13501164 (P.T.A.B. Oct. 15, 2018)

Ex Parte Dahl et al

Patent Trial and Appeal BoardOct 15, 2018

13501164 (P.T.A.B. Oct. 15, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/501, 164 04/10/2012 27384 7590 10/16/2018 Briscoe, Kurt G. Norris McLaughlin & Marcus, PA 875 Third Avenue, 8th Floor New York, NY 10022 FIRST NAMED INVENTOR Anders Dahl UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. 110963-58 (SWE10965PlUS) CONFIRMATION NO. 5762 EXAMINER NGUYEN, NGOC YEN M ART UNIT PAPER NUMBER 1734 MAIL DATE DELIVERY MODE 10/16/2018 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ANDERS DAHL and KALLE HANS THOMAS PELIN Appeal2018-000389 Application 13/501, 164 Technology Center 1700 Before ROMULO H. DELMENDO, MONTE T. SQUIRE, and MICHAEL G. McMANUS, Administrative Patent Judges. DELMENDO, Administrative Patent Judge. DECISION ON APPEAL The Applicants (hereinafter "Appellants") 1 appeal under 35 U.S.C. Â§ 134(a) from the Primary Examiner's final decision to reject claims 1-7, 12, and 13. 2 We have jurisdiction under 35 U.S.C. Â§ 6(b). We affirm. 1 The Appellants identify the real party in interest as "AkzoNobel Chemicals International B.V." (Appeal Brief filed March 27, 2017 ("Appeal Br.") at 1). 2 Appeal Br. 3-25; Reply Brief filed October 10, 2017 ("Reply Br.") at 2---6; Final Office Action entered August 25, 2016 ("Final Act.") at 2-10; Examiner's Answer entered August 10, 2017 ("Ans.") at 2-19. Appeal2018-000389 Application 13/501,164 I. BACKGROUND The subject matter on appeal relates to a process for producing chlorine dioxide (Specification filed April 10, 2012 ("Spec.") 1, 11. 3---6). Representative claim 1 is reproduced from the Claims Appendix to the Appeal Brief, as follows: 1. A process for production of chlorine dioxide compnsmg: (a) without adding formic acid, reacting (i) an alkali metal chlorate or chloric acid and (ii) methanol in an aqueous reaction medium in a reaction vessel to generate chlorine dioxide; (b) withdrawing from the reaction vessel a gas comprising chlorine dioxide and gaseous by-products; ( c) condensing part of the gas withdrawn at a temperature from about 15 to about 35Â°C to obtain (i) a condensate and (ii) non-condensed gas containing chlorine dioxide; and ( d) removing said condensate from the non- condensed gas containing chlorine dioxide without re- circulating said condensate back to step (a), and also preventing said condensate from being incorporated into a product containing the chlorine dioxide from said non- condensed gas; and ( e) bringing said non-condensed gas, after removal of the condensate, to an absorption tower, where said non- condensed gas is contacted with a flow of water to form an aqueous solution containing chlorine dioxide; wherein the chlorine dioxide produced by the process exhibits improved stability compared to chlorine dioxide produced by the same process except that the condensate is not removed from the non-condensed gas or, if the condensate is removed from the non-condensed gas, the condensate is re- circulated back to step (a). Appeal Br. 27 (Claims Appendix; emphases added). 2 Appeal2018-000389 Application 13/501,164 II. REJECTIONS ON APPEAL On appeal, the Examiner maintains two rejections as follows: A. Claims 1-7, 12, and 13 under pre-AIA 35 U.S.C. Â§ 112, ,r 1, as failing to comply with the written description requirement; and B. Claims 1-7, 12, and 13 under pre-AIA 35 U.S.C. Â§ 103(a) as unpatentable over Fuller et al. 3 ("Fuller"), which incorporates by reference Partridge et al. 4 ("Partridge"), in view ofNorell et al. 5 ("N orell") and any one of Mingzhong et al. 6 ("Mingzhong"), Stringer, 7 or Risley et al. 8 ("Risley"). (Ans. 2-19; Final Act. 2-10.) III. DISCUSSION Rejection A. In an Amendment filed August 4, 2016, the Appellants revised the language in claim 1, step (a), by inserting "without adding formic acid." The Examiner finds that the Specification, as filed originally, lacks sufficient support for the now-claimed subject matter defined by this added negative limitation (Ans. 2). The Appellants contend that the Examiner's rejection is not well- founded because the added limitation "without adding formic acid" is adequately supported in the Specification, as filed originally (Appeal Br. 3). 3 US 3,816,077, issued June 11, 1974. 4 US 3,563,702, issued February 16, 1971. 5 US 4,978,517, issued December 18, 1990. 6 US 6,982,097 B2, issued January 3, 2006. 7 US 3,595,035, issued July 27, 1971. 8 US 3,642,581, issued February 15, 1972. 3 Appeal2018-000389 Application 13/501,164 Specifically, the Appellants argue that the Specification's "Background of the Invention" section (Spec. 1, 11. 