RU127431U1 - LIQUID AND GAS HEATER - Google Patents

Abstract

1. A heater for liquid and gaseous media, comprising a horizontally oriented housing filled with a liquid intermediate heat carrier, in the upper part of which heat exchangers are placed along its length, a heat generating unit containing a burner connected in a technological sequence, a heat pipe, a reversal box and smoke tubes connected to a chimney located on the outside of the housing, characterized in that it contains at least two fairing coolant flow made in the form of elongated plates located on both sides of the heat-generating unit along the bundle of smoke tubes along their entire length, while the heat exchangers are located on both sides of the heat-generating unit with filling the volume of the heater between the casing and the heat-generating unit to the mounting gaps at the level of the heater’s cross-section in zone of the maximum width of the heat exchanger. 2. The heater according to claim 1, characterized in that it further comprises an economizer for heating the air connected to the bundle of smoke tubes and the chimney and providing heating of the combustion air from the heat of the exhaust flue gases. The heater according to claim 1, characterized in that it further comprises a heat transfer or reception coil located in the lower part of the housing and connected to an external heat supply system. The heater according to claim 1, characterized in that it further comprises at least two rows of withdrawable rollers fixed in the lower part of the housing at an angle between the rows from 20 to 90 °.

Description

The inventive utility model relates to the energy, oil and gas industry, as well as other industries using heat treatment of liquids and gases. In particular, the device may relate to the equipment of automated gas distribution stations of main gas pipelines (AGGR MG), compressor stations of main gas pipelines (KS MG) and can be used in the design of heating schemes for liquid and gaseous products that are fire hazardous and sensitive to overheating.

A sufficient number of devices of the same purpose are known, which can be used as analogues of the claimed technical solution.

Known gas heater (AS USSR No. 265906), comprising a double-walled housing with a tubular heating surface located in the interwall space, washed by an intermediate liquid coolant, and an internal firebox with a gas duct, in which an annular chamber muffled from the end with a tubular surface located therein is installed heating connected by means of pipes to the housing for the transition of the intermediate coolant, and inside the annular chamber along its axis there is a tubular heating surface, for example, for heating fuel th gas.

The disadvantage of this gas heater is that its body is made of two horizontal coaxial cylinders, which causes an increase in the metal consumption of the product and, consequently, a heavier and more expensive structure.

Known, for example, a heater for liquid and gaseous media, comprising a housing filled with a liquid intermediate coolant, and located inside the housing, at least one food coil, a coil for heating fuel, one flame tube connected to a burner device with a gas chamber, and one a chimney, while the nozzle is axially placed in the gas chamber, which is connected to a nozzle for supplying liquid fuel (RF patent for utility model No. 43057).

The above known devices have insufficiently effective induction of the natural circulation of the heat carrier, high values of the specific volume of the intermediate heat carrier per unit of power, do not have the ability to choose the series or parallel connection of heat exchangers depending on the required temperature difference of the heated medium.

A number of devices are also known, made according to patents of LLC "Plant" Gazprommash ", Saratov, among which

the heater of liquid and gaseous media is the closest in technical essence to the claimed utility model (RF patent for the invention No. 2300701). The heater contains a housing filled with a liquid intermediate coolant, in which a heat exchanger and at least two horizontally oriented heat generating units are located, each of which includes a burner, a heat pipe, a bundle of smoke tubes and a pivot chamber, as well as outside the housing a chimney connected to a bundle of smoke tubes. The placement of the heat generating units in the housing is carried out according to the principle of the left and right parts of the heater, made with the possibility of connecting each of the heat generators both independently and simultaneously all together.

The cooling of the heat carrier in the heat exchanger located above the heat generator (due to the increase in the density of the liquid during cooling) creates a force directed towards the motion vector of the heat carrier, which reduces the resulting velocity of the heat carrier and leads to a deterioration in the natural circulation and the need to increase the area of heat transfer surfaces. In addition, the presence of two heat generators leads to the need to double the burner devices and gas equipment, which increases the cost of the product.

Closest to the technical nature of the claimed utility model is a gas heater containing a tank expander, equipped with a gas heater horizontal housing filled with liquid coolant and separated by profile sheets installed with a narrowing in the upper part to the outer lower compartment between the side walls of the housing and the sheets, and the internal lifting compartment, in which the flame tube is connected, connected to the burner device, and the smoke tube bundle installed above it, connected to the smoke tube e, in which the gas heater is made in the form of two modules installed in the lowering compartment in the zone of narrowing of the profile sheets on both sides of the axis of the lifting compartment, and the flame tube along the lower and upper generatrix is equipped with leakages and drains of the coolant flow, respectively (RF patent for the invention No. 2064123 )

The disadvantages of the known device include the lack of efficiency of the circuit for stimulating the circulation of the intermediate coolant, which is provided only by heating from the heat generator (the movement of the heated liquid flow upward due to a decrease in the density of the liquid when heated).

