CZ208595A3 - Method of blinding gas pipelines and apparatus for making the same - Google Patents

Abstract

The gas pipelines are blinded by a blinding flange and an inert gas, for example nitrogen, and, first of all, by the controlled pressure flow of the inert gas into the inner space of the blinding section of the gas pipeline. The gas medium transported in it is affected in the opposite direction of its flow by the overpressure of the inert gas up to the blinding flange, whereupon after this blinding section of the gas piping is fully filled with the inert gas the blinding flange is expanded and blinded by inserting a blank flange. The smallest distance of the suppression of the gas medium behind the blinding flange depends on the volume of the inert gas that reversibly escapes through the slot of the blank flange during the whole period of its expansion during the insertion of the blank flange from this part of the blinding section of the gas piping. The equipment consists of a pressure source (1) for the inert gas, the output of which terminates through a pressure meter (2) and a closing valve (3) in the front of the blank flange (5) of the blinding section of the gas pipeline (10) and from the system of at least 2 gas analysers (6), which terminate on at least two places of the part of the blinded section of the gas pipeline (10) behind its blinding flange (5).<IMAGE>

Description

(57)

Blinding of the gas pipelines is carried out by means of a blanking flange and an inert gas, such as nitrogen, whereby the gaseous medium transported therein is displaced beyond the blanking flange by means of an overpressure of inert gas by controlled pressure injection of the inert gas into the interior. after which the blank flange is opened and the blank flange is opened by inserting the blanking plug after the blanking line is completely filled with inert gas. The smallest distance of displacement of the gas medium behind the blank flange is given by the amount of inert gas which subsequently escapes back through the blank flange slot during its entire opening when inserting the blank from this part of the blanked gas line section. The device consists of a pressure source (1) of inert gas, the outlet of which is connected via a pressure gauge (2) and a shut-off valve (3) to the blinded section of the gas pipeline before the blanking flange (5).

A method of blinding gas pipes and blurring to perform this method > 1 &quot;

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for blanking gas pipelines with a blanking flange and an inert gas, for example nitrogen, and to an apparatus for carrying out the method.

BACKGROUND OF THE INVENTION

Blind works on gas pipelines transporting gaseous medium, ie various technical and heating gases, such as blast furnace gas and the like, from the main industrial gas pipeline to, for example, gas burners for industrial furnaces or other technological aggregates, in case of repair or replacement of functional parts These pipelines are carried out mainly by means of blanking flanges and so-called nitrogen curtains. In this method, nitrogen gas is situated close to the blanking so as to flood the piping at the blanking site and at the same time expand at the opening of the blanking flanges, thereby creating a local inert environment. The disadvantage of this method is the necessity to implement a number of technical, organizational and safety measures in order to prevent gas leakage from the gas pipeline and endanger the environment. In addition to its own preparatory work, it is mainly the need to reduce gas pressure throughout the system, thereby limiting its supply to other consumers, as well as checking and measuring all electrical cables, or their disconnection, and ensuring anti-gas and fire assistance, and despite these the measure is a very risky way. Further, various technical means for temporarily blinding gas lines are known, such as various elastic bags, which by inflating them inside the line will create a gas impermeable plug. Devices such as those described in U.S. Pat. No. A1871845, which comprises an insertion chamber of an elastic inflatable bag and a rope winch system. Also known is the gas pipeline shut-off device according to U.S. Pat. AO 266030, based on the principle of an umbrella frame, wrapped in a closure bag, which also slips into the necessary space in the pipeline and opens it to close the gas passage. The disadvantage of using these devices is their structural complexity as well as the considerable extent of both the preparatory and the blind work.

SUMMARY OF THE INVENTION

The above-mentioned disadvantages of the prior art are largely eliminated by the method of blanking the gas pipelines by means of a blanking flange and an inert gas, for example nitrogen, characterized in that first by controlled pressure injection of inert gas into the interior space of the blanked gas pipeline section. The gaseous medium to be conveyed upstream of the inert gas is displaced beyond the blanking flange, after which the blanking section of the gas pipeline is completely filled with the inert gas and the blanking flange is opened and the plug is blinded. The smallest distance of displacement of the gaseous medium behind the blanking flange is given by the amount of inert gas which subsequently escapes back through the blanking flange slot during its entire opening when inserting the blank from this part of the blanked gas line section.

The amount of inert gas to be injected depends on the size of the internal volume of the blinded section of the gas duct and the length of time required for the opening of the blank flange and the width of the opening.

For complete safety, at the time of the blanking flange opening, the inert gas loss in the part of the blinded gas line section downstream of the blanking flange is continuously monitored and the amount and pressure of the inert gas supplied is controlled according to the size of the blanking flange.

This measure can, if necessary, completely stop or at least slow down the loss of inert gas from a part of the blinded section of the gas duct beyond its blanking flange and thus prevent any leakage of the displaced gaseous medium, for example from the main gas pipeline, to the gap. leakage of toxic substances, especially carbon monoxide.

The method according to the invention makes it possible to carry out all gas works on gas pipelines in remote and inaccessible places and hazardous areas. Its advantage is more mobile, faster, more operational and thus cheaper repairs without the need for complex organizational and security measures, as has been the case so far. The method of the invention does not require reducing the gas pressure throughout the system and thereby limiting its supply to other consumers. Since there is no need to reduce the gas pressure in the gas network by blowing off the gas, there is no pollution of the environment. One of the main advantages of this method over the existing methods, in particular the method using only local nitrogen curtains, is the reduction of the risk of carbon monoxide leakage to a minimum and thus of possible poisoning, while reducing the risk of explosive mixture formation and possible subsequent explosion or fire.

