T 0618/05 (Urea/DSM) 28-08-2007

1. The appeal is admissible.

2. The submission by the Appellant of fresh documents in the Statement of the Grounds for Appeal to overturn the appealed decision is to be considered as a normal action of a losing party. Thus, in the present case, the fresh document (17) submitted with the Appellant's Statement of the Grounds of Appeal is not considered to have been filed late in the sense of Article 114(2) EPC (see decisions T 1018/04, point 2 of the reasons; T 540/01, point 2 of the reasons; T 1072/98, point 2.3 of the reasons, none published in the OJ EPO).

3. Novelty

In opposition proceedings the Opposition Division found the subject-matter of the patent in suit to be novel. The Appellant did not raise any objections in appeal proceedings to the novelty of the claimed process. The Board on its own does not see any reason to take a different view. Hence, it is unnecessary to go into more detail in this respect.

4. Inventive step

4.1 For the assessment of inventive step in accordance with the "problem-solution approach", it is necessary to establish which document represents the closest prior art in order to determine in the light thereof the technical problem which the invention addresses and solves. The "closest prior art" is normally represented by a prior art document disclosing subject-matter aiming at the same objective as the claimed invention and having the most relevant technical features in common.

4.2 In the present case the patent in suit is directed to a process for the preparation of urea involving supplying a gas stream released from a high-pressure process for making melamine.

4.3 A similar process belongs to the state of the art. Document (2) relates to a process for synthesizing urea from a gaseous mixture containing ammonia and carbon dioxide that is a by-product of the synthesis of melamine (claim 1; page 1, lines 10 to 15). According to claim 1 the reaction vessel for producing melamine is operating at a pressure of 60 to 150 kg/cm**(2) (approximately 6 to 15 MPa), thus referring to a high-pressure melamine process. The waste gas stream composed of ammonia and carbon dioxide is discharged from the melamine reaction vessel (page 2, lines 3 to 6) and is introduced into the waste gas absorption cell operating at a pressure equal to the pressure in the melamine reaction vessel (page 2, lines 6 to 11 and 46 to 49). In said waste gas absorption cell the waste gas is recovered as aqueous ammonium carbamate solution (page 2, lines 10 and 65), which is transferred to the urea-producing tower (page 3, lines 43 to 47). The synthesis of urea in the urea-producing tower occurs at a pressure of 180 to 220 kg/cm**(2) (approximately 18 to 22 MPa; page 3, line 53), thus, corresponding to a high-pressure urea process. Subsequently, the urea-producing liquid is depressurized and fed to the heat recovery coil 34, where unreacted ammonium carbamate is further decomposed (page 3, lines 53 to 60).

The Appellant and the Respondent had diverging views on whether or not the feeding of the urea-producing liquid to the recovery coil 34 in document (2) corresponded to the step of feeding the ammonium carbamate to a high pressure section of a urea stripping plant. However, a decision on that point is not necessary, since this process step is not relevant in the assessment of inventive step, as set out below.

Thus, the process disclosed in document (2) is within the same technical field as the patent in suit and has numerous features in common. Therefore, the Board, in agreement with the Appellant, the Respondent and the Opposition Division, takes this document as starting point in the assessment of inventive step.

4.4 Having regard to this prior art the technical problem underlying the patent in suit at least was to provide a further process for the preparation of melamine and urea.

Only in case the solution to this least ambitious problem were found to be obvious vis-à-vis the closest prior art, the matter whether or not an improved technical effect was achieved over that prior art, as alleged by the Respondent, representing a more ambitious problem, would arise.

4.5 As the solution to the technical problem defined above the patent in suit proposes the process according to claim 1, which is characterized at least by the feature that the gas stream which is released during the synthesis of melamine is condensed to substantially anhydrous ammonium carbamate.

4.6 The Appellant never disputed that the claimed process produces urea from the gas stream which is released during the synthesis of melamine and the Board is not aware of any reason for challenging that finding. The specification of the patent in suit reveals in paragraphs [0015] to [0017] a process for the preparation of urea and in the examples the preparation of the substantially anhydrous ammonium carbamate is described.

