RU2021111200A - HEAT EXCHANGER WITH ADIABATIC AIR COOLER - Google Patents

Claims (17)

1. A heat exchange device comprising at least two heat exchangers (1) through which liquid flows and which are located opposite the central longitudinal plane of the body (9) of the heat exchanger at a distance from each other and essentially in a vertical direction or at an angle to the vertical direction , and between the opposite heat exchangers (1) there is at least one fan (11) located on the upper side of the body (9) of the heat exchanger, and at least one adiabatic air cooler (2) is associated with each heat exchanger (1) to cool the air, sucked in from the environment by at least one fan (11), wherein the intake air first passes through the air cooler (2), then through the heat exchanger (1) and then is blown out by the fan (11) on the upper side of the heat exchanger housing (9), and with each adiabatic air cooler (2) is associated with at least one humidifier (3) located in the air cooler (2) and containing a moisture-absorbing material and a liquid supply means (4) configured to supply liquid to the humidifying means (3) to keep the humidifying means (3) in a wet state, characterized in that the humidifying means (3) contains at least two mats (3a, 3b) located one above the other, and the means (4) for supplying liquid contains a distributor (4a, 4b) located above each mat (3a, 3b) for uniform distribution of liquid over the mats (3a, 3b), which in each case is connected to a supply line (5) through which the distributors (4a, 4b) receive liquid. 2. The heat exchange device according to claim 1, wherein the mats (3a, 3b) are positioned one above the other, oriented in the same plane and aligned with each other in that plane. 3. Heat exchange device according to claim 1 or 2, characterized in that each distribution device (4a, 4b) contains a distribution body that evenly distributes liquid over the upper side of the mat (3a, 3b) associated with the corresponding distribution device (4a, 4b) , wherein the dispensers (4a, 4b) are preferably made in the form of liquid-permeable pipes or hoses through which liquid flows, in particular in the form of a porous material hose or a pipe with a plurality of holes or nozzles. 4. A heat exchange device according to one of the preceding claims, characterized in that it comprises an air cooler housing (10) in which the mats (3a, 3b) are interchangeable. 5. Heat exchange device according to claim 4, characterized in that the air cooler body (10) comprises a manifold-shaped base part (10a), at least two side parts (10b) and at least two cross braces (10c, 10d) , the transverse struts (10c, 10d) being oriented in the longitudinal direction (L) of the heat exchange device. 6. The heat exchange device according to claim 5, in which the first mat (3a) is located between the base part (10a) and the first cross brace (10 c), and the second mat (3 b) is located between the first cross brace (10 c) and the second cross brace (10d). 7. Heat exchange device according to any one of paragraphs. 5 or 6, characterized in that the first distributor (4a) is located in the first transverse strut (10c) with the possibility of moistening the first mat (3a) fixed therein, and/or the second distributor (4b) is located in the second transverse strut (10d ) with the possibility of moistening the second mat fixed in it (3b). 8. Heat exchange device according to any one of paragraphs. 5-7, characterized in that the first transverse strut (10c) contains a base and a cover extending at a distance and parallel to the base, and the first distributor (4a) is located between the base and the cover, while both in the base and in the cover are channels (13) through which liquid can flow. 9. A heat exchange device according to one of the preceding claims, characterized in that at least one valve (16) is provided in the supply line (5), through which the liquid in the supply line can be drained. 10. Heat exchange device according to one of paragraphs. 5-9, in which each transverse strut (10c, 10d) comprises at least one receiving area, made in the shape of a U-shaped cross-section and designed to receive the bottom side and/or top side of the mat (3a, 3b). 11. Heat exchange device according to one of paragraphs. 5-10, in which at least one, in particular each cross strut (10c, 10d) contains at least one channel, preferably several channels (13), through which liquid can enter the underlying mat (3a). 12. A heat exchange device according to one of the preceding claims, characterized in that each distribution device (4a, 4b) is connected to a supply line (5) via a manifold (12). 13. A heat exchange device according to one of the previous claims, in which the supply line (5) is connected to a pump (15) supplying liquid under pressure through the supply line (5) to the distribution devices (4a, 4b). 14. A heat exchange device according to one of the preceding claims, characterized in that at least one mat (3a, 3b) contains several sections (3a', 3a'', 3a'') of the mat, and the sections (3a', 3a'' , 3a'') mats are arranged in a plane in the longitudinal direction (L) of the air cooler (2) with their edges to each other and/or perpendicular to the longitudinal direction (L) one above the other. 15. A heat exchange device according to one of the preceding claims, wherein each mat (3a, 3b) or each section (3', 3'', 3''') of the mat is detachable separately from the air cooler (2). 16. Heat exchange device according to one of the preceding claims, characterized in that each heat exchanger (1) is divided into at least two sections (1a, 1b) of the heat exchanger located vertically one above the other, and the sections (1a, 1b) of the heat exchanger contain separate each from another pipe system through which a liquid flows in the form of a coolant or refrigerant, giving off heat to the air passing through the heat exchanger (1). 17. The heat exchange device according to claim 16, in which the mat (3a, 3b) is connected to the corresponding section (1a, 1b) of the heat exchanger in such a way that the air sucked from the environment by the fan (11) first passes through the corresponding mat (3a, 3b) and then through the associated heat exchanger section (1a, 1b).