SU1717500A1 - Oil products tank - Google Patents

Abstract

This invention relates to the operation of containers and tanks for petroleum products. The purpose of the invention is to increase fire safety. Equipping the tank with an explosion protection system consisting of two temperature sensors (DT), subtraction and control units (BV and CU), high-speed valve (BZ), paddle swirler (LZ), air duct (B) with a vacuum source connected to the valve The branch pipe (CW) allows to continuously monitor the state of the vapor-air mixture in the gas space of the tank and to prevent ignition or explosion in due time. LZ is fixed in VP. DT is placed in the same plane under the LZ and connected via BV and BU to the BR, set at B. The distance between the DT and LZ 0 (1.8-2.0) RV. and from the axis of VP And (10.1-0.2) YaVn, 12 (0.75-0.85) RBH, where H and 2 are the distance from the axis of the VP to the first and second DT, respectively, a RBH is the internal diameter VP. 3 il.

Description

The invention relates to the operation of tanks and tanks for petroleum products and can be used in the chemical and petrochemical industry.

Current trends in the development of enterprises of transport and storage of oil and petroleum products have a double impact on their state of fire safety. The introduction of new progressive technological equipment designs, the increase in its operational reliability, the complex automation of technological processes, the use of new automated systems for detecting and extinguishing fires contribute to reducing the fire danger in this industry. But at the same time, an increase in the size of tanks, tank farms and other industrial facilities, increased productivity and full-scale intensification of technological processes, compaction of buildings with a reduction in the distance between structures increases the likelihood of a fire and its severe consequences.

The most frequent fires occur during the discharge and pouring of oil products (about 70%). In spring and summer, 80% occur, and in autumn only 20% of fires occur. Basically, all the fires on the loading racks occur in the evening, at night, or early in the morning. This can be explained by the increased evaporation of petroleum products at elevated temperatures in summer and spring, with slow dispersion.

Vj

SL O O

vapor at night with a stable inversion of the atmosphere ..

Automatic fire alarms are known, equipped with heat exchangers of maximum and differential action.

However, all elements of the automatic fire alarm are designed for installation in rooms.

Closest to the present invention is a vertical cylindrical tank, comprising a housing with a skylight, a manhole, ventilation and distribution pipes, breathing and safety valves, and a fire barrier. The working element of the flame arrester, which overlaps the cross section of the breather valve, is usually made in the form of a cassette with many narrow extinguishing channels of a given size.

Possessing certain properties of protection against fire hazards, fire barriers have a number of disadvantages: low reliability, especially in winter (there are cases of freezing of fire arresters), as well as the impossibility of constant monitoring of the fire-safe situation in the tank.

The purpose of the invention is to increase the reliability of operation of the tank for petroleum products by reducing the likelihood of a fire hazard situation.

This goal is achieved by the fact that a well-known tank for petroleum products, comprising a housing with a skylight, a manhole, ventilation and receiving distribution pipes, breathing and safety valves, a fire barrier, is provided with an explosion protection system consisting of two temperature sensors, subtraction units and control, a quick-acting valve, a rotary scoop, an air duct with a vacuum source connected to the vent. Moreover, the blade impeller is fixed in the vent pipe, and above it, in the same plane, temperature sensors are placed, which are connected through the subtrac- tion unit and the control unit to the quick-acting valve installed on the air duct. Temperature sensors are placed so that the distance between them and the swirler 10 is equal to (118-2.0) Kan, and from the axis of the vent nozzle H (0.1-G, 2) RBH, l2 (0.75-0.85 ) RBH, where And and 12 are the distance from the axis of the vent pipe to the first and second sensors, respectively; RBH is the internal diameter of the vent.

The proposed tank differs from the known one in that it is provided with an explosion protection system consisting of two temperature sensors, subtraction and

control, high-speed valve, vane screamer, air duct with a vacuum source connected to the vent nozzle, vane sealer fixed in the vent

The nozzle, temperature sensors are installed in the same plane above the vane swirler and connected through the subtraction unit and the control unit to the high-speed valve that is installed on the duct, and the temperature sensors are placed like this. that the distance between them and the swirler is I0 (1.8-2.0) RBH, and from the axis of the vent nozzle H (0.1-0.2) PBN,

0 12 (0.75-0.85) RBH, where And and 2 are the distance from the axis of the vent to the first and second sensors, respectively; RBH is the internal diameter of the vent.

5 Figure 1 shows a reservoir for petroleum products; Fig. 2 shows the layout of the scum grinder and temperature sensors in the vent pipe (vortex tube); Fig. 3 is a diagram of the arrangement of temperature sensors with respect to the transmitter.

A tank for petroleum products (Fig. 1), comprising a housing 1 with a skylight 2, a manhole 3, a vent 4 and a dispensing 5 nozzles, a breather 6 and a safety valve 7, a fire barrier 8, equipped with an explosion protection system consisting of two temperature sensors 9 and 10, units of subtraction 11 and control 12, a high-speed valve 13, a rotary scoop 14, an air duct 15 s. a vacuum source 16 connected to the vent nozzle 4.

Claims (1)

Invention Formula 5 A tank for petroleum products, comprising a housing with a skylight, a manhole, ventilation and receiving-dispensing nozzles, breathing and safety valves, 0 fire barrier, characterized in that, in order to increase fire safety, it is equipped with an explosion protection system consisting of two temperature sensors, subtraction and control units, a quick-acting gate valve, a rotary valve, an air duct with a vacuum source connected to the vent the nozzle, the impeller swirler is fixed in the vent nozzle, temperature sensors are installed in the ventilation nozzle in the same plane above the bladed swirler and connected through a subtractor and a control unit to the high-speed valve, the latter is installed on the duct, and the temperature sensors are placed so that the distance between them and the swirler is lo (1.8-2.0) RBm and from the axis of the vent nozzle - AND - (0, 1- 0.2) RBH, 12 - (0.75-0.85} Rvn. Where 11 and fc are the distance from the axis of the vent pipe to the first and second sensors, respectively; RBH is the inside diameter of the vent pipe. 15 Block subtraction C Editor N. Lazarenko Compiled by V. Nizovtsev Tehred M. Morgental Phage.Z Proofreader S. Cherni