12416074 (P.T.A.B. Sep. 27, 2013)

Ex Parte Butler

Patent Trial and Appeal BoardSep 27, 2013

12416074 (P.T.A.B. Sep. 27, 2013)

UNITED STATES PATENT AND TRADEMARKOFFICE 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. 12/416,074 03/31/2009 James R. Butler COS-1191 3739 25264 7590 09/27/2013 FINA TECHNOLOGY INC PO BOX 674412 HOUSTON, TX 77267-4412 EXAMINER ETHERTON, BRADLEY ART UNIT PAPER NUMBER 1772 MAIL DATE DELIVERY MODE 09/27/2013 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 JAMES R. BUTLER __________ Appeal 2012-006782 Application 12/416,074 Technology Center 1700 ____________ Before CHUNG K. PAK, CATHERINE Q. TIMM, and MICHAEL P. COLAIANNI, Administrative Patent Judges. COLAIANNI, Administrative Patent Judge. DECISION ON APPEAL Appeal 2012-006782 Application 12/416,074 2 Appellant appeals under 35 U.S.C. § 134 the final rejection of claims 5, 11, 12, and 17-211. We have jurisdiction over the appeal pursuant to 35 U.S.C. § 6(b). We AFFIRM-IN-PART. Appellant’s invention is directed to a process of oxidative coupling of hydrocarbons that uses the heat produced by the exothermic oxidative coupling reaction 200 to produce steam 330 via heating coil 310 or 316 that is used in the cracking zone 270 (Figs. 2 and 3; Spec. para. [0015]). Claim 11 is illustrative: 11. A method of revamping an existing ethylene production facility comprising: providing an existing production facility comprising a cracking zone; adding one or more reactors to the facility, wherein the one or more reactors are capable of reacting methane with oxygen to produce a first product stream comprising ethylene and/or ethane; sending at least a portion of the first product stream comprising ethylene and/or ethane to the existing ethylene production facility for further processing to form ethylene; 1 Though Appellant acknowledges that claims 1, 3-8, 10-12, and 16-23 are pending, Appellant chose to limit the appeal to claims 5, 11, 12, and 17-21 (App. Br. 7). The Notice of Appeal states that Appellant appeals from “the last decision of the Examiner” (Notice of Appeal). Accordingly, the Examiner’s decision to reject claims 1, 3, 4, 6-8, 10, 16, 22, and 23 which have not been appealed becomes an unappealable final agency action. Ex parte Ghuman, 88 USPQ2d 1478, 1480 (BPAI 2008) (precedential). Upon of return of jurisdiction to the Examiner, the Examiner should cancel claims 1, 3, 4, 6-8, 10, 16, 22, and 23. Id. Appeal 2012-006782 Application 12/416,074 3 dissipating heat from the one or more reactors to maintain the reaction zone within a desired temperature range for reacting the methane and oxygen to form ethylene and/or ethane; wherein at least a portion of the dissipated heat is utilized in the existing production facility; wherein at least a portion of the dissipated heat is sufficient to supply all steam needs for the cracking zone. Appellant appeals the following rejections: 1. Claim 5 is rejected under 35 U.S.C. § 102(b) as anticipated by Calamur (US 5,254,781 issued Oct. 19, 1993). 2. Claims 12 and 18 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Calamur. 3. Claim 11 is rejected under 35 U.S.C. § 103(a) as being unpatentable over Calamur in view of Cameron (US 5,025,108 issued June 18, 1991). 4. Claims 17, 20, and 21 are rejected under 35 U.S.C. § 103(a) as being unpatentable over Calamur in view of Erekson (US 4,950,827 issued Aug. 21, 1990). 5. Claim 19 is rejected under 35 U.S.C. § 103(a) as being unpatentable over Calamur in view of Kimble (US 4,982,038 issued Jan. 1, 1991). REJECTION (1): CLAIM 5 ISSUE Did the Examiner reversibly err in finding that Calamur’s teachings anticipate the subject matter of claim 5 that includes methane separated from Appeal 2012-006782 Application 12/416,074 4 the first product stream is used as fuel to provide heating for the process? We decide this issue in the negative. FINDINGS OF FACT & ANALYSIS The Examiner finds that Calamur teaches that methane is separated from the oxidative coupling reaction (corresponding to the claimed “first product stream”) and Calamur discloses that the methane may be used as fuel for the cracking zone in the process (Ans. 4-6). Appellant contends that Calamur does not teach, disclose or suggest that the methane is used as fuel to provide fuel for its process