CS276345B6 - Equipment for nitrogen quality protection - Google Patents

Abstract

The essence of the solution is that it consists of a bus (1) of compressed nitrogen through the seal connected from two sources with an outlet of an automatically regulated amount of nitrogen into the turbocompressor seal based on the data of the analyzer (9) and simultaneously with automatic or manual exhaust of contaminated nitrogen into the atmosphere.

Description

The invention relates to a device for protecting the quality of nitrogen supplied by a turbocharger against oxygen pollution.

The reduction in nitrogen quality can occur directly in the nitrogen production plant, in the nitrogen bus on the suction side of the turbocharger to nitrogen, or by sucking oxygen from the atmosphere through a seal on the suction side of the turbocharger to nitrogen. Very strict criteria are set for the quality of the supplied compressed nitrogen.

To protect the quality of nitrogen from oxygen pollution, a device consisting of a manual valve and a line is used to supply compressed nitrogen from a line located between the discharge side and the bad valve of the nitrogen turbocharger to the seal on the suction side of the turbocharger. To protect the quality of nitrogen from oxygen pollution, a device consisting of a bold valve and an exhaust line to the atmosphere, located in the discharge line of the nitrogen turbocharger, which is manually opened by the operator based on the customer's information on nitrogen pollution, has also been used.

The disadvantage of the simultaneous protection of nitrogen quality against oxygen pollution through the packing on the suction side of the nitrogen turbocharger is insufficient flooding of the packing at Start and blowing of nitrogen into the atmosphere and frequent interruption of nitrogen supply due to reduced quality.

Another disadvantage is the excessive contamination of the analyzers for the continuous analysis of the nitrogen concentration with oxygen, which creates large downtimes in the nitrogen supply.

Another disadvantage is the need for frequent manual handling directly with the nitrogen turbocharger when adjusting the packing congestion without a sufficient overview of the correct setting.

Disadvantages include the high consumption of nitrogen to flood the packing, which represents a loss of product and energy.

Another disadvantage is that there is no valve and line for the replacement of the compressed nitrogen supply with sufficient and stable pressure and quality to flood the packing on the suction side of the nitrogen turbocharger.

The disadvantages of the current protection of the quality of the nitrogen supplied by manual exhaust into the atmosphere during the reduction of quality include mainly delayed information and the duration of the operation, while nitrogen is polluted throughout the route and in the pressure tanks behind the compressed nitrogen bus.

The big disadvantage is that the production equipment removing low-quality compressed nitrogen has to be decommissioned, which leads to large losses in the production of materials and in energy consumption.

These disadvantages of the equipment used so far are eliminated by a device for protecting the quality of nitrogen against oxygen pollution, the essence of which consists in consisting of a compressed nitrogen bus for seals and a compressed nitrogen bus which are connected by a valve and a compressed nitrogen supply line. a valve and line of the spare compressed nitrogen supply and also a valve and line of the compressed nitrogen outlet for plugs is connected to the packings, which is connected to the automatic nitrogen quantity control valve to the packing on the suction side of the nitrogen turbocharger, whose compressed nitrogen bus is equipped with an analyzer for continuous analysis nitrogen concentration with a link to the setting of the opening of the automatic nitrogen volume control valve and to the control of the opening of the automatic or manual nitrogen purge control valve to the atmosphere according to the analyzer data. .

The advantages of the invention over the prior art and the nitrogen quality protection devices used against oxygen pollution are that it makes it possible to precisely and sufficiently adjust the amount of nitrogen in the packing according to the nitrogen quality in the compressed nitrogen bus behind the turbocharger.

The advantage is the possibility of regulating a constant amount of nitrogen in the packing from several independent sources of compressed nitrogen.

. CS 276 345 86 2

The advantage is also the elimination of strenuous work with manual and very rough regulation without sufficient information! on the quality of nitrogen supplied by the turbocharger operator.

A great advantage is the possibility of automatic immediate blow-off of nitrogen-contaminated nitrogen into the atmosphere based on the set value of the maximum oxygen content on the analyzer, thus preventing the supply of poor-quality nitrogen to the customer and contamination of the entire nitrogen path.

The advantage is that there is no unnecessary contamination of the analyzers with oxygen, which cleaning is time consuming and during the cleaning of the analyzers it is not possible to measure the nitrogen quality and thus ensure the resumption of nitrogen supply.

The biggest advantage is the elimination of losses in the quality of manufactured materials, especially steel sheets and liquid nitrogen, as well as energy savings.

An exemplary embodiment of a device according to the invention is shown in the accompanying drawing. The device consists of a compressed nitrogen bus £ for seals and a compressed nitrogen bus £, which are connected by a valve £ and a compressed nitrogen supply line, the valve £ and a spare compressed nitrogen supply line and also a valve £ and an outlet line being connected to the bus £. of compressed nitrogen for the packing, which is connected to the packing £ of the automatic amount of nitrogen to the packing £ on the suction side of the nitrogen turbocharger £, the compressed nitrogen bus 6 of which is equipped with an analyzer £ for continuous analysis of nitrogen concentration with a link to the opening nitrogen and to control the opening of the fitting 10 by automatic or manual regulation of the nitrogen purge into the atmosphere according to the data of the analyzer. The turbocharger 6 sucks nitrogen from the nitrogen production device 11 via the nitrogen bus 12 on the suction side.