The objective of the proposed technical solution is to increase the efficiency of the heater, reducing the specific volume of the intermediate coolant per unit of power.

The technical result achieved by using the claimed utility model is to ensure the intensification of the natural circulation of the coolant, as well as to increase the manufacturability of manufacturing by reducing the overall dimensions of the housing.

The relative position of the thermally active elements of the heater provides high efficiency of the natural circulation of the coolant and allows to minimize the diameter of the heater body, which leads to a decrease in the specific volume of the intermediate coolant per unit of heat output of the heater.

The problem is solved in that a heater of liquid and gaseous media, including a horizontally oriented housing filled with a liquid intermediate heat carrier, in the upper part of which heat exchangers are placed along its length, a heat generating unit containing a burner connected in a technological sequence, a heat pipe, a reversal box and smoke pipes connected to a chimney located on the outside of the housing, according to the technical solution, contains, at the extreme To the least, two coolant flow fairings made in the form of elongated plates located on both sides of the heat generating unit along the bundle of smoke tubes along their entire length, while the heat exchangers are located on both sides of the heat generating unit with filling the heater volume between the body and the heat generating unit to the mounting the gaps at the cross-sectional level of the heater in the area of the maximum width of the heat exchanger. In addition, the heater may additionally contain an economizer for heating the air connected to the beam of smoke tubes and the chimney, and providing heating of the air entering the combustion from the heat of the exhaust flue gases, as well as a heat transfer or reception coil located in the lower part of the housing and connected in the system of external heat supply. The device can be equipped with two rows of withdrawable rollers fixed in the lower part of the housing at an angle between the rows from 20 to 90 °.

The inventive utility model is illustrated by the following drawings.

Figure 1 schematically shows a longitudinal section of the inventive heater.

Figure 2 presents a cross section of the device, which schematically shows the movement of the coolant based on natural circulation.

The positions in the drawings indicate:

1. housing

2. heat exchanger

3. burner device,

4. flame tube,

5. reversal box,

6. smoke tubes,

7. rotary box,

8. economizer of air heating,

9. chimney

10. Heated product inlet fitting,

11. outlet fitting heated product,

12. fairing,

13. rollers,

14. heat transfer or reception coil,

15. intermediate heat carrier.

The inventive heater is a horizontally oriented cylindrical housing 1, filled with a liquid intermediate coolant 15. In the housing there is a heat generating unit containing a burner 3, a flame tube 4, a reversal box 5, a bundle of smoke tubes 6. Outside the enclosure, a rotary box 7, an economizer 8 and chimney 9. The burner device is located in the lower part of the housing, near one of its end walls and is connected to the flame tube 4. The flame tube ends in a reversal box 5 connected to the beam of smoke tubes 6, the number of which is determined for each modification of the heater individually from the condition of ensuring the necessary throughput and the required heat transfer area. The cavities of the smoke tubes communicate with each other turning and turning boxes. In this case, the rotary box 7 is placed outside the housing 1 and connected to the economizer of air heating 8. The outer chimney 9 is connected to the economizer of air heating 8. The economizer provides heating of the air entering the burner device from the heat of the exhaust flue gases, thereby increasing the efficiency heater. The economizer is a gas-gas heat exchanger, where the combustion products move upward inside staggered pipes, and the heated air flows in the annular space with a transverse-diagonal direction of movement. The economizer provides heating of the combustion air by 50-80 ° C, which allows to increase the efficiency of the heater by 1.3-2% due to the return of the heat of the flue gases to the heater and to improve the mixture formation of fuel and air, while also reducing toxic components (СО, NO _x ) in combustion products.

Two independent heat exchangers 2, each of which is made of U-shaped tubes with a small turning radius and a circular cross section, are located along the length of the housing in its upper part on both sides of the heat generating unit. The independence of the heat exchangers provides the possibility of both parallel and serial connection for heating the product. The heat exchangers are equipped with fittings 10, 11, which receive and dispense a heated product. Two zones of product movement are organized in the tubes of the heat exchangers: the lower is more “cold”, where the movement of the heated product from the inlet of the heated product 10 to the place of the turn of the tubes is provided, and the upper is more “hot”, where the movement of the heated product from the place of the turn is provided.