or a single piece of equipment where such fuel could be used (App. Br. 15). Appellant contends that Calamur only discloses the oxidative coupling of methane and oxygen as being the source of heat for the process and Calamur fails to teach that any piece of equipment would require heating (id.). The Examiner responds that Calamur teaches at column 1, lines 28-36 that methane is used as fuel to provide part of the heat required by the cracking process (Ans. 17). The Examiner finds that Calamur at column 5, lines 49-53 teaches that methane is separated out of the effluent from the oxidative coupling reactor and it is used as fuel (id.). The Examiner finds that based on these disclosures Calamur teaches all the limitations of claim 5. We agree with the Examiner and add the following discussion primarily for emphasis. Calamur teaches that the hydrocarbon cracking part of the process is “very endothermic” and requires large quantities of heat per pound of product (col. 6, ll. 38-40). Calamur teaches that it is known to use recovered methane as fuel in the cracking zone (col. 1, ll. 23-36). Calamur Appeal 2012-006782 Application 12/416,074 5 discloses that methane may be recovered from the effluent of the oxidative coupling reaction and used as fuel (col. 5, ll. 49-51). Calamur teaches that the recycling of the heat from the oxidative coupling reaction provides a majority (preferably over 70%) of the heat required for the hydrocarbon cracking (col. 4, ll. 35-40). Calamur’s disclosures are such that a skilled artisan would take Calamur’s teachings in combination with his own knowledge and be in possession of the claimed invention. In re LeGrice, 301 F.2d 929, 936 (CCPA 1962). Calamur’s teaches that the hydrocarbon cracking part of the process is very endothermic and methane recycled from the oxidative coupling reaction may be used as fuel. Calamur further teaches that the regenerative heating provides a majority (e.g.,., greater than 70%) of the heating required for the cracking part of the process. Accordingly, we find that Calamur anticipates the claimed invention as the skilled artisan knows that methane recycle may be used as fuel for the cracking process and may be used to make up any deficit in heat required to operate the hydrocarbon cracking process. Appellant contends that Calamur’s column 1, lines 28-36 disclosure teaches that methane produced in the cracking process, not the oxidative coupling process, is used to heat the furnaces (Reply Br. 8). We read Calamur’s column 1 to disclose that the methane produced by the olefin making process is burned in the cracking process to provide the needed heat to the highly endothermic cracking process. Appellant’s argument that “process” in claim 5 includes the steps of claim 1, does not undermine the Examiner’s finding that supplying methane to the cracking zone would satisfy claim 5 (App. Br. 14). Notably, claim 1 includes a cracking zone, Appeal 2012-006782 Application 12/416,074 6 which is an endothermic part of the process. Calamur teaches sending methane to be used as fuel to an endothermic part of the process, such as the cracking zone. On this record, we affirm the Examiner’s § 102(b) rejection over Calamur. Furthermore, the subject matter of claim 5 would have been obvious in light of Calamur’s teachings. REJECTIONS (2) and (3): CLAIMS 11, 12 AND 18 ISSUES 1. Did the Examiner reversibly err in concluding that Calamur would have rendered obvious the subject matter of claims 11 and 12 that includes supplying all the steam needs in a “cracking zone” (claim 11) or an ethylene production facility (claim 12)? We decide this issue in the negative. 