RU210004U1 - HEAT STAND - Google Patents

Abstract

The heater stand contains a rigid frame, on which two seats are allocated for fixing the reference and test sections of the heater, inlet and outlet air ducts, inlet and outlet adapters, inlet and outlet pipelines of heating and waste heat carriers, instrumentation and recording equipment. A distinctive feature of the stand is that the inlet adapter is made in the form of a fork, which ensures the division of incoming air into two air flows approximately equal in flow rate and speed, and the outlet adapter is made in the form of a fork, which ensures the combination of air flows emanating from the heater sections. 1 ill.

Description

The technical solution relates to the field of thermal power engineering and can be used to conduct comparative hydrodynamic and thermal engineering studies of water-air, steam-air heat exchangers (water and steam heaters) of various types.

Known stand heater, containing a rigid frame, which is attached to the test section of the heater, inlet and outlet air ducts, inlet and return pipelines of heating and waste heat carriers, instrumentation and control equipment [Minin V.E. Air heaters for ventilation and air conditioning systems. M., Stroyizdat, 1976. 199 p.] (analogue). The disadvantage of such a stand is the impossibility of conducting comparative tests of heater sections of various types.

The closest analogue, adopted as a prototype, is a heater stand containing a rigid frame that fixes the test section of the heater, inlet and outlet air ducts, inlet and outlet adapters, inlet and return pipelines of heating and waste heat carriers, instrumentation and control equipment [State Union SSR standard No. 26548-85 Air heaters. Test methods.] (prototype).

The disadvantage of the prototype is that only one section of the heater can be attached to the frame; when testing two or more sections, it is required to repeat the tests, each time changing the sections, which excludes the possibility of conducting comparative tests to determine the more efficient section of the heater.

This disadvantage reduces the efficiency of the stand and the visibility of the results.

The purpose of the technical solution is to increase the efficiency and visibility of the heater stand by conducting comparative tests and creating equal thermal and aerodynamic conditions for the tested sections of heaters.

This goal is achieved by the fact that in the heater stand, containing a rigid frame with a seat for installing a heater section, inlet and outlet air ducts, inlet and outlet adapters, inlet and outlet pipelines of heating and waste heat carriers, instrumentation and control equipment, in accordance with the technical solution, the frame is equipped with an additional seat, two sections of heaters are fixed on the seats, the reference and the test one, the inlet adapter is made in the form of a fork, which ensures the division of the incoming air into two air flows approximately equal in flow rate and speed, and the outlet adapter is made in the form bifurcation, which ensures the unification of air flows coming from the heater sections.

The essence of the utility model is illustrated by the design scheme of the heater stand.

The heater stand consists of a frame 1, made in the form of a table or a rigid metal frame, on which two seats 2 and 3 are installed for fixing the sections of heaters 4 and 5, the inlet air duct 6, the inlet adapter 7, the outlet adapter 8, the outlet air duct 9, the inlet 10 and outlet pipelines 11 of the heating coolant, instrumentation and shut-off valves and recording equipment (not shown).

The adapter 7 is made in the form of a fork, as it contains an inlet pipe 12, through which it is attached to the inlet air line 6, and two outlet pipes: 13, through which it is attached to the heater 4, and 14, through which it is connected to the heater 5.

The adapter 8 is also made in the form of a fork, but contains two inlet pipes: 15, through which it is connected to the heater 4, and 16, through which it is connected to the heater 5, and one outlet pipe 17, through which it is connected to the outlet duct 9.

Before the start of comparative tests, calorifier sections 4 and 5 are installed on seats 2 and 3, one of which is a reference one, the other is a test one. Sections are connected to pipelines 10 (heating coolant) and 11 (waste coolant), and through adapters 7 and 8 they are connected to air ducts 6 and 9. Control and measuring and recording equipment are connected.

When the shut-off valves of pipelines 10 and 11 of the heating coolant are turned on, the tubes of the heater sections 4 and 5 are heated; cold air through the air line 6 through the pipe 12 enters the inlet adapter 7, in which it is divided into two flows approximately equal in flow rate and speed. One flow through pipe 13 enters the heater section 4, where it washes its tubes, heating up and cooling the heating fluid. The other flow through pipe 14 enters the heater section 5, where it heats up in a similar way and cools the heating fluid. At the outlet of the heaters 4 (pipe 15) and 5 (pipe 16), both flows are mixed in the outlet adapter 8 into one stream of heated air, which goes through the outlet pipe 17 into the outlet air duct 9.

In the steady state flow of the heating coolant and heated air, the input (flow rate, temperature) and output parameters of the coolants (air, hot water or steam) are controlled. If the values of the parameters at the inlet to the reference and test sections are equal, the heater section will be more efficient, at the outlet of which the air temperature will be higher.

Thus, by conducting comparative tests and creating equal thermal and aerodynamic conditions for the compared sections of heaters, the effectiveness of the stand for determining the best samples of sections of heaters and the visibility of its work are ensured, which indicates the achievement of the goal of the technical solution.

Claims (1)

Calorific stand, containing a rigid frame, fixing the tested section of the heater at the seat, inlet and outlet air ducts, inlet and outlet adapters, inlet and outlet pipelines of heating and waste heat carriers, instrumentation and recording equipment, characterized in that the frame is equipped with an additional landing place, two sections of heaters are fixed at the seats, the reference and the test one, the inlet adapter is made in the form of a fork, which ensures the division of the incoming air into two air flows approximately equal in flow rate and speed, and the outlet adapter is made in the form of a fork, which ensures the combination of outgoing air from the heaters airflow sections.

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