In the lower part of the case there is a coil 14, which performs the function of transferring heat to an external coolant (can be used for heating buildings and structures), or receiving heat from an external coolant (can be used to maintain a heater in a "hot" reserve from a station heating system). The heat transfer or reception coil 14 consists of a pipe immersed in an intermediate heat carrier mounted in zigzags in the lower part of the housing under the heat-generating unit. The coil is connected to an external heating system with artificial induction through the inlet and outlet fittings. The heated or heating liquid passes in a zigzag fashion, and heat is transferred from a more heated to a less heated liquid. For the inventive heater, the duration of the output to the operating mode is determined by the need to heat the intermediate coolant from the ambient temperature (for example, minus 40 ° C) to operating parameters (about 80 ° C). Therefore, the output of the heater to the design mode of operation takes a long time. To reduce this time, it is necessary to maintain the intermediate coolant in a hot state, which is possible due to the use of the coolant in the heating system through the coil 14.

The heater contains two coolant flow fairings located on both sides of the heat generating unit along its entire length. Fairings 12 are metal plates fixed to the heater body on brackets at an acute angle to a vertical plane, open towards the bottom of the heater. The fairings direct the flow of the coolant preheated from the heat pipe through the smoke tube bundle, thereby activating the heat exchange process.

The device is also equipped with at least two rows of withdrawable rollers 13. Each withdrawable roller has a cylindrical shape, is rotatable with respect to a fixed axis fixed to the heater body on an arm (axis, arm — not shown in the drawings). The number of rollers in a row is determined by constructive expediency, as a rule, from three or more.

The inventive heater operates as follows. An energy carrier is burned in the burner device 3, in which gaseous or liquid fuel is used. The resulting combustion products enter the flame tube 4, through which they move through the reversal box 5 to the smoke tubes 6, passing through which they transfer their heat to the liquid intermediate coolant 15. Then, the combustion products enter the rotary duct 7 and the economizer of air heating 8, and then are removed through a chimney that provides the necessary traction. In economizer 8, the air entering the combustion is heated from the flue gases, and then it enters the burner device, providing an increase in the efficiency of the heater and improving mixture formation in the burner device. The coolant 15 is heated by the elements of the gas path immersed in it, including a flame tube, a reversal box and smoke tubes, while the heated portion of the liquid moves to the upper part of the housing. The product circulating in the heat exchangers takes the heat from the intermediate heat carrier, thereby cooling it, after which the cooled heat carrier falls into the lower part of the housing, where it again begins to heat from the heat-generating elements of the heater. Thus, in the case there is a natural circulation of two mirrored flows of the intermediate coolant in the right and left parts of the heater. The cowling 12 directs the coolant partially heated by the heat pipe to additional heating in the smoke tube bundle, which increases the velocity of the coolant by increasing the temperature difference of the coolant at the beginning and end of heating, and also prevents premature flow of the coolant into the heat exchanger, eliminating a short circulation. Thus, there is a stable and active circulation of the coolant inside the heater body with speeds exceeding the speeds in the prototype heaters, which allows you to activate heat transfer and achieve a higher efficiency without increasing the area of the heat exchange surfaces.

Since the heater has two heat exchangers, during operation of the heater they can be connected both in parallel and in series. So, for gas distribution stations, as a rule, gas heating is not required higher than 25-30 ° C, in this case, heat exchangers are switched on in parallel in order to ensure maximum throughput for the heated gas. If necessary, heat gas at 50-55 ° C at compressor stations of gas pipelines or gas distribution stations with increased inlet pressure, heat exchangers are connected in series from the condition of obtaining the maximum temperature of the heated gas.

A higher rate of heater output to nominal mode is ensured due to a smaller amount of intermediate coolant.

Using the proposed utility model will expand the arsenal of technical means used in the energy sector, oil and gas industry for heating liquids and gases.

The specific volume of the intermediate coolant per unit of power is reduced (not more than 4 m ³ / MW) compared with the most advanced analogue heaters (about 7 m ³ / MW).

Claims (4)

1. A heater for liquid and gaseous media, comprising a horizontally oriented housing filled with a liquid intermediate heat carrier, in the upper part of which heat exchangers are placed along its length, a heat generating unit containing a burner connected in a technological sequence, a heat pipe, a reversal box and smoke tubes connected to a chimney located on the outside of the housing, characterized in that it contains at least two fairing coolant flow made in the form of elongated plates located on both sides of the heat-generating unit along the bundle of smoke tubes along their entire length, while the heat exchangers are located on both sides of the heat-generating unit with filling the heater volume between the casing and the heat-generating unit to the mounting gaps at the level of the heater’s cross-section in zone of the maximum width of the heat exchanger. 2. The heater according to claim 1, characterized in that it further comprises an economizer for heating the air, connected to a bundle of smoke tubes and a chimney and providing heating of the air entering the combustion from the heat of the exhaust flue gases. 3. The heater according to claim 1, characterized in that it further comprises a heat transfer or reception coil located in the lower part of the housing and connected to an external heat supply system. 4. The heater according to claim 1, characterized in that it further comprises at least two rows of withdrawable rollers fixed in the lower part of the housing at an angle between the rows from 20 to 90 °.

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