FR2874423A1 - METHOD AND DEVICE FOR OBTAINING A GAS PRODUCT UNDER PRESSURE BY LOW TEMPERATURE AIR FRACTIONATION - Google Patents

Abstract

Process for obtaining a gaseous product under pressure by low temperature air fractionation according to which, in normal operating mode, supply air is compressed, cooled and supplied to a heating system distillation columns (1), extracting a product fraction (2) in the liquid state from the distillation column system (1) and supplying it (3) to a liquid reservoir (4), the product is withdrawn liquid (5) of the liquid tank (4) and supplied to a set of pumps (6) having one or more separate pumps connected in parallel, to put it in the liquid state at a high pressure, and then vaporized by an indirect heat exchange (8) with a first stream of coolant and the product (9) gas is extracted under pressure. In the emergency operating mode, the liquid product (5) is extracted from the liquid reservoir (4), placed in the high pressure liquid state (6), and vaporized by indirect heat exchange (62) with a second stream of heat transfer fluid and the gaseous product under pressure (63) is extracted. In a bypass mode of operation, the liquid product fraction (2) extracted from the distillation column system (1) bypasses (70) the liquid tank, it is put through the pump set (6) in the state high pressure liquid (6) is vaporized by indirect heat exchange, and the product (9) gas is extracted under pressure.

Description

Field of the invention

  The present invention relates to a process for obtaining a gaseous product under pressure by low temperature air fractionation according to which, in normal operating mode: - supply air is compressed, cooled and supplied to a distillation column system, a liquid product fraction is extracted from the distillation column system and supplied to a liquid reservoir, the liquid product is withdrawn from the liquid reservoir and supplied in the liquid state to a set of pumps having one or more separate pumps connected in parallel, to put it at a high pressure, then indirect heat exchange is carried out with a first stream of heat transfer fluid to vaporize, and the gaseous product under pressure, and in emergency operating mode: - the liquid product is extracted from the liquid reservoir, it is placed in a liquid state at high pressure, it is vaporized by means of indirect heat exchange in an exchanger relief with a second heat carrying fluid stream and the product gas is extracted under pressure.

  The invention also relates to a device for obtaining a gaseous product under pressure by low temperature air fractionation, comprising: - a distillation column system, a liquid tank, - a set of pumps of one or more pumps connected in parallel, - a main heat exchanger and an emergency heat exchanger and - a regulation of the system in normal operation and in emergency mode, in which in normal operating mode: - air is compressed feed, cooled and supplied to a distillation column system, - a product fraction in the liquid state is extracted from the distillation column system and supplied to a liquid reservoir, - withdraws the liquid product from the liquid tank and supplies it in the liquid state to a pump set having one or more separate pumps connected in parallel, to put it at a high pressure, then kills an indirect heat exchange with a first stream of coolant to vaporize, and the gaseous product is extracted under pressure, and in emergency operating mode: - the liquid product is extracted from the liquid tank, it is put in the liquid state at high pressure, it is vaporized by indirect heat exchange in an emergency heat exchanger with a second vein of caloric fluid and the gaseous product is extracted under pressure.

  State of the art Methods and devices for fractionating low-temperature air are for example known according to the document (Hausen / Linde, Tieftemperaturtechnik, 2. 1985 edition, Chapter 4 (Pages 281 to 337). The distillation of the invention can be carried out as a one-column system for nitrogen / oxygen separation or as a two-column system (for example as a double-column Linde system, conventional) or as a three-column system. In addition to the columns for the separation of nitrogen / oxygen, it is also possible to provide other devices for recovering other components of the air, in particular noble gases such as, for example, argon.

  The process of the invention belongs to the class of internal compression processes. Thus, in the normal operating mode, at least one of the products of the distillation column system (e.g., nitrogen from the single column of a one column system or high pressure columns from a single column). two- or three-column system and / or MDS device of a three-column system or alternatively or in addition to the oxygen of the single column of a one-column system, the MDS device of a three-column system and / or low pressure columns of a two or three column system) is extracted in the liquid state from one of the columns of the three-column system or a condenser connected to one of these columns, the liquid state to be put at a higher pressure, be vaporized by indirect heat exchange with a first heat transfer stream or in pseudo vaporized (supercritical pressure) and finally be collected as gaseous product under pressure. The first heat transfer fluid is frequently constituted by the air used and / or by nitrogen. The indirect heat exchange can be done in a separate heat exchanger or in the main heat exchanger in which the air used is also cooled.

