SU1346914A1 - Method of treating air in heating-ventilation set - Google Patents

Abstract

The invention makes it possible to increase efficiency by reducing waste heat losses. The water of the circulation circuit is heated simultaneously in the surface heat exchanger (TT) 14 by heat carrier after the heater 11 and in noj the surface utilization TT 16 by waste water from the process equipment. Temperature sensors 21, 22, 23 measure the temperature of the water after TT 14, 16 and at the outlet of the antifreeze system. Compare the temperature difference between the water streams after TT 14 and 16 with the temperature difference between the water streams after TT 16 and at the output of the protection system and with a negative mismatch serves the water stream after TT 16 to the first contact device 6, and if positive, to the second contact device 8. 1 silt 2G (L with with 4 Oi with 4

Description

The invention relates to air conditioning technology.

The purpose of the invention is to increase the economy by reducing the loss of heat — HOi o.

The drawing shows the principle s.kh.ma device for realizing the proposed method.

An apparatus for carrying out the method of treating air in an optical process. The air-ventilator unit contains a fan placed in series along the air path, an inlet chamber 2 with a bottom 3 and a system of recipes. from frostbite .. consisted of; it is made of Rube-4 heating and grid 5, first contact device 6., first water distributor 7, second contact device 8, second water distributor 9, drip separator 0 and heater 11 with feed-H1IM 12 and inverse ; U1 13 pipelines. The heating system 4 and heating grid 5 are connected in parallel, their inputs are connected to the output of the heat exchanger 14 and the input of the second water distributor 9, and the outputs to the input of the first water distributor 7 and through the three-way K; ia-pan 15 - to the outputs of the second water distributor 9 and recycling heat exchanger. 16, G1 connected to the pipeline 17 of waste water. At the outlet of the pallet 3, a circulating pump 18 was installed, connected by lines 19 and 20, respectively, with the heat exchanger 14 and the utilization 16 heat exchangers. At the outlet of the circulating water from the tenlooben. 14 li 16,, heating 4 and heating grid 5, foam temperature sensors 21–23 are installed, connected via block 24 to the three-way valve 15, and the drain pan 3 is provided with drainage and submarine pipelines.

A device for performing air removal in the heating-ventilation unit operates as follows.

External air with negative temperament is heated and humidified in two contact devices 6 and 8 with a flow of water from a circulation circuit supplied by pump 18 from node 3 through lines 19 and 20, and is additionally heated to the alorifer 11 by coolant flow from the heat supply system. In this case, the water of the circulating circuit is heated simultaneously in the surface heat-treatment equipment 14 and the heat exchanger utilization heat exchanger 16, respectively.

Compiled by A. She Glo

Editor N. TupntsTehred I. VeresKorrektor A. Pojo

Order 4658/38 Circulation 659 Subscription

VNIIPI USSR State Committee for Inventions and Discoveries

113035, Moscow,) K --- 35, Raushsk nab. 4/5 Production and Printing Enterprise, Uzhgorod, ul. Project, 4

after the heater 11 and waste water from the process equipment, and after the heat exchanger 14 of the heat exchanger 14 at the entrance to the first contact device 6, it is partially cooled in the heating jacket 4 and the heating grid 5 against frost protection. Temperature sensors 21-23 measure the temperature of the water streams of the circulation circuit during the heating plant 14 and utilization 16 of the exchangers and at the output of the antifreeze protection system. Compare the difference between the temperatures of the water streams after the heating 14 and utilization 16 heat exchangers e with the temperature difference of the water streams after util-,. lizing heat exchanger 16 and at the output of the protection system and with a negative mismatch serves the flow of water after the utilization heat exchanger 16 to the first contact device 6, and if positive, to the second contact device 8.

Claims (1)

Isorethorne formula The method of air treatment in the heating and ventilation unit, which includes heating and humidifying the outdoor air with 5 with a negative temperature sequence in two contact devices with the flow of water from the circulation circuit and additional heating in the heater by the flow of heat-transfer agent from the heat supply system, and the water of the circulation circuit is heated 0 at the same time in the surface heat exchanger and utilization heat exchangers, respectively, with heat carrier nosle the heater and waste water from the process equipment, and after the heat transfer. the heat exchanger at the entrance to the first along the air flow, the contact apparatus is partially cooled in the antifreeze system, characterized in that, in order to increase efficiency by reducing the waste heat, Q measures the temperature of the water flows of the circulation circuit after the heat recovery and utilization heat exchangers and at the outlet of the protection system, compare the temperature difference between the water flows after the heat recovery and utilization heat exchangers with the temperature difference of the water flow after the heat recovery utilization and the output of the protection and with a negative error serves the flow of water after the utilization of the heat exchanger in the first along the air contact apparatus, and 0 positive - in the second.