The compressed nitrogen supplied after the turbocharger £ must not contain more than 50 ppm of oxygen. Otherwise, the amount of nitrogen through the valve £ is increased, which is then automatically regulated.

If the oxygen content exceeds the set maximum value, e.g. 50 ppm, the valve 10 is automatically opened and the contaminated nitrogen is blown out into the atmosphere, thus preventing the contamination of the nitrogen in the path and in the pressure vessels behind the bus 6. In addition to the automatic control of the fittings £ and 10, there is the possibility of their manual operation. In the event of a drop in the nitrogen pressure in the bus 6, the valve 6 of the compressed nitrogen supply is closed and the valve £ of the replacement compressed nitrogen supply is opened. The analyzer £ can measure the nitrogen quality just behind the turbocharger £ and also in the bus £.

The invention can be used in the protection of nitrogen quality against oxygen pollution, in particular in the metallurgical industry in the production of steel sheets and their treatment by annealing and galvanizing, and also in the production of liquid gases, in particular liquid nitrogen. It can also be used in the chemical industry. _λ

Claims (2)

CS 276 345 Be 2 The advantage is also the removal of workload in manual and very coarse regulation of insufficient information about the quality of the supplied nitrogen by the turbocompressor operator. The big advantage is the possibility of an automatic instantaneous exhaust of oxygen contaminated with oxygen to the atmosphere based on the set maximum oxygen content of the analyzer, thus preventing the supply of poor nitrogen to the consumer and polluting the entire nitrogen path. The advantage is that there is no unnecessary contamination of the analyzers by the oxygen, which is time consuming to clean and the nitrogen quality cannot be measured during the purification and analyzing process, thus restoring the nitrogen supply. The biggest advantage is the elimination of losses in the quality of the materials produced, especially of steel and liquid nitrogen as well as energy savings. An embodiment of the device according to the invention is shown in the attached drawing. The device consists of a compressed nitrogen bus 6 from the seals and a compressed nitrogen bus 2 which are connected by a valve 2 and a supply of compressed nitrogen, whereby the valve 31a is connected to the valve. conducting a substitute supply of pressurized nitrogen as well as venting 2 and supplying a pressurized nitrogen outlet to the plug, which is connected to the valve 6 of the automatic nitrogen quantity control to the plug 2 on the suction side of the nitrogen turbocharger 2, whose compressed nitrogen bus 2 is equipped with an analyzer For continuous analysis of the nitrogen concentration with respect to setting the opening of the fitting 1 to the automatic control of the amount of nitrogen and to control the opening of the fitting 10 of the automatic or annually regulating nitrogen to the atmosphere according to the analyzer 9. The turbocharger 2 draws nitrogen from the nitrogen generating plant 11 via the nitrogen bus 12 on the suction side. The supplied compressed nitrogen downstream of the turbocharger 2 must not contain more than 50 ppm oxygen. Otherwise, the amount of nitrogen through the fitting 11, which is then automatically regulated, is increased. If the oxygen content exceeds the set maximum value, e.g. 50 ppm, the armature 10 automatically opens and the contaminated nitrogen is blown into the atmosphere, thereby preventing nitrogen contamination in the path and in the pressure reservoirs behind the bus. In addition to the automatic control of the valves 2 and 10, there is a possibility of manual control. In the case of a drop in nitrogen pressure in the bus 2, the compressed nitrogen supply valve 2 is closed and the replacement nitrogen valve 8 opens. The analyzer 9 can measure the quality of nitrogen just downstream of the turbocharger 2 and also in the bus 2. The invention can be used to protect the quality of nitrogen from oxygen contamination, especially in the metallurgical industry in the production of steel sheets and by annealing and galvanizing and also in the production of liquid gases, especially liquid nitrogen. Use is also possible in the chemical industry. PATENT REQUIREMENTS A device for protecting the quality of nitrogen from oxygen contamination, characterized in that it comprises a bus (1) of compressed nitrogen over the seals and a compressed nitrogen bus (2) which are connected by a valve (3) and supplying a compressed nitrogen supply; The collector (1) is connected to a valve (4) and a replacement nitrogen supply line and also a vent (5) and a conduit of pressurized nitrogen outlet is connected to the seal, which is connected to the valve (6) of the automatic nitrogen quantity control (? ) on the suction side of the nitrogen gas turbocompressor (8), whose bus (2) of compressed nitrogen is equipped with an analyzer (9) for continuously analyzing the nitrogen concentration linked to the setting of the valve (6) opening and regulating the opening of the valve (10) automatically or manually regulating the exhaust of nitrogen to the atmosphere according to the analyzer (9). 1 drawing