  Such processes by internal compression are for example known according to the documents: DE 830805, DE 901542 (= US 2712738 / US 2784572), DE 952908, DE 110 3363 (US 3083544), DE 1112997 (= US 3214925), DE 1124529, DE 1117 616 (= US 3280574), DE 1226616 (= US 3216206), DE 1229561 (= US 322 2878), DE 1199293, DE 1187248 (= US 3371496), DE 1235347, DE 1258 882 (= US 3426543), DE 1263037 (= US 3401531), DE 1501722 (= US 341 6323), DE 1501723 (= US 3500651), DE 2535132 (= US 4279631), DE 264 6690, EP 93448 B1 (= US 4555256), EP 384483 B1 (= US 5036672), EP 50 5812 B1 (= US 5263328), EP 716280 B1 (= US 5644934), EP 842385 B1 (= US 5953937), EP 758733 B1 (= US 5845517), EP 895045 B1 (= US 60388 85). DE 19803437 A1, EP 949471 B1 (= US 6185960 B1), EP 955509 A1 = US 6196022 B1), EP 1031804 A1 (= US 6314755), DE 19909744 A1, EP 1067345 A1 (= US 6336345), EP 1074805 A1. (= US 6332337), DE 1995459 3 A1, EP 1134525 A1 (= US 6477860), DE 10013073 A1, EP 1139046 A1, EP 1146301 A1, EP 1150082 A1, EP 121 3552 Al, DE 10115258 A1, EP 1 284404 A1 (= US 2003051504 A1), EP 1308680 A1 (= US 6612129 B2), DE 10213212 A1, DE 10213211 A1, EP 1357342 A1 or DE 1023828 2A1.

  The pressure increase in the liquid can be done using any known means for example using a pump, or using a hydrostatic potential and / or vaporization to increase the pressure in a reservoir.

  The term vaporization here includes supercritical pressure pseudo vaporization. The pressure at which the liquid product is placed can also exceed the critical pressure as well as the pressure of the coolant which will be condensed relative to the nitrogen (pseudo) condensation.

  The document EP 895045 B1 (US 6038885) already describes a liquid reservoir and means connected thereto for increasing the pressure in the liquid reservoir and for using the internal compression that is to say also allowing operation in case of failure of the distillation column system by continuing the supply of the gaseous product under pressure. In the emergency mode of operation, the pressurized liquid product is evaporated vis-à-vis another second stream of heat transfer fluid usually in an atmospheric evaporator or water bath. This integration offers many advantages. In the event of maintenance work or overhaul at the liquid tank, the entire system must be shut down, which does not allow normal operation or emergency operation.

  OBJECT OF THE INVENTION The object of the present invention is therefore to increase the availability of the system described above.

  DESCRIPTION AND ADVANTAGES OF THE INVENTION For this purpose, the invention relates to a process of the type defined above, characterized in that in a bypass mode of operation, the fraction of liquid product extracted from the distillation column system bypasses the reservoir In the case of liquid, it is put through the pump set, in the liquid state at high pressure, it is vaporized by indirect heat exchange and the gaseous product is extracted under pressure.

  In other words, in the method according to the invention, a third state or mode of operation is provided, namely the bypass mode. According to this mode of operation, the fraction of product ex-milking in the liquid state of the system of the distillation columns passes in front of the liquid reservoir to arrive in the pumping unit in the liquid state and is put to a greater pressure. with indirect thermal exchange with a first stream of coolant to be vaporized and extracted in the form of gaseous product under pressure. To increase the pressure and allow vaporization, additional means can be provided. But in general it is more advantageous to use the bypass mode for this the same means (such as for example pumps and heat exchangers) and the same heat transfer fluid vein for normal operation.

