14585218 - (D) (P.T.A.B. Oct. 9, 2019)

Wiatr, Christopher L. et al.

Patent Trials and Appeals BoardOct 9, 2019

14585218 - (D) (P.T.A.B. Oct. 9, 2019)

UNITED STATES PATENT AND TRADEMARK OFFICE 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 APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 14/585,218 12/30/2014 Christopher L. Wiatr 3597-209-04 1008 33432 7590 10/09/2019 KILYK & BOWERSOX, P.L.L.C. 400 HOLIDAY COURT SUITE 102 WARRENTON, VA 20186 EXAMINER ORWIG, KEVIN S ART UNIT PAPER NUMBER 1611 MAIL DATE DELIVERY MODE 10/09/2019 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 CHRISTOPHER L. WIATR, MICHAEL L. CORCORAN, THOMAS E. MCNEEL, RICHARD A. CLARK, RITA DE CASSIA BORTOTO PORTO, DAVID OPPONG, and PHILIP HOEKSTRA1 ________________ Appeal 2018-008203 Application 14/585,218 Technology Center 1600 ________________ Before DONALD E. ADAMS, DEBORAH KATZ, and JOHN G. NEW, Administrative Patent Judges. NEW, Administrative Patent Judge. DECISION ON APPEAL 1We use the word “Appellant” to refer to the “applicant” as defined in 37 C.F.R. § 1.142”. Appellant identifies Buckman Laboratories International, Inc. as the real party-in-interest. App. Br. 3. Appeal 2018-008203 Application 14/585,218 2 SUMMARY Appellant files this appeal under 35 U.S.C. § 134(a) from the Examiner’s Final Rejection of claims 35–41 as unpatentable under 35 U.S.C. § 112, first paragraph, for failing to meet the written description requirement. Claims 35–41 also stand rejected as unpatentable under 35 U.S.C. § 112, first paragraph, for lack of enablement. Claims 35–41 stand further rejected as unpatentable under 35 U.S.C. § 112, second paragraph, as being indefinite. Claims 35 and 37–41 stand rejected as unpatentable under 35 U.S.C. 103(a) as being obvious over the combination of De Sa et al. (WO 2009/010836 A2, January 22, 2009) (“De Sa”), Enzien et al. (US 2008/0199901 A1 August 21, 2008) (“Enzien”), and Souter et al. (US 2004/0164029 A1, August 26, 2004) (“Souter”). Claims 35–41 stand rejected as unpatentable under 35 U.S.C. § 103(a) as being obvious over the combination of De Sa, Enzien, Souter, and Dailey et al. (US 2009/0233340 A1, March 13, 2008) (“Dailey”). Claims 35–41 also stand rejected as unpatentable under 35 U.S.C. § 103(a) as being obvious over the combination of De Sa, Enzien, Edwards, Dailey, and Souter. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. NATURE OF THE CLAIMED INVENTION Appellant’s invention is directed to methods for controlling the growth of bacteria in ethanol fermentation systems with antibiotic Appeal 2018-008203 Application 14/585,218 3 alternatives, which can be nonoxidizing biocides, stabilized oxidizers, or any combination thereof. Abstr. REPRESENTATIVE CLAIM Claim 35 is representative of the claims on appeal and recites: 35. A method for producing ethanol with fermentation comprising: a) providing stabilized chloramine in water, wherein the water comprises a water supply or recycled process water for a fermenter vessel; b) introducing the stabilized chloramine in water in the fermenter vessel; c) fermenting a fermentable mash in the presence of the stabilized chloramine in water, and yeast in the fermenter vessel to produce ethanol and a solids content, wherein the stabilized chloramine is added to the fermentable mash in a concentration of from 10 ppm to 500 ppm, based on fermentable material, on a dry solids weight/weight basis, wherein said stabilized chloramine in water releases oxidizing byproducts at a slower rate than chloramine, and said stabilized chloramine in water controls growth of bacteria in the mash without reducing yeast population; and d) distilling the fermented mash to separate at least a portion of the ethanol from the solids content of the fermented mash. App. Br. 43. ISSUES AND ANALYSES We decline to adopt the Examiner’s findings, reasoning, and conclusion that the claims on appeal are unpatentable under 35 U.S.C. § 112, Appeal 2018-008203 Application 14/585,218 4 first or second paragraphs. However, we adopt the Examiner’s findings, reasoning, and conclusion that the claims on appeal are prima facie obvious over the cited prior art. We address the arguments raised by Appellant below. A. Rejection of the claims under 35 U.S.C. § 112, first paragraph Issue 1: Lack of written descriptive support Appellant argues the Examiner erred in finding that Appellant’s Specification fails to provide written descriptive support for the claim term “stabilized chloramine.” App. Br. 10. Analysis The Examiner finds that paragraph [0057] of Appellant’s