SU1359601A1 - Air cooling condenser - Google Patents

Abstract

Invention m. used in refrigeration machines. The purpose of the invention is to intensify heat transfer. di 0bi} fo ee fr7Cf For this section, through one, are made of two halves. The sections are installed with a slope in the direction of the fan with the formation in the central part of the frontal section of the channel 5. Composite sections of the wall Pzi with a variable angle of inclination, increasing towards the fan 6. This design allows to increase the average logarithmic pressure between air with a coolant, equalize the field tp and the air velocities ahead of the front of the condenser of each section due to a more even distribution of fresh air into the gaps 3 between the cooled sections. 2 Il. with jfff) (/ 7ciffffaef / 77a / Fig

Description

The invention relates to heat exchangers for heat engineering and can be used in air condensers of refrigeration machines with a number of sections along the air path and a fan running on suction.

The purpose of the invention is to intensify heat transfer.

Figure 1 is a schematic side view of an air-cooled condenser; Fig. 2 is a view A in Fig. 1) (arrows show the movement of air).

The capacitor contains sections 1, enclosed in a perforated shell 2, installed with a gap along the air. The shell 2 has holes 4 for air leaks. Some sections are installed with a slope at angles cJ. and with the formation in the central part of the front section of the channel 5, the heat exchanger is also equipped with an axial fan 6, and a heat load is installed.

Shz1m at the outlet of the shell and equipped with- When using the proposed

mi bushing 7.

the condenser increases the average logistic temperature difference between the air and the refrigerant, and also the field of temperatures and air velocities ahead of the front of the condenser of each section. As a result, heat removal from the condenser increases and heat exchange intensification is provided.

The condenser works in the following way.

The air flow, incident on the front and the talted surface of section 1, is divided into three parts. Most of the air, approximately 80%, passes through the finned space of sections I. Another part of the air, approximately 10%, flows through holes 4 into gap 3 between the sections. The remaining part of the air enters the central channel 5 of the frontal section of sections 1.

By performing channel 5 of the diffuser profile, the static pressure at the end of it increases, and as a result of the clearance 3 between the first and second confused sections in the central part of the front, the static pressure decreases (indicated in Fig. 1). At the same time, before the front of the second section, there is a better mixing of the air heated in the first section and fresh air entering through the gaps 3 and the channels 5.

In the gap 3 between the second and third sections, an increase in static pressure increases the suction of fresh air, a spirit of 5.

Increasing the angle of inclination of the sections in the course of the air movement (.p ci) and a certain choice of the area of the openings 4 allow for a more even distribution of the flow of fresh air into the air; 3 and reduce the growth of aerodynamic drag without reducing the heat transfer coefficient on the air side, since the air flow rate increases in each section as it travels.

The additional inflow of fresh air before each section increases the thermodynamic efficiency of the device, since the temperature pressure between the air and the refrigerant in all sections approaches the initial one, i.e. to the temperature difference between condensation and exhaust air

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the condenser increases the average log temperature temperature difference between the air and the refrigerant, and also aligns the field of temperatures and air velocities ahead of the front of the condenser of each section. As a result, heat removal from the condenser increases and heat exchange is intensified.

Claims (1)

Invention Formula 45 An air-cooled condenser, 4Q, containing a perforated shell, inside which cooled sections are installed with a gap between them, and a fan placed at the outlet of the shell, characterized in that, in order to intensify heat exchange, the sections through one are made of two halves installed with sloping in the direction of the fan with the formation in the central part of the front section of the channel, the component sections being installed with a variable angle of inclination increasing in the direction of the fan. 50 -I .2ES2 Compiled by N. Alekseev Tehred M. Khodanich Proofreader N. Korol 6142/41 Circulation 476 Subscription VNIIPI State Committee of the USSR -Po affairs of inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4