step relative to the blades and holes of another plate.

Thus, the overlap of the holes that serve for the passage of combustion products and a decrease in the bore of the pipe. In addition, the offset by half a step allows you to increase the number of blades per unit length of the heat transfer pipe, reduce the step of the sinusoid of the coolant.

As a result, the movement of the coolant slows down, the heat transfer intensity increases, which allows to reduce the heat transfer area and, consequently, the dimensions of the heating apparatus.

The heating apparatus operates as follows. The heated medium 16 enters the housing 5 through the pipe 6, washes the pipes 10 and exits through the pipe 7.

The heat carrier is the flow of combustion products 17, enters from the furnace device 3 into heat exchange tubes 10, passes through the turbulators 11, while the turbulizers 11 create a sinusoidal motion of the coolant.

At the same time, when the gas stream is removed from the blades 14, a turbulence occurs, which contributes to the intensification of heat transfer between the coolant 17 and the heating medium 16. The coolant 17 leaves the heating device through a flue 4.

Claims (1)

A gas heating apparatus with a water circuit, comprising a casing, a furnace, a heat exchanger with water inlet and outlet pipes, upper and lower tube sheets with heat exchanger tubes installed in them, washed by water from the outside, in the channels of which turbulators are located, characterized in that each the turbulator consists of two plates rigidly interconnected, each of which has bent semicircular blades with holes for the passage of coolant, and the blades and holes of one plate are offset half a step relative to the blades and holes of another plate.