Another object of the present invention is to provide an apparatus for carrying out the method comprising an inert gas pressure source, the outlet of which is connected via a main pressure gauge and a shut-off valve to a blinded section of a gas line through a blanking flange and a set of at least two gas analyzers. at least in two places from the part of the blinded section of the gas pipeline behind its blind flange. Mobile nitrogen or liquid nitrogen semitrailers can be used as pressure sources of inert gas.

The method and apparatus according to the invention thus create a widely applicable complex system of controlled blanking of pipelines, where essentially only the calculable volume of the depressurized gas varies depending on the diameter of the pipeline and the time required for opening the blanking flanges. The connection of the outlet of the inert gas pressure source and the gas analyzers to the gas pipeline before the start of the blind work can be carried out by already known methods, which can be used to create the necessary blind flanges if necessary.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS The invention is illustrated in more detail with reference to the accompanying drawings, in which: FIG. 1 is a schematic representation of a blinded gas line including a device according to the invention; and FIG. the inert gas being fed over the opening time of the blank flange according to the different width of its gap.

An example of an embodiment of the invention

As shown in FIG. 1, the blanked pipeline 10 is connected to the main gas line 14 and serves to supply blast furnace gas to the gas burner 13 of the process unit 15, with a gas shutter 13 and a main shutter 11 / in front of the gas burner. a degassing chimney 9 with a control analyzer 8 emerges from the pipeline 10. The blinded pipeline 10 is further provided with a pressure gauge 7. The apparatus for carrying out the method according to the invention comprises an inert gas pressure source whose outlet 4 is connected via a main pressure gauge. upstream of the blanking flange 5 to the blanked pipeline 10, and from two gas analyzers 6 which are discharged from two consecutive locations from the blanked piping 10 section between its blanking flange 5 and the main gas pipeline 14.

In this particular embodiment, it is a blanking of the gas line 10 with a diameter of 1000 mm and a length of 120 m from the outlet of the outlet 4 of the inert gas pressure source 1 to the outlet of the main gas line 14, where the blast furnace gas pressure is about 3.5 kPa.

In carrying out the process according to the invention, the inert gas, in this case liquid nitrogen, from the mobile pressure vessels serving as the pressure source 1, is reduced from 15 MPa overpressure by pressure reducing valves to 0.3 MPa, by pressure gauges 2, 7 measured and blown under by this reduced pressure into the blinded gas line 10 upstream of the blast furnace gas, which is gradually displaced from the blinded gas line 10 towards the main gas line 14 by overpressure of inert gas up to the blanking flange S. After filling the entire blinded gas line 10, even beyond the blanking flange 5 up to the main gas line 14, ie to a distance of 100 m behind the blanking flange 5, which is monitored by the gas analyzers 6, the blanking flange 5 is opened and blinded by inserting the blanking plug. During the opening and blinding of the blanking flange, the inertia gas and carbon monoxide are continuously monitored by means of the gas analyzers 6, and at the latest when the presence of the carbon monoxide is located on the gas analyzer 6 located near the blanking flange 5 inert gas from its pressure source.

The required amount of inert gas is also shown in the graph in Fig. 2, for example, in order to provide an inert atmosphere in a 1000 mm diameter blinded gas line 10 and the required distance of 100 m to displace the blast furnace gas beyond the blanking flange 5 at 10 mm ensure an inert gas supply of 6000 m ³ per hour for 73 seconds.

The duration of the inert atmosphere is generally given by the relation t »V / (- Q _a ) where t is the duration of the inert atmosphere (s)

V - volume of inert gas in the pipeline (m ³ ) Q _x - exhaust through the slot (m ³ / s)

Q ₂ - nitrogen supply (m ³ / s) where the exhaust through the slit is determined by the relation

Q _x = 2.45.10 ^-3 . d. WITH

--- ₍

100 000

- (-) 0.286

100 000 + p where d - pipe diameter (mm) s - slot width (mm) p - pipe pressure (Pa) and volume of inert gas in the pipe

V = 7.85. 10 ^-7 . d ^a . 1. BK where d - pipe diameter (mm)

- pipe length (m)

BK - safety coefficient (0.4 to 0.9)

If these conditions are adhered to, any leakage of blast furnace gas is prevented during blanking operations with sufficient safety.

Industrial applicability

The method of blanking gas pipelines and apparatus for carrying out the method according to the invention can be used in virtually all cases where it is necessary to carry out any maintenance work on the gas pipelines and connected technological aggregates, for example metallurgical plants, requiring degassing and blanking.

Claims (2)

PATENT CLAIMS 1. A method of blanking gas pipelines by means of a blanking flange and an inert gas, for example nitrogen, characterized in that the gas medium conveyed therein is displaced by an inert gas overpressure by controlled pressure injection of the inert gas into the interior of the blank. after the blanking flange is completely filled, the blanking flange is opened and blinded by inserting the blanking plug, after the blanking section of the gas pipeline has been completely filled, with the smallest distance of displacement of the gas medium behind the blanking flange. its opening when inserting the plug from this part of the blinded section of the gas line. 2. A method of blanking gas lines according to claim 1, characterized in that at the time of opening of the blanking flange, the loss of inert gas is continuously monitored in a part of the blanked section of the gas line after the blanking flange. gas. Apparatus for performing the blanking method according to claim 1, ^0H? 'cvnn ^A ' ^ad characterized in that it consists of a pressure source (1) of inert gas, the outlet of which (0 gθ i) _is connected to the blanking flange (5) via the main pressure gauge (2) and the shut-off valve (-). into the blinded section of the gas line (10), and from the assembly Even at least two gas analyzers (6), which are led out at least two places from a part of the blinded section of the gas line (10) behind its blank flange (5).