Apparatus and process for separating air by cryogenic...

Refrigeration – Cryogenic treatment of gas or gas mixture – Separation of gas mixture

Reexamination Certificate

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Reexamination Certificate

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06339938

ABSTRACT:

FIELD OF THE INVENTION
The invention proposed here relates to the field of distillation of the gases in air and in particular to an apparatus and a process for separating air by cryogenic distillation. It makes it possible to improve the oxygen extraction efficiency and thus the energy performance in distillation plants which do not ordinarily comprise feeding liquefied air into the columns and the refrigeration produced wherein is provided by air expansion (oil-brake, generating or self-boosted turbine). This invention, when it is incorporated in an air separation unit, results in savings of 3.5% (cf. the case presented below) in terms of energy for separating the oxygen.
This constitutes a major advance in a field already well explored, in which savings greater than 1% are welcome, especially in countries where the cost of energy is high.
BACKGROUND OF THE INVENTION
The basic distillation processes in which the invention can be used are processes which ordinarily do not include feeding liquid air into the distillation columns.
These basic processes are processes for separating the gases in air, by compressing air, precooling compressed air, purifying air, cooling air in a main exchanger, separating air in a distillation column comprising at least one medium-pressure column and one low-pressure column and subcooling the liquids refluxing from the medium-pressure column to the low-pressure column.
Among the plants in question, we may mention:
A double column (single cycle) producing low-pressure oxygen coming from the cold box.
One particular case: production, using MP/LP column, of pressurized impure oxygen (utilization of the waste gas). In this case, the loss of efficiency due to the reduction in reflux (distillation more difficult in the MP column) makes itself cruelly felt. This invention will make it possible to improve the efficiency in this case;
Double column with a mixing column.
This type of plant, producing pressurized oxygen (for example at 5 bar) directly, by putting only the minimum amount of energy into the apparatus (compared with a pumped plant), achieved, for a 99% O
2
efficiency, a production of 1.1% of MP nitrogen (one possible characterization of the medium-pressure nitrogen-gas rectification overcapacity) (blowing turbine, 2000 t/d, 95% oxygen and 5 bar, large number of trays).
For smaller sizes of apparatus, the 99% efficiency can no longer be achieved. Here again, a gain in efficiency is obtained with this invention.
In both these plants, we are thus going to be able to increase the oxygen efficiencies (or the amount of medium-pressure nitrogen produced, if the oxygen efficiency is already high) and thus to improve the energy performance of the air separation unit. This results, of course, in a considerable amount of money being saved.
It is known from EP-A-0,556,516 to condense a stream of air coming from a blowing turbine in a reboiler/condenser, either at an intermediate level of the low-pressure column, or fed with a liquid coming from the medium-pressure column or from the low-pressure column. The air thus liquefied is sent to the low-pressure column, but it does not constitute the only supply of liquid air to the apparatus since air is also liquefied in the condenser in the bottom of the apparatus and sent to both columns of the double column.
EP-A-0,381,319 describes a column system in which a stream of air vaporizes against a stream containing 95 vol % oxygen.
U.S. Pat. No. 5,765,396 relates to a conventional pumped process in which a stream of air condenses against liquid containing between 98 and 100 mol %.
U.S. Pat. Nos. 5,582,035 and 5,291,737 disclose air separation processes with a mixing column, in which all the air re-enters the columns in gas form.
U.S. Pat. No. 3,754,406 proposes to vaporize rich liquid from the medium-pressure column of a double column against medium-pressure gaseous nitrogen. Air is liquefied by heat exchange with pumped liquid oxygen sent to the low-pressure column.
SUMMARY OF THE INVENTION
One object of the invention is to provide an air separation apparatus comprising a column system comprising at least one double column comprising a medium-pressure column and a low-pressure column which are thermally linked to each other by a first reboiler/condenser where tho gas at the top of the medium-pressure column condenses, means for sending compressed and purified air to a heat exchanger where it cools, means for sending cooled air to the medium-pressure column in gas form, means for sending an oxygen-enriched fluid from the medium-pressure column to the low-pressure column where it is separated by cryogenic distillation, means for sending a nitrogen-enriched fluid from the medium-pressure column to the low-pressure column, means for withdrawing a nitrogen-rich fluid and an oxygen-rich fluid from the low-pressure column, a second reboiler/condenser, means for sending air to the second reboiler/condenser where it condenses at least partially, and means for sending the at least partially condensed air to the low-pressure column, means for sending a liquid from the low-pressure column or from the medium-pressure column or from another column of the column system to the second reboiler/condenser, characterized in that the liquid sent to the second reboiler/condenser contains between 22 and 70 mol % oxygen and in that the at least partially condensed air sent to the column system comprises the only stream of liquefied air sent to the column system.
Optionally, the at least partially condensed air sent to the low-pressure column constitutes the only stream of liquefied air sent to the column system.
Preferably, the apparatus includes means for expanding the air with production of work before sending it to the second reboiler/condenser and/or means for cooling the air to its dew point before sending it to the second reboiler/condenser.
Preferably, the liquid sent to the second reboiler/condenser comes from the medium-pressure column, from the bottom of the latter or from a point located at most five theoretical trays above the bottom of the latter.
The at least partially condensed air may be sent to the low-pressure column and/or to the medium-pressure column and/or to another column of the column system.
Preferably, the apparatus includes a mixing column fed at the top with an oxygen-rich liquid coming from the low-pressure column and fed at the bottom with a gas more volatile than the oxygen-rich liquid.
Thus, there may be means for sending a portion or the liquid from the bottom of the medium-pressure column directly to the low-pressure column at a first level and another portion of the liquid from the bottom of the medium-pressure column to the second reboiler/condenser.
Preferably, the liquid vaporizes in the second reboiler/condenser and the apparatus may include means for sending the vaporized liquid to the low-pressure column at a level below the first level.
There may be means for withdrawing a nitrogen-rich gas from the top of the medium-pressure column.
Preferably, the low-pressure column does not have a top condenser.
Another object of the invention is to provide a process for separating air by cryogenic distillation in an apparatus comprising at least one double column with a medium-pressure column and a low-pressure column which are thermally linked to each other by a first reboiler/condenser, in which process a stream of purified, compressed and cooled air is sent to the medium-pressure column, in gas form, an oxygen-enriched fluid is sent from the medium-pressure column to the low-pressure column, where it is separated by cryogenic distillation, a nitrogen-enriched fluid is sent from the medium-pressure column to the low-pressure column, an oxygen-rich fluid and a nitrogen-rich fluid are withdrawn from the low-pressure column, a second stream of purified, compressed and cooled air is sent to a second reboiler/condenser where it condenses, at least partially, by heat exchange with a liquid coming from the medium-pressure column or from the low-pressure column or from another column of the column system and the

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