2. Did the Examiner reversibly err in concluding that Calamur would have rendered obvious the subject matter of claim 18 the recites that the oxidative coupling reactor includes methane and ethylene? We decide this issue in the negative. FINDINGS OF FACT AND ANALYSIS Issue (1): Claims 11 and 12 The Examiner finds that Calamur teaches that the effluent from the oxidative coupling reaction is passed through heat exchangers where high pressure steam is generated (Ans. 9, 11). The Examiner finds that the steam may be used as part of the feed to a conventional cracking furnace (id. at 9, 11-12). Regarding the limitation that the steam produced by the oxidative Appeal 2012-006782 Application 12/416,074 7 coupling reaction is sufficient to supply enough energy to supply all the steam needs for the ethylene production facility, the Examiner concludes that such would have been a change in size/proportion of a process and is not patentably distinct absent evidence of new or unexpected results (id. at 9, 12). Appellant does not contest the Examiner’s conclusion regarding the obviousness of changing the size of oxidative coupling reactor to supply the amount of steam needed. Appellant argues that Calamur does not teach or suggest using steam in an ethylene production facility (App. Br. 15). Appellant contends that Calamur does not teach or suggest that the steam produced by the heat exchangers in Calamur can be used in a steam cracker (id. at 16). Appellant contends that Calamur does not teach or suggest that the steam generated by the heat exchanger is of the type of super-heated high pressure steam necessary for use in a steam cracker or that the heat exchangers in Calamur may be operated in a fashion so as to generate the type of super-heated steam necessary for the ethane cracker (id. at 16, 19). Appellant argues that Calamur and Cameron describe a process that allows for “at least a portion of the dissipated heat is sufficient to supply all steam needs for the cracking zone” (id. at 18). Contrary to Appellant’s arguments, Calamur teaches forming high- pressure steam using the heat generated from the oxidative coupling reaction via heat exchanger 61 (col. 5, ll. 45-46). Calamur further teaches that steam may be injected at 3 with propane feed 1 into preheater 4 which is then sent to a thermal cracking unit 6 (col. 4, ll. 43-51). Calamur discloses that hydrocarbon cracking is generally carried out using steam at various pressures and amounts (col. 6, ll. 29-54). Appeal 2012-006782 Application 12/416,074 8 Based on these disclosures, the preponderance of the evidence favors the Examiner’s conclusion of obviousness. Calamur teaches forming steam by transferring heat from the effluent of various portions of the process including the oxidation coupling reaction. Calamur further discloses that steam is used in the cracking processes. Accordingly, it would have been obvious to use the steam generated by using the effluent of the oxidation coupling reaction in the ethylene production facility as steam for the hydrocarbon cracker. While Appellant contends that there is no indication that Calamur’s steam has the required temperature for cracking, no evidence has been provided to substantiate Appellant’s attorney argument. We find that the evidence contained in Calamur noted supra would have rendered obvious using the produced steam in a hydrocarbon cracker in manufacturing ethylene. One skilled in the art would have tailored the temperature and pressure of the steam for the particular hydrocarbon being cracked as noted by Calamur (col. 6, ll. 50-54). Regarding claim 11, Appellant states that the Examiner and Appellant understand the cracking zone to be a traditional ethane cracker (App. Br. 18). However, the Examiner’s reading of Calamur does not comport with Appellant’s “understanding”. Rather, the Examiner finds that the cracking zone includes a “hydrocarbon cracking unit” rather than the more limited ethane cracking unit argued by Appellant (Ans. 11). As noted above, we agree with the Examiner’s finding that propane cracker 6 constitutes a “cracking zone” within the meaning of claim 11 (Ans. 4, 11). On this record we affirm the Examiner’s § 103(a) rejection of claims 11 and 12. Appeal 2012-006782 Application 12/416,074 9 Issue (2): Claim 18 Claim 18 requires that the oxidative coupling reaction includes the reaction of ethylene and methane. Appellant argues that the only proof offered by the Examiner that ethylene and methane in the reactor must react is that both are present in the reactor (App. Br. 17). Appellant contends that the Examiner has not satisfied the burden of establishing inherency. Id. Appellant contends that such a reaction would produce higher carbon number hydrocarbons which would bypass the de-propanizer and de-butanizer and be processed in the de- ethanizer (id. at 18). Appellant contends that Calamur’s process would not function properly