16-24): (1) describes formic acid as an "unwanted by-product" that detrimentally affects the chlorine dioxide's stability; and (2) criticizes Norell's formic acid addition as increasing evaporative load and, thus, energy consumption (id. at 3--4). The Appellants urge that adding formic acid, except as described in Norell, would have been expected to increase formic acid by-product levels in the chlorine dioxide product and, given the invention's objective is to reduce by-products such as formic acid, "the instant specification provides ample reasons for excluding formic acid from the reactor as a general proposition" (id. at 4) (quoting Santarus, Inc. v. Par Pharm., Inc., 694 F.3d 1344, 1351 (Fed. Cir. 2012) ("The claim limitation that the Phillips formulations contain no sucralfate is adequately supported by statements in the specification expressly listing the disadvantages of using sucralfate.")). In addition, the Appellants refer to their Figure 1 depicting an embodiment in which formic acid is not added (id. at 4---6). Based on this embodiment, the Appellants urge that the negative limitation at issue is adequately supported (id. at 4--6). The issue arising from these contentions is whether the Specification's "Background of the Invention" and Drawing Figure 1 provide sufficient written description for the now-claimed subject matter defined by the negative limitation "without adding formic acid." For the reasons given by the Examiner (Ans. 2, 9-12) and below, we hold that these disclosures are insufficient as written descriptive support. Consistent with the Examiner's position (Ans. 10), the Specification's discussion about the formation of formic acid as an undesirable by-product 4 Appeal2018-000389 Application 13/501,164 affecting chlorine dioxide stability is unrelated to whether step (a) is performed without adding formic acid. As the Examiner points out (id.), the formation and presence of formic acid as a by-product is embraced by claim 7 ("wherein said gaseous by-products withdrawn from the reaction vessel comprise formic acid"), which depends from claim 1 (Appeal Br. 28), and the Appellants do not direct us to any Specification disclosure correlating added amounts of formic acid to formic acid by-product levels. On the contrary, Norell teaches that adding formic acid to the reactor improves reaction efficiency by providing conditions that favor formation of carbon dioxide over formic acid by-product (Norell, col. 1, 11. 14--16; col. 2, 11. 21- 23; col. 2, 1. 50-col. 3, 1. 10). In this regard, the Appellants' reliance on the Specification's criticism ofNorell's recirculation of condensate comprising formic acid to the reactor is misplaced because Norell alternatively discloses addition of formic acid as effective (Norell, col. 3, 11. 18-21 ). Given these facts, we discern no persuasive merit in the Appellants' position that the "Background of the Invention" section would have reasonably conveyed to one skilled in the relevant art that adding formic acid to the reaction is necessarily excluded from the invention. As for Figure 1, a description of a specific embodiment in which formic acid addition is not mentioned is insufficient to support a general concept or process in which step (a) may be performed in the presence of any unrecited reactant except for formic acid. At most, Figure 1 may reasonably support a process in which the reactants consist of ( or possibly consist essentially of) NaC103, methanol, and H2S04 under the specific conditions used in the disclosed embodiment. 5 Appeal2018-000389 Application 13/501,164 For these reasons and those well-stated by the Examiner, we uphold Rejection A. Rejection B. The Appellants do not argue any claim separately. Therefore, all claims stand or fall together with claim 1, which we select as representative. 3 7 C.F .R. Â§ 41.3 7 ( c )( 1 )(iv). The Examiner finds that Fuller describes a process including every limitation recited in claim 1 except for the condenser temperature limitations-i.e., the temperature of the gas withdrawn from the condenser being "about 15 to about 35Â°C" (Ans. 3---6). To resolve this difference, the Examiner relies on N orell, which was found to teach a condenser temperature of 8--40Â°C, preferably 12-25Â°C (id. at 7). Based on these findings, the Examiner concludes that a person having ordinary skill in the art would have found it obvious to select a condenser temperature in Fuller that falls within the Appellants' specified range because the selection of a value within a known range by routine optimization would have been within the ordinary skill and because an overlap between the prior art range and the Appellants' specified range gives rise to a prima facie case of obviousness (id.). The Appellants do not contest the Examiner's findings and reasoning in support of a conclusion that a person having ordinary skill in the art would have combined Fuller and Norell to arrive at a process in which the condenser temperature falls within the Appellants' specified range (Appeal Br. 9-25). Rather, the Appellants' arguments focus on the limitations recited in step (d) (id. at 12). Specifically, the Appellants contend that "[t]he present invention does not follow the convention of feeding the condensate to the absorption tower, nor does it follow the variation of [Norell] of 6 Appeal2018-000389 Application 13/501,164 recycling the condensate to the reactor" (id. at 12). As for Fuller, the Appellants argue that "Fuller is not inherently preventing the condensate from being fed to the absorption tower while also precluding the condensate from being recycled to the reactor, as presently claimed" (id. at 14; see also id. at 14--23). The Appellants also refer to Tests 1-3 described in the Specification (Spec. 6, 1. 