4.7 It remains to be decided whether or not the proposed solution to that objective technical problem is obvious in view of the state of the art. The Appellant exclusively addressed documents (16) and (17) in order to object to obviousness. Therefore, the Board limits itself to consider obviousness in view of these documents.

4.7.1 Document (16) refers to the synthesis of urea in general terms. It discloses the chemical reaction scheme for the preparation of urea from ammonia and carbon dioxide as starting materials. In a first reaction step, ammonia and carbon dioxide react to form ammonium carbamate, which according to a second reaction step is decomposed to urea and water. However, this reaction scheme describes merely the basic chemical reactions without giving any detail; thus it is silent about the presence or absence of water in the formation of ammonium carbamate with the consequence that this document does not specifically describe or teach the formation of anhydrous ammonium carbamate. Due to that lack of teaching or even addressing this characterizing feature of the proposed solution, document (16) cannot render the claimed invention obvious.

The Appellant submitted that the appendix "(l)" to the ammonium carbamate in that reaction scheme may be interpreted as indicating its "liquid" state of matter with the consequence that it was anhydrous. However, the indication of a state of matter, in the present case "liquid" according to the Appellant's allegation, is not tantamount to the feature "anhydrous" characterizing the proposed solution, since the latter only requires the absence of water regardless of the state of matter. Therefore, the Appellant's interpretation is not supported by the facts.

4.7.2 With respect to document (17) the Board observes that it is a generally applied principle that for concluding obviousness, there must be a clear and unambiguous teaching in that state of the art which would inevitably lead the skilled person to the proposed solution for solving the problem underlying the invention.

Document (17) describes a process for the preparation of urea starting from ammonia and carbon dioxide, but does not clearly and unambiguously teach to form from these starting compounds substantially anhydrous ammonium carbamate. As described on page 4, first paragraph, the production of urea is obtained in a "once-through" reaction section, i.e the conversion of carbamate to urea is obtained in a single pass. Consequently, the indication at line 2 that this particular process step is conducted "in the absence of recycle water" merely reveals that this step is not part of the recycling process. Further, this passage refers to the conversion of ammonium carbamate to urea, which is a process step different to the claimed one of condensing ammonia and carbon dioxide to ammonium carbamate. The same conclusion applies to the operating conditions of the primary reactor given at the bottom of page 4 of document (17) specifying the ratio of water to carbon dioxide as being zero (H2O/CO2 = 0), since in the primary reactor urea is produced and not ammonia and carbon dioxide condensed to ammonium carbamate. Therefore, that section of document (17) does not specifically teach to form anhydrous ammonium carbamate in a condensation step carried out in a different reactor, namely the carbamate condenser. Page 5, first paragraph of document (17) states that a carbon dioxide feed is introduced into the carbamate condenser, where it reacts with ammonia to form ammonium carbamate, without any indication as to whether water is present or absent in the carbamate condenser. The figures in document (17) being only schematic illustrations of the process, they neither give any operating details at all, nor in particular on the presence or absence of water in the ammonium carbamate condensation process step. Thus, the Appellant's allegation that according to figure 1 the only feed of ammonia and carbon dioxide to the carbamate condenser would implicitly indicate that anhydrous ammonium carbamate would be formed is mere hindsight having the present invention in mind what the Board cannot sanction.

Hence, a skilled person would not derive from document (17) the clear and unambiguous teaching that the condensation step should be carried out under anhydrous conditions; the feature of forming substantially anhydrous ammonium carbamate characterising the claimed solution is not suggested in document (17).

4.8 The Appellant offered the hearing of a witness to show that the content of the written document (17) was made available to the public at the oral presentation. Since the content of document (17) does not render the claimed solution obvious anyhow (see paragraph 4.7.2 above), there was no need to hear the witness offered by the Appellant on the ground of lacking any impact on the decision to be taken.

4.9 To summarize, in the Board's judgement document (2) taken in combination with either of documents (16) or (17) does not render the claimed invention obvious.

4.10 For these reasons, the Board concludes that the subject-matter of claim 1 and by the same token that of dependent claims 2 to 8, which include all the features of claim 1, involves an inventive step within the meaning of Articles 52(1) and 56 EPC.