T 0328/97 15-06-1999

1. The appeal is admissible.

2. Main request

2.1. Articles 123, 100(c) EPC

2.1.1. Besides the replacement in Claim 1 of the wording "and a gaseous nitrogen stream ..." by "... and a gaseous nitrogen product stream" which is supported by page 1, paragraph 2 of the original description, Claim 1 differs from Claim 1 as granted in that after "... more than 90% of the oxygen product" the wording "and all the nitrogen product are" has been inserted. The feature that all the nitrogen product is taken as gas from the double rectification column derives from page 10, first paragraph and page 11, second paragraph, of the original description in combination with Figures 1 and 2 of the original drawings where it is indicated that all the nitrogen streams are withdrawn in the gaseous phase (see outlets 18, 38 and 40). The additional features restrict the scope of granted Claim 1, so that Claim 1 on file complies with Article 123(2) and (3) EPC.

Claims 2 to 8 correspond with Claims 2 to 8 as granted so that these claims are also not objectionable under Article 123(2) and (3) EPC.

2.1.2. The appellant has objected that the description of the patent in column 11, lines 26 to 28 specifies that the maximum delta T of the plant according to curve B in Figure 4 rises to almost 5.5 K. According to the corresponding passage of the published application in column 12, lines 3 to 5 (page 14, lines 5 and 6 of the second paragraph of the original description), it is the maximum delta T of the plant according to curve A that rises to almost 5.5 K.

This objection relates to the ground of opposition under Article 100(c) EPC which in the present case constitutes a fresh ground not raised in the proceedings before the Opposition Division. In accordance with the Decision G 9/91 and the Opinion G 10/91 of the Enlarged Board of Appeal, fresh grounds of opposition may not be introduced at the appeal stage save that the patentee agrees that such ground may be considered. In the present case, there is, however, no such declaration from the patentee so that this ground may not be dealt with in substance by the Board of Appeal.

2.2. Inventive step

2.2.1. It is not in dispute between the parties that the closest prior art with regard to Claim 1 is described by (D9) which discloses the features according to the preamble of Claim 1.

Claim 1 is distinguished from this prior art by the features that more than 90% of the oxygen product and all the nitrogen product are taken as gas from the double rectification column, and that a second expansion of fluid with the performance of external work is carried out separately from said first expansion, said second expansion taking fluid from the heat exchange means at a higher intermediate temperature and returning the fluid thereto at a lower intermediate temperature, both said intermediate temperatures being between the temperature of the air stream at the cold end and that at the warm end of the heat exchange means.

2.2.2. According to (D9), a low pressure drop liquid-vapour contact means having a pressure drop of less than 400 Pa per theoretical stage of separation in the form of a structured packing is used. In order to provide the necessary refrigeration in the separation process a single-turbine expansion (116) expanding a gaseous side stream (114) withdrawn from the high pressure column is employed.

In such a process in which the pressure in the high pressure column halfway up this stage can be reduced to the range of 450 to 550 KPa, it was found that this pressure drop caused by the arrangement of low pressure drop liquid-vapour contact means resulted unexpectedly in a reduction of the thermodynamic efficiency in the heat exchange (see column 2, last paragraph, to column 4, paragraph 1 of the patent.) The problem to be solved is therefore to be seen in increasing the thermodynamic efficiency in the heat exchange of the process according to the preamble of Claim 1.

This problem is solved by the steps of taking more than 90% of the oxygen product as gas from the double rectification column and of providing a second expansion turbine separately from the first expansion turbine according to the features of the characterising portion of Claim 1.

The Respondent has provided evidence of the lowering of the temperature difference delta T between the streams being warmed and the streams being cooled against the heat load in a heat exchanger having low pressure drop liquid-vapour contact means and two expansion turbines (see Figures 4 and 5 of the patent) whereby the reduced temperature difference (see curve C of Figure 5 of the patent) reflects an increased efficiency in the heat exchange.

Moreover, the fact that this problem is solved by the subject-matter of claim 1 has not been challenged by the Appellant and the Board also sees no reason to call this in question.

2.2.3. At the oral proceedings before the Board, the Appellant based its argumentation as to lack of inventive step primarily on (D11) which was cited for the first time in the Statement of Grounds of Appeal (see the English translation filed by the Appellant with the letter dated 29 July 1997 referred to in the following).

(D11) relates to a method of separation of air under low temperatures and deals with the problem of avoiding the use of machines with pistons for compression and expansion due to the high investment costs and operational and maintenance problems arising with this type of machine. The solution proposed by (D11) to this problem is a two-phase expansion of compressed air by means of a series arrangement of two turbines as a source of refrigeration.

