CN201225851Y - Air cooler using residual heat - Google Patents

Abstract

The utility model relates to an air cooler that uses the surplus heat, which comprises an upper channel box, a lower channel box, a main body and a heat exchanging pipe column, wherein, the upper and the lower channel boxes are arranged on the upper end and the lower end of the main body; the main body is divided into an upper main body and a lower main body, and the upper main body is the high-temperature area, and the lower main body is the low-temperature area, and the wall of the upper main body is provided with a gas inlet, and the wall of the lower main body is provided with a discharging port, and a cooling-water inlet and a cooling-water outlet are arranged on the wall of the lower main body from up to down, and the cooling-water outlet is provided with a number 1 valve; a heating water-return inlet and a hot-water/cooling-water outlet are arranged on the wall of the upper main body from up to down, and the hot-water/cooling-water outlet is provided with a number 3 valve; the cooling-water outlet of the lower main body is communicated with the hot-water/cooling-water outlet of the upper main body through a number 2 valve. The air cooler not only can cool down the gas, but also can extract the heat to produce the hot water.

Description

Utilize the aerial cooler of waste heat

Technical field

The utility model relates to a kind of cooler, especially relates to a kind of aerial cooler that utilizes waste heat.Be mainly used in compressed-air actuated cooling.Belong to the heat transmission equipment technical field.

Background technology

Gas is compressed in industries such as metallurgy, chemical industry and is widely used.Gas produces a large amount of heats in compression process, in order to realize isotherm compression at different levels (being similar to), its compression process must be passed through the cooler heat exchange, and this part heat not only will evaporate in heat transfer process, but also will consume energy; In plant produced and the life, need a large amount of heating equipments and process procedure again simultaneously.If these two can be combined, this part heat energy is rationally utilized, that will obtain bigger economic benefit and social benefit.And present existing aerial cooler mainly is made up of cylindrical shell, heat-exchanging tube bundle, air inlet, gas outlet, cooling water inlet, coolant outlet etc.Its cylindrical shell is the one-part form overall structure, and heat-exchanging tube bundle is single bundle structure, therefore only possesses single refrigerating function.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned deficiency, provides a kind of and can reach refrigerating gas when operation, can extract the aerial cooler that utilizes waste heat of heat energy output hot water again.

The purpose of this utility model is achieved in that a kind of aerial cooler that utilizes waste heat, comprise upper tube box, cylindrical shell, heat-exchanging tube bundle and lower tube box, described upper tube box and lower tube box are arranged at the two ends up and down of cylindrical shell, described cylindrical shell is divided into two sections of upper shell and lower shells, upper shell is the high-temperature region, lower shell is a low-temperature space, two heat-exchanging tube bundles are axial arranged respectively in upper shell and lower shell, be connected with flange I between upper shell and the upper tube box, be connected with flange II between upper shell and the lower shell, link to each other with flange III between lower shell and the lower tube box

Described upper shell barrel is provided with air inlet, and the lower shell barrel is provided with exhaust outlet,

Be provided with cooling water inlet and coolant outlet from bottom to top on the described lower shell barrel, coolant outlet is provided with the 1# valve, be provided with the import of heating backwater and hot water/coolant outlet on the upper shell barrel from bottom to top, hot water/coolant outlet is provided with the 3# valve, is connected by the 2# valve between the hot water/coolant outlet on the coolant outlet on the lower shell barrel and the upper shell barrel to communicate.

The high temperature section of described upper shell and lower shell and low-temperature zone can be used according to regulating season.Just isolated operation of high and low warm area during as winter heating, the use of then connecting summer.

The utility model water quench compressed air, both can supporting design when last equipment new projects, also can carry out rebuilding old equipment, and under the prerequisite that does not change former cooler installation dimension, with the shell side in cylindrical shell stage casing divide two sections with, and outside cylindrical shell, set up the valve pipe intercommunication, the internal compression air is connected, can be according to the arts demand flexible modulation, be used for cooled compressed air summer separately, in cooled compressed air, can also play the effect of heating winter.Thereby both reached the technological requirement that has solved refrigerating gas, and extracted heat energy again and produced hot water.

Description of drawings

The Facad structure schematic diagram of the aerial cooler that utilizes waste heat that Fig. 1 relates to for the utility model.

Fig. 2 is the left side view of Fig. 1.

Fig. 3 is the vertical view of Fig. 1.

Among the figure: upper tube box 1, cylindrical shell 2, heat-exchanging tube bundle 3, lower tube box 5, flange I6, flange II7, flange III8, moisture trap 9, air inlet N1, exhaust outlet N2, hot water/coolant outlet N3, heating backwater import N4, coolant outlet N5, cooling water inlet N6, condensation-water drain N7, relief valve connection N8, thermo detector interface N9.

The specific embodiment

Referring to Fig. 1～3, the aerial cooler that utilizes waste heat that the utility model relates to mainly is made up of upper tube box 1, cylindrical shell 2, heat-exchanging tube bundle 3 and lower tube box 5.Described upper tube box 1 and lower tube box 5 are arranged at the two ends up and down of cylindrical shell 2, described cylindrical shell 2 is divided into 2.2 2 sections of upper shell 2.1 and lower shells, upper shell 2.1 is the high-temperature region, and lower shell 2.2 is a low-temperature space, and two heat-exchanging tube bundles 3 are axial arranged respectively in upper shell and lower shell.Be connected with flange I6 between upper shell 2.1 and the upper tube box 1, be connected with flange II7 between upper shell 2.1 and the lower shell 2.2, link to each other with flange III8 between lower shell 2.2 and the lower tube box 5.