with the resulting higher carbon number materials (Reply Br. 11). Appellant’s arguments are not persuasive as they fail to address the Examiner’s findings that Calamur discloses the same reactor feeds, the same catalyst, and the same reaction conditions as the instant process (Ans. 19). Based on these findings, the Examiner has provided a reasonable basis grounded in technical reasoning for concluding that the ethylene and methane would inherently react in the oxidative coupling reaction. Ex parte Levy, 17 USPQ2d 1461, 1464 (BPAI 1990). On this record, we affirm the Examiner’s § 103 rejection of claim 18. Appeal 2012-006782 Application 12/416,074 10 REJECTIONS (4) AND (5) ISSUE Did the Examiner reversibly err in concluding that it would have been obvious to modify Calamur to include the aromatic hydrocarbons recited in claims 17, 20, and 21 or the isobutylene in claim 19 with the methane oxidation coupling reaction? We decide this issue in the affirmative. FINDINGS OF FACT AND ANALYSIS The Examiner finds that Calamur does not teach oxidative coupling of toluene, t-butyltoluene, trimethylbenzene or isobutylene with methane (Ans. 14). The Examiner finds that Erekson discloses oxidatively coupling an aliphatic hydrocarbon with a substituted aromatic hydrocarbon using the same rare earth catalysts as disclosed by Calamur (id.). The Examiner finds that Kimble discloses oxidatively coupling isobutylene and methane using a rare earth oxide as disclosed by Calamur (id. at 15). The Examiner concludes that it would have been obvious to modify the methane coupling process of Calamur and include toluene or isobutylene in the hydrocarbon feed as taught by Erekson and Kimble, respectively, because this involves application of a known technique to improve a known route to styrene or yield a valuable product (isoprene) and toluene is a less expensive chemical than benzene for producing styrene (id. at 14-15, 16). Appellant argues that adding toluene or isobutylene to Calamur’s feed would have destroyed the function of Calamur’s device as higher carbon number hydrocarbons would be formed and these would frustrate the purpose of Calamur’s integrated oxidative coupling reactor/cracking/separation system in producing ethylene or ethane (App. Appeal 2012-006782 Application 12/416,074 11 Br. 20, 21). Appellant argues that the Examiner has not explained how the addition of isobutylene or an aromatic compound such as toluene to the hydrocarbon feed would affect the system disclosed by Calamur (Ans. 20, 21). The preponderance of the evidence favors Appellant’s argument of nonobviousness. The Examiner’s reasoning for combining toluene or isobutylene with Calamur’s process is to obtain styrene or isoprene (id. at 14-15, 16). Erekson and Kimble respectively teach oxidatively coupling methane with toluene or isobutylene to obtain styrene or isoprene. However, our review of Erekson and Kimble fails to reveal any cracking of the hydrocarbons to achieve the styrene or isoprene. In other words, it is unclear what affect the cracking process of Calamur would have on the formation of styrene or isoprene. It is unclear whether any styrene or isoprene would remain after the cracking processes. The Examiner finds that Calamur teaches a flash drum 65 that separates the oxidation coupling effluent into an ethane containing stream that is sent to the ethane cracker 68 in Figure 3 (Ans. 21, 22). We agree with Appellant that the higher carbon number styrene and isoprene would have been expected to proceed to the ethane cracker as they would have been expected to have higher boiling points then the methane and carbon monoxide flashed off the effluent in stream 66. Indeed, Calamur teaches that methane and carbon monoxide are removed via line 66 from the oxidative coupling effluent exiting the flash drum, while the bottom line 67 contains higher carbon number ethane that is sent to ethane cracker 68 (Calamur col. 5, ll. 47-55). Appeal 2012-006782 Application 12/416,074 12 Accordingly, the preponderance of the evidence favors Appellant’s argument of nonobviousness. We reverse the Examiner’s rejection of claims 17, and 19-21. DECISION The Examiner’s decision is affirmed-in-part. 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). ORDER AFFIRMED-IN-PART bar