Specification discloses that: “These stabilized oxidizers can be formulated as preparations of the type that retard the rate of release of oxidizing byproducts of the material, such as, for example, microgranules or buffered compounds.” Final Act. 4. The Examiner finds that the same paragraph discloses that: “some oxidizers can be stabilized in a solid form.” Id. (quoting Spec. ¶ 57). Therefore, the Examiner finds, the broad language of the claims on appeal encompasses embodiments where chloramine (i.e., monochloramine, Appellant’s elected species) is prepared as a solid and/or as microgranules. Id. The Examiner next points to paragraphs [0056] and [0069] of Appellant’s Specification, which disclose that the “stabilized oxidizer” can be “stabilized ch[l]oramine”. Final Act. 5. The Examiner finds that Appellant’s only other disclosure of chloramine is in original Appellant’s Appeal 2018-008203 Application 14/585,218 5 claim 15. Id. The Examiner finds that the term “microgranules” (or any “granule”) is mentioned only once in paragraph [0057] of the Specification. Id. Therefore, the Examiner finds, Appellant’s Specification provides no disclosure related to the materials, structures, or process(es) required to prepare chloramine in solid form (i.e., as microgranules). Id. The Examiner finds that chloramine is known in the art to be an unstable liquid with a melting point of -66 °C, and is prepared by chlorine with ammonia. Final Act. 5. The Examiner finds that Appellant has failed to provide any further description of solid chloramine in any form that would provide adequate written description for the scope of the claim. Id. The Examiner notes that adequate written descriptive support would require a precise definition, such as structure, formula, chemical name, or physical properties, and that Appellant has not provided any of these that could be used to prepare solid chloramine (e.g., as microgranules). Id. Appellant argues that there is no recitation of “solid chloramine” in claim 35, nor in any other claim on appeal, nor does Appellant’s Specification use that specific terminology or require that the chloramine or stabilized chloramine be in a solid form. App. Br. 12. Appellant alleges that the Examiner essentially reads that absent term into Appellant’s claims and finds that Appellant did not possess the absent claim term at the time of invention. Id. However, Appellant points out, claim 35 recites the use of “stabilized chloramine in water” as the stabilized oxidizing biocide, and specifies the use of stabilized chloramine in water through the fermenting stage. Id. (citing claim 35, step c). Appellant argues that the Examiner’s interpretation of claim 35 as encompass solid stabilized chloramine or microgranular chloramine is not reasonable. Id. at 12–13. Appeal 2018-008203 Application 14/585,218 6 Appellant’s arguments are persuasive. Paragraph [0057] of Appellant’s Specification discloses, in relevant part that: These stabilized oxidizers can be formulated as preparations of the type that retard the rate of release of oxidizing byproducts of the material, such as, for example, microgranules or buffered compounds…. In liquids, the stabilizers may be sulfamic acid- based or ammonium salt based. As indicated, some oxidizers can be stabilized in a solid form. (Emphases added). Appellant’s Specification thus expressly discloses that the stabilized oxidizer can be a liquid-based ammonium salt, i.e., monochloramine in water. Appellant’s Specification further discloses that: “For purposes of the present invention, the nonoxidizing biocide and/or stabilized oxidizer can be introduced before and/or during fermentation. The biocide can be introduced in any manner, as a solid or liquid or even gas.” Spec. ¶ 45 (emphasis added). In other words, Appellant’s Specification expressly discloses that the stabilized oxidizer, i.e., stabilized chloramine, can be introduced into the fermenting system in liquid form. Indeed, the Specification discloses that one such liquid can be the claimed ammonium-based salt. Finally, Appellant argues that it was well-known in the art that monochloramine is: “an inorganic compound with the formula NH2Cl. It is an unstable colorless liquid at its melting point of -66 °C, but it is usually handled as a dilute aqueous solution, in which form it is sometimes used as a disinfectant.” App. Br. 13 (quoting Wikipedia, Chloramine, https://en.wikipedia.org/wiki/Chloramine (cited in Appellant’s Response, filed April 20, 2017)). The Examiner does not attempt to rebut this argument. Appeal 