SU1499060A1 - Arrangement for thermal and aerodynamic tests of selfcontained air conditioner air cooler - Google Patents

Abstract

The invention allows to expand the functionality of the installation for thermal and aerodynamic tests by applying it to determine the optimal position of the air cooler (B) 1 operating in the air dehumidification mode. A fan 4, an air heater 5, an air flow regulator 6, instruments 7, 8 of thermal and aerodynamic measurements are installed in the looped circulating circuit 2 of the air ducts 3. An air humidifier 9 is placed in circuit 2. An adjustable circulation circuit 10 of a refrigerating machine 11 is connected to type B 1. Type 1 is enclosed in a housing 12 on a frame 13 with semi-axes that can be rotated around a horizontal axis. The axles are mounted on spring-loaded supports 15, provided with a measuring scale of vertical displacement. In the lower part of the housing 12 is placed a pallet 17 with a measuring device 18 of condensate flow. 2 Il.

Description

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The invention relates to air conditioning and can be used for testing air coolers operating in the air dehumidification mode.

The purpose of the invention is to expand the functional capabilities of the installation by applying it to determine the optimal position of the air cooler operating in the air-bleed mode.

FIG. 1 is a schematic diagram of an installation for thermal and aerodynamic tests of an air cooler; in fig. 2 shows the layout of the air cooler in the housing.

The unit for thermal and aerodynamic testing of the air cooler 1 of the autonomous air conditioner contains a looped circulating circuit 2 of the air ducts 3, a fan 4 installed in it, an air heater 5, an air flow regulator 6, a heat meter 7 and an aerodynamic measurement 8, an air humidifier 9 as well as an adjustable circulating circuit 10 of the refrigerating machine 11, which is connected to the air cooler 1. The air cooler 1 is enclosed in the housing 12 on the frame 13 with semi-axes 14, and the semi-axes 14 are fixed on spring-loaded supports 15, sec. abzhennyh measuring scale 16 vertical movement. In the lower part of the housing 12 is placed a pallet 17 with a measuring device 18 condensate flow.

The device works as follows.

The fan 4 provides air circulation through the ringed circulating circuit 2 of the air ducts 3. Re- | The elimination of air flow in the circulation circuit 2 is carried out by the flow controller 6, and the measurement of the temperature of humidity and air flow is carried out using heat meters 7 and 8 aerodynamic measurements. The required temperature in the air ducts 3 in front of the air cooler 1 is maintained by the air heater 5 and the air humidifier 9.

In the air cooler 1 connected to the adjustable circulating circuit 10 of the refrigerating machine 11, the air is cooled and dried with condensation on its surface, the condensate flows from the surface of the air cooler 1 into the pallet 17 during testing and merges into a measuring device.

At different angles of installation of the air cooler 1 with respect to the air flow at constant air parameters

(temperature, humidity, flow rate) and constant parameters of operation of the refrigerating machine 11 on the surface of the air cooler 1 different amounts of water vapor condense.

The optimum angle of the air cooler is taken to be that at which the maximum amount of condensate per unit of time falls out and its accumulation on the surface of the air cooler is minimal. At the same time, the aerodynamic resistance of the air cooler 1 is determined. The angle of the air cooler 1 with respect to the air flow is changed by rotating the frame 13 on the semi-axes 14 fixed to the spring-loaded supports 15. On the measuring scale 16 the amount of condensate on the air cooler surface is determined 1 (taking into account the difference before the measurement and during the measurement), and the measuring device 18 is the amount of condensate removed from the pallet 17.

The proposed installation makes it possible to determine the optimal location of the air cooler operating in the mode of air drying.

Claims (1)

Invention Formula Installation for thermal and aerodynamic tests of the air cooler of an autonomous air conditioner, containing a looped circulating circuit of air ducts, a fan installed in it, an air heater, an air flow regulator, and thermal and aerodynamic measurement devices, in order to extend the functionality of the installation by changing to determine the optimal position of the air cooler operating in the air dehumidification mode, the installation additionally contains a humidifier spirit in the circulation circuit of the air ducts and the adjustable circulation circuit of the cooling machine connected to the air cooler, the air cooler being enclosed in the case on the frame with semi-axes that can be rotated around the horizontal axis, and the half-axes are fixed on spring-loaded supports fitted with a measuring scale of vertical displacement, and In the lower part of the body there is a pallet with a measuring device for condensate consumption. FIG. 2