  The present invention thus makes it possible to continue the internal compression even during times when the reservoir is not available. The installation may continue to supply gaseous product under pressure. The bypass mode can also be used in case of temporary variation of the purity of the fraction of the liquid product from the distillation column system to avoid polluting the product stored in the liquid tank. In this case it may be advantageous to bypass the tank according to the invention.

  The means for increasing the pressure in the liquid state consist mainly of pumps. In principle, it is also possible to use a single pump. For reasons of redundancy, one frequently uses a set of pumps that is to say several pumps connected in parallel. A set or group of pumps can then consist of two or three pumps each corresponding to 50% of the capacity; in the case of three or more pumps, a single pump is maintained on standby so that in the event of a malfunction, one of the other pumps performs its function.

  Regardless of their number, all the pumps are generally regulated by each time a pump bypass associated with each pump taken separately, to relax the excess quantity of pumped liquid and to return this amount to the liquid tank. .

  In the case where the increase of pressure in the liquid state in normal operating mode is ensured by a pump set composed of one or more separate pumps, connected in parallel, with at least one pump provided with a first bypass whereby at least a portion of the liquid product exiting the pump is released from time to time for return to the liquid reservoir and in that the same set of pumps is also used in bypass mode to increase the pressure to the state liquid, it is advantageous that at least one separate pump has a second bypass in addition to the first bypass in which in bypass mode, relaxes at least from time to time a portion of the liquid product exiting the pump to pass the liquid tank and be led to the inlet of the pump set. Preferably, several pumps or all the pumps of this set of pumps have a first and a second branch in the direction explained above.

  The present invention also applies to multi-beam distillation column systems having a common liquid reservoir as described in German Unexamined Patent Application 2004006283. In this case, the pro-duce fraction from two or more lines of the distillation column system is conducted in the liquid tank. Both the liquid reservoir and the means for increasing the pressure are used by two or more lines of the distillation column system.

  Drawings The present invention will be described hereinafter in more detail with the aid of the single figure which is a diagram of an exemplary embodiment.

Description of the embodiment

  The air separation plant 1 comprises a distillation column system that allows the extraction of a product fraction 2, in the liquid state. In the example, the distillation column system is a two column system comprising a high pressure column and a low pressure column and the product fraction 2 is liquid oxygen which is extracted from the base. of the low pressure column.

  In normal operation, the liquid oxygen 2 arrives through the open valve 51 through line 3 into a liquid reservoir 4. At the same time, liquid oxygen 5 is drawn from the reservoir (the valve 52 is also open) to arrive in a set of pumps 6 consisting of a single pump or several separate pumps connected in parallel. The liquid is then put at the desired pressure for the product to pass through the pipe 7 (the valve 53 is open) in a first evaporator 8 to be evaporated with a first stream of heat transfer fluid. This vein is preferably constituted by a strongly compressed feed air stream for the air fractionation plant 1 or else by high pressure nitrogen from the air fractionation plant 1 The evaporator 8 of this embodiment is constituted by the main evaporator of the air separation plant 1 in which the air used is cooled to the rectification temperature. Alternatively, it may also be a heat exchanger other than the main heat exchanger for example an auxiliary condenser.

  The oxygen exits the pipe 9 as gaseous product under pressure to feed a user or a distribution system.

  A pump bypass 10 makes it possible to regulate the quantity pumped. This conduit and a throttle valve 54 generally provide a portion of the amount pumped back to the fluid reservoir 4. The drawing shows only a pump bypass 10. If the pump set 6 is comprised of In addition to a separate pump, each separate pump will have a separate pipe with a separate throttle and stop valve.

  If the air separation unit 1 stops due to a planned or accidental interruption of operation, the system goes into emergency operation mode. For this, the valves 51, 53 are closed and the valve 61 open. Thus, the liquefied oxygen stored in the liquid reservoir 4 passes through the pipe 60 in another evaporator 62 which ensures the evaporation with the aid of a second stream of coolant for example different from the first stream of heat transfer fluid . The second evaporator 62 is for example an atmospheric evaporator or a water-bath evaporator. In emergency mode, oxygen escapes as a gaseous product under pressure through the system conduit 63 to power a user or a dispensing system.