2018-008203 Application 14/585,218 7 We conclude that the requirement imposed by the Examiner that Appellant’s Specification provided written description of “stabilized chloramine” in a solid form, or a manner or means of making such, is not supported by the language of the claims or the disclosures of the Specification, which discloses that (as was well known in the art) the stabilized ammonium salt (i.e., chloramine) can be in a liquid form. The disclosure of paragraph [0057] of the Specification that the stabilized oxidizer “can be formulated as … microgranules” does not require that stabilized chloramine be formulated as such. Rather, the Specification explicitly discloses that the stabilized oxidizer can be formulated as a solid, liquid, or gas. See Spec. ¶ 45. We therefore agree with Appellant that, given the disclosures of the Specification and the knowledge available in the art, a person of ordinary skill would have understood that Appellant had possession of the invention at the time of filing. We consequently reverse the Examiner’s rejection upon this ground. Issue 2: Enablement The Examiner, citing the various factors prescribed by In re Wands, 858 F.2d 731, 737 (Fed. Cir. 1988), relies upon the same findings and reasoning employed in the written description analysis supra. Final Act. 7– 8. Specifically, the Examiner finds that Appellant’s Specification does not provide enablement for chloramine in solid form (i.e., as microgranules) and does not enable any person skilled in the art to which it pertains, or with which it is most nearly connected, to practice the invention commensurate in scope with these claims. Id. at 7. Appeal 2018-008203 Application 14/585,218 8 We have explained supra why we do not find the Examiner’s reasoning persuasive, and we apply the same explanation with respect to the subject of enablement. We consequently reverse the Examiner’s rejection upon this ground. B. Rejection of the claims under 35 U.S.C. § 112, second paragraph Issue Appellant argues that the Examiner erred in concluding that the limitation of claim 35 reciting: “wherein said stabilized chloramine in water releases oxidizing byproducts at a slower rate than chloramine” is indefinite. App. Br. 17. Analysis The Examiner finds that chloramine is considered to be a stabilized form of the oxidizer chlorine. Final Act. 26. Therefore, the Examiner finds, chloramine is a stabilized oxidizer, and it is unclear what further structure(s) is/are intended by the recitation “stabilized chloramine.” Id. The Examiner finds that the language of claim 35 thus requires an undefined “stabilized chloramine” to release oxidizing byproducts at a slower rate than chloramine (which, the Examiner reasons, generically includes any type of chloramine). Id. The Examiner therefore concludes that the claim can be reasonably construed as requiring chloramine to release oxidizing byproducts at a slower rate than itself and is, consequently, is indefinite. Id. We do not find the Examiner’s reasoning persuasive. As we have explained supra, Appellant has provided evidence that it is well known in the art that chloramine is an unstable liquid that can be stabilized by dilution Appeal 2018-008203 Application 14/585,218 9 in water for use as a biocide. Thus, the dilute form of chloramine, i.e., “stabilized chloramine in water,” as recited in claim 35, is the stabilized form of the otherwise highly unstable chloramine. We agree with Appellant that a person of ordinary skill in the art of biocides would understand this, and we reverse the Examiner’s rejection. C. Rejection of the claims under 35 U.S.C. § 103(a) Issue 1: Rejection over De Sa, Enzien, and Souter Appellant argues the Examiner erred in concluding that the combination of De Sa, Enzien, and Souter teach or suggest any form of chloramine for use as the biocide in the claimed fermentation method. App. Br. 23. Analysis The Examiner finds that De Sa teaches methods of producing a fermentation-based product, such as ethanol, comprising fermenting a sugar- containing medium with yeast in the presence of a biocide, e.g., isothiazolins, dibromonitrilopropionamide (DBNPA) quaternary ammonium compounds, dialdehydes (e.g., glutaraldehyde) in an amount sufficient to reduce or control a bacterial population in the sugar-containing medium. Final Act. 18–19 (citing De Sa Abstr., ¶¶ 6–7, 20). The Examiner finds De Sa teaches that the biocides are added to the fermentation tank (i.e., the water in a fermenter vessel), and control the growth of bacteria without reducing the