SU638512A1 - Tank breathing device - Google Patents

Description

(54) RESPIRATORY. DEVICE RESERVOIR

The temperature conditions of the heat carrier in a thermos are 5, for example, nitrogen (condensation temperature minus 196 ° C). Thermos 5 has a filling neck with breathing tube 7.

The respiratory device operates as follows.

When storing oil in a tank in connection with daily fluctuations in: under the roof of tank 1, there is a change in the density and volume of vapors, which causes periodic increases and decreases in pressure relative to atmospheric conditions. When the vapor pressure under the roof rises, the tank 1 exhales while the pressure valve 2 is open. Exhaled oil product vapors through pipeline 7 enter the coil 10, where they are cooled, condensed and flow into a closed container 6. An increase in the volume of condensate in container 6 displaces non-condensable gas (nitrogen) through pipeline 9 into the gas-holder 4, while according to the conditions of bulk vapor condensation the volume of the outflowing gas into the liquid into the gas tank 4 is approximately one six hundredth the expiratory volume of the reservoir 1. When the vapor pressure under the roof of the reservoir decreases, the pressure valve 2 closes and the vacuum valve 3 opens, the vacuum uboprovodu 8, a coil heat exchanger 5, line 14 and bypass conduit 16 is transmitted to the inverse V-bend pipe 14. The end of it is immersed in the condensate and BcacHsaet last. Condensate through conduit i4 enters the heat exchanger 15, where it evaporates, increasing in the volume of vapors about five times, and the form of vapor through conduit 8 through the vacuum. Valve 3 returns under the roof of the tank. Accordingly, the change in the volume of condensate in the container 6 is compensated for by supplying gas from the gas tank 4 through pipeline 9. As the vacuum under the tank roof decreases to the value of condensate lifting pressure along the bend of pipe 14, this pressure is transferred to the top of the V-shaped bend of pipe 14 and sucked the source of condensate is broken, stopping its entry into the heat exchanger 15. Thus, pipeline 16 carries out constant monitoring and metering of condensate during inspiration of the tank.

So is the breathing of the tank.

lossless oil product vapors to atmosphere

and without pollution of the environment.

In case of expiration of the tank more, the estimated volume of the container 6 condensate level rises to the top of the V-shaped tube of the hydraulic shutter 11 and returns to the tank along the drain pipe 13 through the drain pipes. At the same time, the condensate being drained, having a low temperature below zero, cools the product and its vapors in the tank, which limits its expiration.

In the case of inhalation of the tank above the estimated volume of the container 6, when all the condensate will be used, the rest of the breath can be provided with gas from the gasholder

4, which, during the next expiration of the reservoir, returns and the device returns to its original position. Expansion chamber 12 provides constant hydraulic shutter P.

During operation, the level of coolant in thermos 5 is controlled by any known level gauge. Thermos can be connected to the refrigeration unit as a heat exchanger.

The proposed breathing device

in comparison with the known tank, it eliminates the loss of product from the tank to the atmosphere and eliminates its adverse effect on the service personnel, as well as prevents ignition and explosions in tank farms.

Claims (1)

Invention Formula The breathing device of the tank, which includes a pressure valve, a vacuum valve, a gas-holder and a pipeline, is characterized in that, in order to avoid product losses from the tank to the atmosphere, it is equipped with a thermos with a low-temperature heat carrier and a container inside it communicated with the pressure valve, a vacuum - a valve and a gas tank through a pipeline and with a tank - through a hydraulic valve installed in it with a drain pipe. Sources of information taken into account in the examination: t. US patent number 3563263, cl. 137-202, 197.