  One goes into bypass mode if the air fractionation plant 1 operates but it is not possible to conduct the liquid oxygen 2 in the tank 4 or if this is not desired. For this, the valves 51, 52, 54, 61 are closed and the flow of liquid product 2 passes through a bypass line 70 (the valve 71 is open) by turning the tank 4 to arrive in the pump set 6 .

  The regulation of the pump is not done by means of the pump bypass 18 described above but by a second pump bypass 75 having a throttling valve 74 allowing the liquid to be returned to the fractionation plant. air 1.

  As an alternative to regulation by a bypass, it is also possible to ensure the regulation of the pump in all cases of operation-15 nement by a regulation of the speed of rotation.

Claims (4)

  1) Process for obtaining a gaseous product under pressure by fractionation of air at low temperature, in which: in normal operating mode, supply air is compressed, cooled and supplied to a system of distillation columns (1), - extracting (2) a product fraction in the liquid state of the distillation column system (1) and supplying (3) this liquid to a liquid tank (4) the liquid product (5) is withdrawn from the liquid reservoir (4) and supplied in the liquid state to a pump set (6) having one or more separate pumps connected in parallel to put it under pressure. high, then indirect heat exchange (8) is carried out with a first heat transfer fluid stream to vaporize, and the gaseous product (9) is extracted under pressure, and in emergency operating mode, the liquid product is extracted ( 5) of the liquid tank (4), it is placed in the liquid state at high pressure e (6), it is vaporized by indirect heat exchange in an emergency heat exchanger (62) with a second heat transfer fluid stream and the gaseous product under pressure (63) is extracted, characterized in that in an operating mode of bypass, - the product fraction (2) liquid extracted from the distillation column system (1) bypasses (70) the liquid tank, it is put by the set of pumps (6), in the liquid state at high pressure (6) is vaporized by indirect heat exchange (8) and the product (9) gas is extracted under pressure.   2) Method according to claim 1, characterized in that at least one pump separate from the pump set (6) has a first pump bypass (10) by which in normal operating mode at least from time to time one relaxes ( 54) a portion of the liquid exiting the pump and returned to the liquid reservoir (4), and at least one separate pump has in addition to the first pump bypass (10) a second pump bypass (75) for which in bypass mode, at least from time to time part of the liquid product exiting the pump (6) is expanded, then bypasses the liquid tank to be returned to the distillation column system.   3) Process according to any one of claims 1 or 2, characterized in that the distillation column system is a system with two or more lines and the product fraction of two or more rows of the distillation column system is conducted in the liquid tank.   4) Device for obtaining a gaseous product under pressure by low temperature air fractionation, comprising: - a distillation column system (1), a liquid tank (4), - a set of pumps (6) one or more pumps connected in parallel, - a main heat exchanger (8) and an emergency heat exchanger (62) and - a regulation of the system in normal operation and in emergency mode, according to which in operating mode normal, - supply air is compressed, cooled and supplied to a system of distillation columns (1), - a product fraction in the liquid state of the column system is extracted (2) distillation device (1) and supplying (3) this liquid to a liquid reservoir (4), - the liquid product (5) is taken from the liquid reservoir (4) and supplied in the liquid state at a set pumps (6) having one or more separate pumps connected in parallel, to put it at a high pressure ee, then an indirect heat exchange (8) is carried out with a first stream of heat transfer fluid to vaporize, and the product (9) is extracted under pressure, and in emergency operating mode, the liquid product is extracted ( 5) of the liquid reservoir (4), it is placed in the liquid state at high pressure (6), vaporized by indirect heat exchange in a heat exchanger (62) with a second heat transfer fluid stream and extracting the gaseous product under pressure (63), characterized in that the regulating device furthermore regulates the operation of the device in the bypass mode so that in bypass mode the product fraction (2) taken from the liquid state of the distillation column system (1) bypasses the liquid reservoir (70) to be brought to a higher pressure in the liquid state (6), to be evaporated by indirect heat exchange (8) and extracted as gaseous product under pressure ion (9).