yeast population. Id. at 19 (citing De Sa ¶¶ (19, 26, 36, Table 3, claim 19). The Examiner finds that De Sa teaches amounts of the biocide Appeal 2018-008203 Application 14/585,218 10 falling within the claimed range. Id. (citing De Sa ¶¶ 24, 33, 35, 38, Table 3). The Examiner further finds that De Sa teaches fermenting the fermentable substrate (i.e., the mash) with the biocide and yeast in a vessel, and then separating the alcohol (ethanol) via distillation. Final Act. 19 (citing De Sa ¶¶ 2, 18, 29, Ex. 1; claim 19). The Examiner finds that De Sa teaches that use of the oxidizing biocides eliminates the need for antibiotics. Id. (citing De Sa Abstr., ¶¶ 5, 38, claim 20). The Examiner finds that De Sa does not expressly teach Appellant’s elected species of chloramine, but also finds that Enzien teaches methods for monitoring microbiological activity in an aqueous process stream, including food or beverage processes. Final Act. 19 (citing Enzien Title, Abstr. ¶ 76, claim 21). The Examiner finds that Enzien teaches the use of chloramine among a limited set of biocides that significantly overlaps with those taught by De Sa. Id. (citing Enzien ¶¶ 101, 137, claim 46). The Examiner reasons that, because Enzien and De Sa teach an overlapping set of biocides (e.g., isothiazolins, dibromonitrilopropionamide (DBNPA), quaternary ammonium compounds, dialdehydes (e.g., glutaraldehyde) the references effectively establish that these biocides are functional equivalents. Id. (citing In re Fout, 675 F.2d 297, 301 (C.C.P.A. 1982) (holding that an [e]xpress suggestion to substitute one equivalent for another is not necessary to render such substitution obvious); see also MPEP § 2144.06(11)). The Examiner concludes that a person of ordinary skill in the art would have found it obvious to use the biocides, including chloramine, taught by Enzien in an alcohol fermentation process, as taught by De Sa for the purpose of controlling bacterial growth while eliminating the need for Appeal 2018-008203 Application 14/585,218 11 antibiotics. Final Act. 20. The Examiner further concludes that a skilled artisan would have had a reasonable expectation of success in combining the references because: (1) the biocides disclosed by De Sa and Enzien overlap substantially; and (2) Enzien is not limited only to papermaking processes, but teaches applying the disclosed methodology to food or beverage processes generally. Id. (citing, e.g., Enzien ¶¶ 75–76, 115–116, claims 8, 21, 25). Appellant argues that De Sa does not disclose any form of chloramine for use as the biocide. Final Act. 23. According to Appellant, the biocides listed in paragraphs [0101], [0137], and claim 46 of Enzien are specified for use in a papermaking process. Id. Appellant asserts that, although Enzien teaches other types of processes in paragraphs [0076], [0116], and claim 21, these teaching must be considered in their full context, including the antecedent descriptions in paragraphs [0073]–[0075], [0113]-[0115] and claim 8, which explain that these teachings relate only to a method for monitoring bulk (total) microbiological water activity in a process stream, and not to the indicated list of biocides for papermaking processes described elsewhere. Id. at 23–24. Therefore, Appellant argues, Enzien does not establish that the partially overlapping lists of biocides are functional equivalents in methods involving treatment of a fermentable mash. Id. at 24. Appellant argues further that ethanol fermentation involves a significantly different set of reactants and additives used with fermentable cellulose-containing material, and different process conditions, from that used with cellulose-containing material in a papermaking process. App. Br. 24. By way of example, Appellant contends that, in ethanol production, bacterial control must be provided without harming the yeast organisms Appeal 2018-008203 Application 14/585,218 12 required to support fermentation process, not a concern in papermaking. Id. Appellant asserts that the biocidal effects and efficacy of an additive in one of these kinds of uses thus does not suggest or predict its biocidal effects and efficacy in the other. Id. Appellant argues further that Souter teaches away from Appellant’s claimed invention. App. Br. 25. According to Appellant, Souter shows controlling, delaying, or slowing release of chloramine as loaded onto a substrate, wherein the substrate materials are shown to be solid materials, such as waxes, paraffins, silicas, zeolites, clays, polymeric resins, celluloses, and cross-linked