Described upper shell 2.1 barrels are provided with air inlet N1 and relief valve connection N8, and relief valve connection N8 is equipped with safety valve.Lower shell 2.2 barrels are provided with exhaust outlet N2, and exhaust outlet N2 is provided with thermo detector interface N9, and thermo detector interface N9 is equipped with thermo detector.

Be provided with cooling water inlet N6 and coolant outlet N5 from bottom to top on described lower shell 2.2 barrels, coolant outlet N5 is provided with the 1# valve, be provided with heating backwater import N4 and hot water/coolant outlet N3 on upper shell 2.1 barrels from bottom to top, hot water/coolant outlet N3 is provided with the 3# valve, is connected by the 2# valve between the hot water/coolant outlet N3 on the coolant outlet N5 on lower shell 2.2 barrels and upper shell 2.1 barrels to communicate.

Described lower tube box 5 bottoms are provided with condensation-water drain N7.

Operation principle:

During winter heating, the 2# valve cuts out, 1# valve and 3# valve are opened, two road heating systems are connected in parallel up and down, high temperature compressed gas is entered by the air inlet N1 of upper tube box 1, the heat-exchanging tube bundle 3 in the cylindrical shell of flowing through is become behind the low temperature Compressed Gas exhaust outlet N2 by lower tube box 5 to discharge by heat-exchanging tube bundle 3 outer water quench; Simultaneously, cooling water is entered by the cooling water inlet N6 on lower shell 2.2 barrels, and the shell side of the lower shell 2.2 of flowing through is discharged by the coolant outlet N5 on lower shell 2.2 barrels by the heating of the low temperature Compressed Gas in the heat-exchanging tube bundle 3 back; The heating backwater is entered by the heating backwater import N4 on upper shell 2.1 barrels, upper shell 2.1 shell sides of flowing through, discharged by the hot water on upper shell 2.1 barrels/coolant outlet N3 by the high temperature compressed gas heating back in the heat-exchanging tube bundle 3, the condensed water of cylindrical shell bottom is then discharged by the condensation-water drain N7 of lower tube box bottom.

Summer is when cooling off, 1# valve and 3# valve close valve, the 2# valve is opened, two road cooling systems are connected in series up and down, high temperature compressed gas is entered by the air inlet N1 of upper tube box 1, the heat-exchanging tube bundle 3 in the cylindrical shell of flowing through is become behind the low temperature Compressed Gas exhaust outlet N2 by lower tube box 5 to discharge by heat-exchanging tube bundle 3 outer water quench; Simultaneously, cooling water is entered by the cooling water inlet N6 on lower shell 2.2 barrels, lower shell 2.2 shell sides of flowing through, after carrying out heat exchange with low temperature Compressed Gas in the heat-exchanging tube bundle 3, through the 2# valve, enter by the heating backwater import N4 on upper shell 2.1 barrels again, upper shell 2.1 shell sides of flowing through, after carrying out heat exchange with high temperature compressed gas in the heat-exchanging tube bundle 3, discharged by the hot water on upper shell 2.1 barrels/coolant outlet N3 at last, the condensed water of cylindrical shell bottom is then discharged by the condensation-water drain N7 of lower tube box bottom.

Claims (3)

1, a kind of aerial cooler that utilizes waste heat, comprise upper tube box (1), cylindrical shell (2), heat-exchanging tube bundle (3) and lower tube box (5), described upper tube box (1) and lower tube box (5) are arranged at the two ends up and down of cylindrical shell (2), it is characterized in that: described cylindrical shell (2) is divided into (2.2) two sections of upper shell (2.1) and lower shells, upper shell (2.1) is the high-temperature region, lower shell (2.2) is a low-temperature space, two heat-exchanging tube bundles (3) are axial arranged respectively in upper shell (2.1) and lower shell (2.2), be connected with flange I (6) between upper shell (2.1) and the upper tube box (1), be connected with flange II (7) between upper shell (2.1) and the lower shell (2.2), link to each other with flange III (8) between lower shell (2.2) and the lower tube box (5)

Described upper shell (2.1) barrel is provided with air inlet (N1), and lower shell (2.2) barrel is provided with exhaust outlet (N2),

Be provided with cooling water inlet (N6) and coolant outlet (N5) on described lower shell (2.2) barrel from bottom to top, coolant outlet (N5) is provided with the 1# valve, be provided with heating backwater import (N4) and hot water/coolant outlet (N3) on upper shell (2.1) barrel from bottom to top, hot water/coolant outlet (N3) is provided with the 3# valve, is connected by the 2# valve between the hot water/coolant outlet (N3) on the coolant outlet (N5) on lower shell (2.2) barrel and upper shell (2.1) barrel to communicate.

2, a kind of aerial cooler that utilizes waste heat according to claim 1 is characterized in that: described lower tube box (5) bottom is provided with condensation-water drain (N7).

3, a kind of aerial cooler that utilizes waste heat according to claim 1 and 2 is characterized in that: described upper shell (2.1) barrel is provided with relief valve connection (N8), and described exhaust outlet (N2) is provided with thermo detector interface (N9).

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