35-7, 1. 26) as evidence of unexpected results (id. at 13). According to the Appellants, the results show that "removing the condensate without feeding it [to] the absorber and without recycling it to the reactor has clear practical advantages in terms of reducing the chlorine dioxide product losses" and stability is improved by operating the condenser at lower temperatures (id.). The Appellants' arguments are insufficient to reveal any reversible error in the Examiner's rejection. In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011). Consistent with the Examiner's position (Ans. 13-14), Fuller plainly teaches, or would have suggested to a person having ordinary skill in the art, an embodiment in which "[ c ]ondensate is removed from condenser 62 via line 64" (Fuller, col. 6, 11. 60-66 ( emphasis added); Fig. 1 ). As shown in Fuller's Figure 1, condensate at line 64 is not remixed with Cl02 product at 70 conveyed to an inlet into the Cl02 absorber 72 nor recirculated to Cl02 generator-evaporator crystallizer 10. Although the Appellants are correct that Fuller discloses two different embodiments for condensing vapor (Appeal Br. 17-18 (quoting Fuller, col. 4, 11. 39---60)), we find nothing in the first embodiment (Fuller, col. 4, 11. 39-54) requiring the condensate to be fed into the absorber 72 or recirculated to the Cl02 generator 10. That other prior art references, such as Jaszka et al. (US 4,216,195, issued Aug. 5, 7 Appeal2018-000389 Application 13/501,164 1980), disclose other processes in which the condensate is fed into the absorber or handled differently from the process shown in Fuller's Figure 1 is irrelevant to Fuller's scope and content. Therefore, we discern no persuasive merit in the Appellants' contention that Fuller does not disclose or suggest step ( d) as recited in claim 1. As for N orell, this reference does not require recirculating the condensate as that embodiment is an alternative way to add formic acid into the reactor (Norell, col. 3, 11. 18-28). In any event, the Examiner relied on Norell to establish the obviousness of selecting suitable condenser temperatures, and the Appellants fail to show operating the process in condensate recirculation mode affects Norell's specific teachings on suitable condenser temperatures (Norell, col. 3, 11. 51-55; col. 4, 11. 57-58 (Example 2)). In re Keller, 642 F.2d 413,425 (CCPA 1981) ("[T]he test [for obviousness] is what the combined teachings of the references would have suggested to those of ordinary skill in the art."). Turning to secondary considerations, Tests 1-3 as described in the Specification (Spec. 6, 1. 35-7, 1. 26) are insufficient to establish unexpected results. Test 1, which is disclosed as a comparative example because the condensate was fed into the absorber from a condenser set to 38Â°C, yielded a relative loss ofCl02 of 3.09% after 8 hours (id. at 7 (Table 1)). By contrast, Tests 2 and 3 (invention) removed the condensate and, in the case of Test 3, the condenser temperature was 25Â°C (id. at 7, 11. 11-14). Tests 2 and 3 yielded slightly lower relative Cl02 losses of 2.26% and 0.45%, respectively (id., Table 1). As the Examiner finds (Ans. 12), the tests do not include a comparison against the closest prior art-i.e., Fuller in which the condensate is removed, as we found above. For that reason, the tests are not particularly 8 Appeal2018-000389 Application 13/501,164 germane. In re Baxter Travenol Labs., 952 F.2d 388, 392 (Fed. Cir. 1990) ("[W]hen unexpected results are used as evidence of nonobviousness, the results must be shown to be unexpected compared with the closest prior art . . . . "). Moreover, we agree with the Examiner that the showing is not commensurate in scope with claim 1 (Ans. 12). For example, Test 3, which is the only example with a condenser temperature (25Â°C) within the range specified in claim 1 ("from about 15 to about 35Â°C"), is ineffective to establish a criticality for the entire range specified in claim 1. In re Inland Steel Co., 265 F.3d 1354, 1366 (Fed. Cir. 2001) ("Inland did not offer comprehensive test results for the magnetic properties of steel produced under the '574 claims at antimony levels greater than 0.02%."). Lastly, we have not been directed to any evidence establishing that modest increases in relative stability obtained by increasing the level of condensation (of undesirable by-products affecting stability) through a lower condensation temperature would have been considered unexpected by a person having ordinary skill in the art. Indeed, common sense would have suggested that, in general, lower condenser temperatures would result in higher condensate levels. See, e.g., In re Klosak, 455 F.2d 1077, 1080 ( CCP A 1972) ("[I]t is not enough to show that results are obtained which differ from those obtained in the prior art: that difference must be shown to be an unexpected difference."). For these reasons and those given by the Examiner. We uphold Rejection B. 9 Appeal2018-000389 Application 13/501,164 IV. SUMMARY Rejections A and Bare sustained. Therefore, the Examiner's final decision to reject claims 1-7, 12, and 13 is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a). AFFIRMED 10