polymers, and insoluble salts. Id. (citing Souter ¶¶ 44–46, claim 1). Appellant contends that claim 35 recites the use of “stabilized chloramine in water” through the claimed fermenting step c). Id. Appellant contends that Souter teaches that the disinfecting agent is loaded onto a solid substrate for use as a disinfectant and, therefore, Souter thus does not remedy the deficiencies of De Sa and Enzien. We are not persuaded by Appellant’s arguments. As an initial matter, we do not find persuasive Appellant’s assertion that Souter teaches away from the claimed invention. A reference may be said to teach away when “a person of ordinary skill, upon reading the reference, would be discouraged from following the path set out in the reference, or would be led in a direction divergent from the path that was taken by the applicant.” In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994). Souter is directed to: “A composition for disinfecting contaminated drinking water.” Souter Abstr. Specifically, Souter teaches that: “The present invention relates to compositions, methods and kits for use in the purification of contaminated drinking water for purposes of rendering it potable.” Id. at ¶ 6. Appeal 2018-008203 Application 14/585,218 13 Souter teaches that: In the preferred embodiments, the disinfecting agent is a halogen-based disinfecting agent such as chlorine, or a derivative thereof, including, but not limited to, chlorine dioxide, calcium hypochlorite, sodium hypochlorite, organic sources of chlorine such as isocyanurates or chloramine. …. The disinfecting agent is preferably used in a controlled, delayed, sustained or slow release form (herein referred to as “delayed release”). Souter ¶¶ 46–47. Souter thus teaches, and the Examiner relies on it as so teaching, the use of chloramine as a persistent biocide in a water-based system. See Final Act. 20–21. Appellant points to no teaching or suggestion of Souter that would discourage or divert a person of ordinary skill in the art from using chloramine as a biocide in a fermentation system, as claimed by Appellant. Appellant acknowledges that De Sa teaches the limitations of claim 35, with the exception being that De Sa does not expressly teach the use of chloramine, but rather teaches generally the use of organic biocides: The organic biocide may be any organic compound having a range of from about 1 to about 20 carbon atoms, in certain non- limiting embodiments from about 5 to about 15 carbon atoms, that is known or found to be effective as a biocide in the given fermentation system, and which does not contain a quaternary ammonium functionality. In certain non-limiting embodiments the biocide is selected from the group consisting of aliphatic and aromatic monoaldehydes and dialdehydes, such as formaldehyde, glutaraldehyde, orthophthalic aldehyde, hexanedial, heptanedial, octanedial, hexanal, heptanal, and octanal. It may be selected from a halogenated or non- halogenated phenolic, such as o-phenylphenol or one of its corresponding sodium or potassium salts. It may be a carbamate, or a compound that releases formaldehyde upon contact with Appeal 2018-008203 Application 14/585,218 14 water, such as tetrakis(hydroxymethyl) phosphonium sulphate, an oxazolidine, a triazine, a hydantoin, cis/trans 1-(3-chloro- allyl)- 3,5,7-triaza-1-azoniaadamantane chloride, or tris(hydroxymethyl)-nitro-methane. It may be selected from guanidine-based compounds, such as guanidine, biguanides, and polyguanides including, for example, polyhexamethylene biguanide hydrochloride (PHMB). It may be selected from isothiazolinone compounds, such as 5-chloro-2-methyl-4- isothiazolin-3-one, 2-methyl-4-isothiazo-lin-3-one, and 2- benzisothiazolin-3-one. It may be 2-bromo-2-nitro-1,3- propanediol (“Bronopol”), 2,2-dibromo-3-nitrilo-propionamide (DBNPA), bromonitrostyrene, or 2,6-dimethyl-m-dioxan-4-ol acetate. De Sa ¶ 20. Enzien teaches the use of the following organic and inorganic biocides in its claimed processes: The biocides can be oxidizing and/or non-oxidizing.