PL159026B1 - Air humidifying unit - Google Patents

Abstract

1. Air humidifier unit, having a humidifying block consisting of a unit of moistening nozzles of a sprinkler and also a bath, characterized in that in the humidifying block (1) are sprinkling beds (5) in the form of a multi-layer nylon mesh, of which one sprinkling bed (5) is in front of the assembly of moistening nozzles (3), and the second sprinkling bed (5) is situated behind the assembly of moistening nozzles (3), while under the humidifying block (1) is a water tank (11), pump (2) and cut-off and control equipment.<IMAGE>

Description

The subject of the invention is a unit for air humidification with water, applicable in air-conditioning systems of rooms, especially in shipbuilding and civil engineering.

The previously known unit for air humidification with water consists of a humidifying block equipped with a set of moisturizing nozzles, a droplet separator and a bathtub. The shut-off and control fittings and the pump are installed outside the humidification block.

The disadvantages of the known unit are large dimensions, weight and the need to design and install fittings and pumps. This unit is adapted to cold water. In addition, the unit does not have characteristics that define the course of the air humidification process.

The object of the invention is to provide a structure that does not have the above drawbacks. This object has been achieved by a moistening block in which there are multilayer nylon mesh spray beds, one of which is located in front of the set of moisturizing nozzles, and the other drip bed is located behind the set of moisturizing nozzles. There is a water tank, pump and shut-off control fittings under the humidifying block. There is a heating coil in the water tank. The shut-off and control fittings have control valves, a float valve and a humidity controller. The shut-off and control valves have control valves, a float valve, a humidity controller, a thermoregulatory valve and shut-off valves.

The advantages of the solution according to the invention are: minimizing the need for humidifying water, minimizing the length of the humidifying chamber, the use of a spray bed consisting of a multilayer nylon mesh, the possibility of adiabatic and polytropic humidification and the complexity of the humidifying system solution, including process control.

The subject of the invention is shown in the embodiment in the drawing, in which fig. 1 shows a diagram of an air humidifier unit without water heating, fig. 2 - a diagram of an air humidifier unit with water heating, fig. 3 - characteristics of a humidifier for air humidification without water heating - adiabatic humidification, and Fig. 4 - characteristics of a humidifier for air humidification with water heating - polytropic humidification.

The unit shown in Fig. 1 consists of a moistening block 1, under which a pump 2 is located on the frame. In the moistening block 1 there is a set of moisturizing nozzles 3, a drip tray 4, sprinkled beds 5, a droplet separator 6 and shut-off and control fittings. The beds 5 are sprinkled in the form of a multilayer nylon mesh, one of which is sprinkled in front of

159 026 with a set of wetting nozzles 3, and a second sprinkling bed 5 is located downstream of the wetting nozzles 3. The shut-off and control fittings are located under the humidifying unit 1. The fittings consist of 7 control valves, 8 float valve and 9 humidity controller. A pressure gauge 10 is located on the conduit for supplying water to the set of moistening nozzles 3. Under the humidifying unit 1 on the frame there is a water tank 11, and between the water tank 11 and the discharge to sewage, an overflow 12 is located.

The variant of the unit shown in Fig. 2 consists of a moisturizing block 1, under which a pump 2 is located on the frame. In the moistening block 1 there is a set of moisturizing nozzles 3, a drip tray 4, sprinkled beds 5, a droplet separator 6 and shut-off and control fittings. . The beds 5 are sprinkled in the form of a multilayer nylon mesh of which one sprinkled bed 5 is in front of the set of moisturizing nozzles 3, and the other sprinkled bed 5 is located behind the set of moisturizing nozzles 3. The shut-off and control fittings are located under the humidifying unit 1. The fittings consist of 7 control valves, 8 float valve and 9 humidity controller. A pressure gauge 10 is located on the conduit supplying water to the set of moisturizing nozzles 10. Under the humidifying unit 1 on the frame there is a water reservoir, and between the water reservoir 11 and the discharge to sewage there is an overflow 12. Water from the water reservoir 11 is sucked by the pump 2 and pumped to the pipeline supplying a set of moisturizing nozzles 3, placed evenly in the stream of flowing air. The design of the 3 humidifying nozzles ensures that the water is sprayed properly into the chamber. The air inlet to the chamber is limited by a mat with a porous structure, which acts as a sprinkled bed and in which the air is initially humidified. The mat is sprinkled with water sprayed by means of a set of 3 angular moistening nozzles. After passing through the inlet mat, the humidified air contacts the droplet cloud in the inlet mat-set of moisturizing nozzles 3 section. A long mat placed at the outlet of the block acts as a preliminary drop eliminator, additionally providing a heat and mass exchange surface. The non-evaporated water flows into the drip tray 4, from where it is discharged into the water tank 11 and is forced again by the pump 2 to the set of moisturizing nozzles 3. This solution allows the use of a unit with water humidification in air conditioning with a minimum chamber length, with high efficiency of the humidification process. The use of sprinkled surfaces compensates for the shortened time of air contact with water, which makes the chamber shorter than in conventional chambers.

In order to make it possible to set the correct pressure of the humidifying water, an overflow pipeline with control valves 7 is connected to the discharge line of pump 2, through which the pressure of water supplied to the humidifying nozzles 3 is regulated. The water level in the water tank 11 is set by a float valve 8 that opens or closes the make-up water supply from the water supply. Protection against an excessive increase in the water level in the water tank 11 is provided by an overflow 12 which discharges water to the sewage. A two-position humidity controller 9, the sensor of which is placed in the air return conduit from the air-conditioned room, controls the operation of 2 pumps supplying 3 humidifying nozzles. The pressure of the water supplied to the humidifying nozzles is controlled by a pressure gauge 10 installed on the discharge water line. Depending on the selected humidification system, a heating coil 13 can be installed in the water tank 11 (polytropic humidification), or the water tank 11 can be made without a heating coil 13 (adiabatic humidification). Polytropic humidification requires the additional installation of a thermoregulatory valve 14 with a flow-regulating sensor in order to maintain the required temperature of the humidifying water. Shut-off valves are used for technical inspections and repairs.

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Department of Publishing of the UP RP. Circulation of 90 copies. Price PLN 5,000.

Claims (4)

Patent Claims 1.A unit for humidifying air with water, having a humidifying block, consisting of a set of humidifying nozzles of a droplet separator, a bath, characterized in that in the moistening block (1) there are sprinkled beds (5) in the form of a multi-layer nylon mesh, of which one bed ( 5) the sprinkled bed is located in front of the set of moisturizing nozzles (3), and the second sprinkled bed (5) is located behind the set of moisturizing nozzles (3), while under the moistening block (1) there is a water tank (11), pump (2) and shut-off and control fittings. 2. The aggregate according to claim A heating coil (13) as claimed in claim 1, characterized in that a heating coil (13) is arranged in the water tank (11). 3. Aggregate according to claim The valve as claimed in claim 1, characterized in that the shut-off and control fittings have control valves (7), a float valve (18) and a humidity controller (9). 4. Aggregate according to claim The valve as claimed in claim 1, characterized in that the shut-off and control fittings have control valves (7), a float valve (8), a humidity controller (9), a thermoregulatory valve (14) and shut-off valves (15).