RU64332U1 - JUICE VAPOR CONDENSER - Google Patents

Abstract

The utility model relates to the field of agriculture, and in particular to devices for the disposal of juice vapor evaporators. The technical result of the utility model is to increase the service life, increase the efficiency of the workflow and reliability. The essence of the utility model is as follows. Cooling water is supplied to the condenser in the annulus, and steam is condensed in the heat exchanger tubes of the condenser. In the casing and the covers of the capacitor, longitudinal horizontal partitions are made, dividing the capacitor space into several channels connected in series with each other. A pipe for supplying coolant is installed in the lower part of the casing, a pipe for exhausting is in the upper part of the casing, and a pipe for supplying juice vapors is in the upper part of the casing cover, and a pipe for condensate discharge is in the lower part of the casing. Condenser tubes are made of stainless steel. As a result of the proposed solution, the condensation efficiency of juice vapors is increased and the service life of the capacitor is increased.

Description

The utility model relates to the field of agriculture, and in particular to devices for the disposal of juice vapors of evaporators.

Known shell-and-tube heat exchanger, consisting of a casing and pipes fixed in gratings to create two flow channels. The first channel is located in the annulus and is designed for neutral environments, and the second one, obtained from the pipe bore, is intended for solutions and liquids that can contaminate the inner surfaces of pipes. The covers of the distribution chambers and the casing that closes the annulus are equipped with fittings for supplying and discharging coolants. [Industrial heat and power engineering. Directory. / Under the general editorship of V.A. Grigoriev and V. M. Zorin. - M .: Energoatomizdat, 1983. - P.106].

The disadvantage of this heat exchanger is the inefficiency of using it as a condenser.

The closest solution to the proposed one is a surface condenser, which is a horizontal tubular heat exchanger consisting of a casing closed on both sides with lids and brass tubes fixed in gratings, in which steam is supplied into the annulus, and cooling water circulates in the tubes. [V.I.Ivashov. Technological equipment for the meat industry. - M .: Kolos, 2001. - P.471]. This condenser allows you to get pure distillate, which can then be used in steam boilers.

But when using a tubular surface condenser to condense juice vapors during disposal of poultry slaughter waste, a significant drawback was revealed - clogging of the annulus with fat-containing wastes that are taken out together with water

in pairs. This reduces the life of the condensers, since the annulus cleaning is not possible due to the design features of such heat exchangers, only major repairs are possible by replacing the brass tubes with new ones.

The technical result of the utility model is to increase the service life, increase the efficiency of the workflow and reliability.

The essence of the utility model is as follows.

Cooling water is supplied to the condenser in the annulus, and steam is condensed in the heat exchanger tubes of the condenser. In the casing and the covers of the capacitor, longitudinal horizontal partitions are made, dividing the capacitor space into several channels connected in series with each other. A pipe for supplying coolant is installed in the lower part of the casing, a pipe for exhausting is in the upper part of the casing, and a pipe for supplying juice vapors is in the upper part of the casing cover, and a pipe for condensate discharge is in the lower part of the casing. Condenser tubes are made of stainless steel.

A causal relationship between the essential features and the technical result is as follows.

Longitudinal horizontal partitions form consecutively connected channels and provide multi-directional movement of media along the condenser, while the supply of coolant through the pipe from below and the supply of steam from above provide counterflow, which increases the intensity of vapor condensation and the efficiency of the condenser working process. The use of stainless steel tubes allows you to increase the service life and allows multiple cleaning of the pipes. All this leads to an increase in the reliability and durability of the capacitor.

The drawing shows a longitudinal section of a capacitor.

The capacitor consists of a casing 1 with lattices 2 attached to it. The lattices 2 have openings in which stainless steel tubes 3 are fixed. To ensure multi-paths, longitudinal horizontal partitions 4 are formed in the casing 1, forming channels connected in series. The supply and discharge of cooling water is carried out through the nozzles 5 and 6. The casing 1 of the condenser is closed on both sides by covers 7 provided with partitions 8, a nozzle 9 is connected to one of the covers 7 for supplying steam, and a nozzle 10 for condensate discharge is connected to the other.

The capacitor works as follows.

Juice vapors from the boiler are supplied to the nozzle 9 (not indicated in the drawing), and cold water is supplied to the nozzle 5. When steam passes through tubes 3, which are washed with water, steam condenses and condensate is discharged through nozzle 10. Heated water is discharged through nozzle 6 and is cooled. When the condenser tubes are clogged, the covers 7 are disconnected and the tubes are cleaned of deposits and grease. Then the capacitor is assembled and restarted.

As a result of the proposed solution, the efficiency of condensation of juice vapors is increased and the service life of the capacitor is increased.

Claims (1)

A juice vapor condenser comprising a horizontal casing with heat exchanger tubes inside and equipped with nozzles for supplying and discharging coolant, closed on both sides with removable covers with nozzles for supplying steam and condensate, characterized in that longitudinal horizontal partitions are installed inside the case and on the covers forming horizontal connected channels in series, a pipe for supplying coolant is located in the lower part of the casing, a pipe for supplying steam in the upper of the lid, the water supply pipe to the top of the casing, an outlet for removing the condensate in the bottom of the cover, and the heat exchange tubes are made of stainless steel.