… With respect to a papermaking process, the biocides are selected from the group consisting of: isothiazolin; glutaraldehyde; dibromonitrilopropionamide; carbamate; quaternary ammonium compounds; sodium hypochlorite; chlorine dioxide; peracetic acid; ozone; chloramines; Stabrex™ (bromo- sulfamate); bromo-chloro-dimethyl hydantoin; dichloro- dimethyl hydantoin; monochloramine; sodium hypochlorite used in combination with ammonium salts and stabilizers including dimethyl hydantoin, amino acids, cyanuric acid, succinimide, and urea; and a combination thereof. Enzien ¶¶ 100–101 (emphasis added); see also ¶ 137. The organic oxidizing biocides italicized in the passage above are also expressly taught by paragraph [0020] of De Sa, supra, which also expressly teaches the use of quaternary ammonium compounds (in boldface supra). See, e.g., De Sa ¶¶ 3, 6. Enzien also teaches that: “In one embodiment, the process stream is from a process selected from the group consisting of: a paper making Appeal 2018-008203 Application 14/585,218 15 process; a cooling water process; a food or beverage process; and recreational based process.” Id. at ¶ 76. Although Enzien teaches using inorganic oxidizing biocides in the context of a papermaking process, it does not expressly exclude them from the other process taught, and we agree with the Examiner that a person of ordinary skill would understand that Enzien teaches these inorganic biocides as available for use in “food or beverage processes,” particularly in view of the teachings of Souter that chloramine can be used in drinking water. See Souter ¶¶ 44–45. We agree with the Examiner that a person of ordinary skill in the art would have found it obvious to substitute the inorganic oxidizing biocide chloramine for the oxidizing organic biocides taught by the method of De Sa. We further agree with the Examiner that Enzien teaches that organic and inorganic oxidizing biocides are functional equivalents, and that a person of ordinary skill in the art would have had a reasonable expectation of success in substituting chloramine for the organic biocides of De Sa. See KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 416 (2007) (holding that “[t]he combination of familiar elements according to known methods is likely to be obvious when it does no more than yield predictable results”); see also id. at 417 (“If a person of ordinary skill can implement a predictable variation, § 103 likely bars its patentability”). Furthermore, “the expectation of success need only be reasonable, not absolute.” Pfizer, Inc. v. Apotex, Inc., 480 F.3d 1348, 1364 (Fed. Cir. 2007). We acknowledge Appellant’s point that neither Enzien nor Souter teach the employment of chloramine in the context of a fermentation system and, consequently, a person of ordinary skill would have little expectation of success in combining the references. Nevertheless, Appellant adduces no Appeal 2018-008203 Application 14/585,218 16 evidence of record in support of the argument that an inorganic oxidizing biocide that is effective in the systems of those references would not be also reasonably expected to act effectively as an oxidizing biocide in Appellant’s claimed fermentation system. Furthermore, De Sa and Enzien suggest that the inorganic and organic oxidizing biocides are functional equivalents in that their biocidal activity is similar (i.e., oxidizing). Attorney arguments and conclusory statements that are unsupported by factual evidence are entitled to little probative value. In re Geisler, 116 F.3d 1465, 1470 (Fed. Cir. 1997). We conclude that the Examiner has established that the claims are prima facie obvious over the prior art. Appellant next argues that, even if the claims are prima facie obvious over the combined cited prior art, the results presented in the Second Declaration of Dr. Thomas E. McNeel2 (the “Second McNeel Declaration”) are sufficiently unexpected and surprising to overcome the Examiner’s prima facie conclusion of obviousness. App. Br. 26. Appellant points to the results of the experimental tests in the Second McNeel Declaration as demonstrating that, unexpectedly, the use of stabilized chloramine in water as an additive to fermentation controls growth of bacteria in the mash, even if the treating agent is short-lived in the mash. App. Br. 27. Furthermore, contends Appellant, the stabilized chloramine does not harm the yeast in fermentation mash. Id. Appellant asserts that, as described by the Second McNeel Declaration, one of the sets of experiments studied the longevity of monochloramine in corn mash and potable (tap) 2 Dr. McNeel is one of the named inventors of the application at issue in this appeal. Second McNeel Decl. ¶ 1. Appeal 2018-008203 Application 14/585,218 17 water, which are described in subparagraphs A), B), and C) of paragraph 10 of the Declaration. Id. According to Appellant, the results of this experiment show that although the chloramine has been completely degraded, there were also no by-products detected in the samples. Id. Appellant asserts that the results