Whilst the Appellant's statement that the only figure of (D11) does not illustrate the production of liquid products is true, the description of the citation discloses that a considerable part of the production may be produced in a liquid state (see page 2, last paragraph) and, respectively, that it is possible to manufacture even in small quantities liquid products of the separation of air (see page 4, second paragraph). The skilled person will conclude from these passages that (D11) discloses a process for producing substantial amounts of liquid products. The production of such amounts of liquid products in combination with the use of two expansion turbines is in agreement with the concept given in (D2) that the required refrigeration necessary for recovery of liquid products is achieved by utilizing a double recycle and, respectively, expansion step (see (D2), column 4, lines 4 to 18 and column 8, lines 2 to 13). (D11) teaches the skilled person therefore that in order to produce substantial amounts of liquid products a process having two expansion turbines is required.

Furthermore, (D11) does not describe what the pressure drop per theoretical stage of the liquid-vapour contact means is in the lower pressure column so that the problem connected with the use of low pressure drop liquid-vapour contact means inherent to the patent is not addressed. The above-said teaching of (D11), namely to use two expansion turbines in an air separation process aiming at the production of substantial amounts of liquid products, for the purpose of avoiding piston machines for compression and expansion of air, leads in a different direction as compared to that of Claim 1 of the patent according to which two expansion turbines are used in a process of producing more than 90% of its oxygen product and all its nitrogen product in the gaseous state for the purpose of increasing the thermodynamic efficiency in the heat exchange.

Thus, the Appellant's contention that the skilled person will replace the distillation trays used according to (D11) by structured packing and arrive thereby in an obvious manner at Claim 1 of the patent, does not take account of the actual teaching of (D11) and in particular of the different technical problems underlying (D11) on the one hand and the patent on the other hand. It must therefore be concluded that this contention is based on an inadmissible ex-post facto analysis.

2.2.4. (D2) relates to a process for the cryogenic distillative separation of air by fractionation in a distillation column to produce at least one liquid product stream selected from the group consisting of liquid nitrogen, liquid oxygen and/or liquid argon. Refrigeration required for the recovery of liquid product(s) is provided by employing a first (38) and a second (116) turbine for expanding fluid (see Figure 1).

There is no disclosure in (D2) of the feature that the pressure drop per theoretical stage of the liquid-vapour contact means in the low pressure column is less than 400 Pa. As the Respondent argues convincingly and undisputed by the Appellant, if the objective of the separation is to obtain a pure nitrogen product at the top of the low pressure column and there is no demand for an oxygen product of high purity, then there is no need to separate oxygen from argon in the low pressure column and typically approximately 20 theoretical stages may be used. This situation applies to (D2) in that the oxygen-enriched stream withdrawn from the low pressure column is discarded as waste stream (line 108). It follows therefrom that with such a low number of theoretical stages a pressure drop per theoretical stage in the order of 700 Pa has to be expected in the low pressure column which is a value typical for distillation trays. The Board is therefore convinced that (D2) does not describe liquid-vapour contact means having a pressure drop of less than 400 Pa per theoretical stage. At the oral proceedings, this fact was also no longer disputed by the Appellant.

Due to the absence of low pressure drop liquid-vapour contact means the problem of a decreased thermodynamic efficiency of the heat exchange according to the patent does not arise in the process of (D2). The teaching of this citation, that is to employ two expansion turbines for obtaining sufficient refrigeration required to produce liquid products(s), leads therefore away from Claim 1 of the patent in which such expansion steps are employed for the production of essentially gaseous products for the purpose of improving the efficiency of heat exchange.

2.2.5. (D12) which was cited together with (D11) for the first time in the Statement of Grounds of Appeal, concerns an air separation process capable of producing one or more liquid products and, optionally, one or more gaseous products. In the embodiment according to Figure 1, all the oxygen and approximately a quarter of the total nitrogen are produced as liquid products.

According to Figure 2, a process is shown for the cryogenic separation of air to provide "maximum liquid oxygen". In this example approximately 40% of the oxygen product is produced in the liquid state.

Furthermore, the process of (D12) does not comprise employing liquid-vapour contact means in the lower pressure column in which the pressure drop is less than 400 Pa per theoretical stage. Thus, in analogy to the conditions existing in the processes of (D11) and (D2), the problem of improving the thermodynamic efficiency of the heat exchange does not arise so that (D12) also does not motivate the person skilled in the art to make enquiries in view of the solution to this problem.

At the time of the oral proceedings, (D12) was not discussed so that also the Appellant did not consider it to be relevant. The same applies to the remaining citations (D1), (D3) to (D8) and (D10) discussed in the proceedings before the Opposition Division which were no longer taken up by the parties in the oral proceedings before the Board.

2.3. To summarise, the Board considers that the solution to the technical problem underlying the invention as defined in independent Claim 1 involves an inventive step and that therefore this claim as well as dependent Claims 2 to 8 relating to particular embodiments of the invention in accordance with Rule 29(3) EPC are to be maintained.

2.4. The description and the drawings are in agreement with the actual wording of the claims (Article 84 EPC). The description also complies with Rule 27(1)(c) and (d) EPC.

3. The grounds of opposition do not prejudice maintenance of the patent in amended form in accordance with the Respondent's main request and it is therefore not necessary to consider the Respondent's auxiliary requests.