described in the Second McNeel Declaration show that even up to 400 ppm of monochloramine is completely destroyed in the fermentation mash. App. Br. 27. Appellant argues that, based upon the results described in the Second McNeel Declaration, one of skill would conclude from these experimental results that monochloramine would be an effective bactericide in potable (tap) water, because it is not destroyed by contaminants in the water: however, a skilled artisan would conclude that monochloramine is ineffective in controlling bacteria in a fermentation mash since it is rapidly and completely destroyed by the organic substances in the mash. Id. Appellant next points to paragraph 11 of the Second McNeel Declaration, which describes additional experiments studying the biocidal effectiveness of monochloramine to control bacteria in fermentation mash. App. Br. 27. Appellant argues that the results of the experiments depicted in Table 2 of the Declaration demonstrate that the use of monochloramine in the fermentation mash can achieve ≥ 99% reduction in the bacterial population when used at ≥ 25 ppm (measured as Cl2). Id. at 27–28. Furthermore, Appellant states, when applied at 100 ppm, the use of monochloramine resulted in a >5000-fold reduction in bacteria. Id. at 28. Appellant contends that this unexpected effectiveness of the monochloramine as a biocidal agent in the fermentation mash was observed in spite of the fact that no residual monochloramine could be detected in the Appeal 2018-008203 Application 14/585,218 18 mash. App. Br. 28. Appellant contends that these results are surprising in that even though monochloramine is rapidly reduced to ammonium chloride in the fermentation mash, it is still able to kill a significant portion of the bacterial population before the monochloramine it is degraded. Id. Appellant points to Dr. McNeel’s statement that similar effects in fermentation mash are not achievable using potable (tap) water alone, even if the tap water had been treated with chloramine at a municipal water treatment plant. Id. (citing Second McNeel Decl. ¶¶ 7, 10(C)). We do not find persuasive Appellant’s argument that the results presented in the Second McNeel Declaration are sufficiently unexpected that they are able to overcome the Examiner’s prima facie conclusion of obviousness. “[W]hen unexpected results are used as evidence of nonobviousness, the results must be shown to be unexpected compared with the closest prior art.” In re Baxter Travenol Labs., 952 F.2d 388, 392 (Fed. Cir. 1991). The Second McNeel Declaration describes studies that demonstrate that chloramine, an oxidizing inorganic biocide, is capable of greatly reducing the bacterial count in a fermentation system prior to being degraded by the fermentation mash. The closest prior art cited in the record is De Sa, which teaches the use of oxidizing organic biocides in a fermentation system, such as Appellant’s, to reduce the bacterial count. See De Sa Abstr. Appellant adduces no evidence to demonstrate that the oxidizing organic biocides taught by De Sa do not behave similarly, i.e., they are also capable of reducing the bacterial count in a fermentation system prior to being degraded by the mash. Moreover, the results presented in the Second McNeel Declaration demonstrate that the inorganic oxidizing biocide chloramine is capable of Appeal 2018-008203 Application 14/585,218 19 reducing the bacterial count of the fermentation medium while not significantly reducing the yeast count. We have explained why a person of ordinary skill in the art would have concluded that would have been obvious over the teachings of the combined cited prior art. The studies cited in the Second McNeel Declaration also demonstrate that the chloramine is rapidly degraded in the closed fermentation system, but not before its biocidal action has significantly reduced the bacterial count. Appellant has not demonstrated that this is significantly advantageous over the biocides taught by De Sa, because none of the latter’s biocides were tested in the studies of the Second McNeel Declaration. At best, Appellant has demonstrated a hitherto unknown and unappreciated property of chloramine as an oxidizing biocide in fermentation systems. That, in itself, is insufficient to overcome the Examiner’s prima facie conclusion of obviousness. See Baxter, 952 F.2d at 392 (holding that: “[m]ere recognition of latent properties in the prior art does not render nonobvious an otherwise known invention”). We consequently conclude that the Appellant’s allegedly unexpected results are not sufficient to overcome the Examiner’s conclusion that the claims are prima facie obvious over the combined cited prior art, and we affirm the Examiner’s rejection of the claims. Appellant argues claim 40 separately, but relies upon essentially the same arguments presented supra. App. Br. 29–31. We consequently affirm the Examiner’s rejection. Issue 2: Rejection over De Sa, Enzien, Souter, and Dailey Appellant relies upon essentially the same arguments presented supra, arguing further that Dailey does not overcome the alleged deficiencies of the Appeal 2018-008203 Application 14/585,218 20 combined teachings of De Sa, Enzien, or Souter, particularly in view of the studies presented in the Second McNeel Declaration. App. Br. 29–32. We have explained why we do not find Appellant’s argument persuasive, and we affirm the Examiner’s rejection. Furthermore, although Appellant argues claim 37 separately, Appellant relies upon essentially the same arguments presented supra. Appellant also argues dependent claim 40 separately. Claim 40 recites: “The method of claim 35, wherein the stabilized chloramine is added to the fermentable mash in step c) in a concentration of from 50 ppm to 500 ppm, based on fermentable material, on a dry solids weight/weight basis.” App. Br. 44. In addition to repeating the arguments with respect to the other claims, Appellant contends that the addition of the stabilized chloramine to the fermentable mash in a concentration of from 50 ppm to 500 ppm, based on fermentable material, on a dry solids weight/weight basis, is much greater than any chloramine that may be present in tap water. The Examiner finds that De Sa teaches amounts of biocide falling within the claimed range. Final Act. 21 (citing De Sa ¶¶ 24, 33, 35, 38). We do not find Appellant’s argument persuasive. De Sa teaches: In general, the combination of both the organic biocide and the quaternary ammonium compound may range, in certain non- limiting embodiments, from about 10,000 parts per billion (ppb) to about 100 parts per million (ppm), and in other nonlimiting embodiments may range from about 1 ppm to about 100 ppm, based on the total amount of fermentation substrate by weight. In still other non-limiting embodiments the combined amount may range from about 5 ppm to about 50 ppm, and in yet other non- limiting embodiments it may range from about 10 ppm to about 40 ppm. Appeal 2018-008203 Application 14/585,218 21 De Sa ¶ 24. These values for oxidizing organic biocides overlap Appellant’s claimed range. We acknowledge that De Sa does not expressly teach chloramine, or other inorganic oxidizing biocides, but we find that the ranges taught by De Sa would inform a person of ordinary skill in the art of the ranges required for oxidizing biocides in general, and would provide a skilled artisan with a starting range from which to optimize the concentration of chloramine. See In re Boesch, 617 F.2d 272, 276 (C.C.P.A. 1980) (holding that “discovery of an optimum value of a result effective variable … is ordinarily within the skill of the art”). We consequently affirm the Examiner’s rejection of the claims on this ground. Issue 3: Rejection over De Sa, Enzien, Souter, Edwards, and Dailey Appellant again relies upon essentially the same arguments presented supra, arguing further that Edwards does not overcome the alleged deficiencies of the combined teachings of De Sa, Enzien, Dailey, or Souter, particularly in view of the studies presented in the Second McNeel Declaration. App. Br. 29–32. We have explained why we do not find Appellant’s argument persuasive, and we affirm the Examiner’s rejection. DECISION The Examiner’s rejection of claims 35–41 under 35 U.S.C. § 112, first paragraph, for lack of written descriptive support is reversed. The Examiner’s rejection of claims 35–41 under 35 U.S.C. § 112, first paragraph, for lack of enablement is reversed. Appeal 2018-008203 Application 14/585,218 22 The Examiner’s rejection of claims 35–41 under 35 U.S.C. § 112, second paragraph, as being indefinite is reversed. The Examiner’s rejection of claims 35–41 under 35 U.S.C. § 103(a) is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED Claims Rejected 35 U.S.C. § Basis Affirmed Reversed 35–41 112, first paragraph written description 35–41 35–41 112, first paragraph enablement 35–41 35–41 112, second paragraph indefiniteness 35–41 35, 37–41 103 De Sa, Enzien, Souter 35, 37–41 35–41 103 De Sa, Enzien, Souter, Dailey 35–41 35–41 103 De Sa, Enzien, Souter, Dailey, Edwards 35–41 Overall Outcome 35–41