13585235 (P.T.A.B. Mar. 30, 2016)

Ex Parte Garcia-Alonso et al

Patent Trial and Appeal BoardMar 30, 2016

13585235 (P.T.A.B. Mar. 30, 2016)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/585,235 08/14/2012 22045 7590 04/01/2016 BROOKS KUSHMAN P,C 1000 TOWN CENTER TWENTY-SECOND FLOOR SOUTHFIELD, MI 48075 FIRST NAMED INVENTOR Nuria Garcia-Alonso 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. CONFIRMATION NO. W AS0881PUSA1 8584 EXAMINER NGUYEN, NGOC YEN M ART UNIT PAPER NUMBER 1734 NOTIFICATION DATE DELIVERY MODE 04/01/2016 ELECTRONIC 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. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address( es): docketing@brookskushman.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte NURIA GARCIA-ALONSO, CHRISTOPH RUEDINGER, and HANS-JURGEN EBERLE 1 Appeal2014-006052 Application 13/585,235 Technology Center 1700 Before CHUNG K. PAK, MICHAEL P. COLAIANNI, and N. WHITNEY WILSON, Administrative Patent Judges. COLAIANNI, Administrative Patent Judge. DECISION ON APPEAL Appellants appeal under 35 U.S.C. Â§ 134 the final rejection of claims 1-16, 18 and 19. We have jurisdiction over the appeal pursuant to 35 U.S.C. Â§ 6(b ). We AFFIRM. 1 Appellants state that the real party in interest is "Wacker Chemie AG" in its Appeal Brief filed October 30, 2013 ("App. Br.) 1. Appeal2014-006052 Application 13/585,235 Appellants' invention relates to a process for preparing trichlorosilane by means of thermal hydrogenation of silicon tetrachloride. (Specification ("Spec.") 1:14-15; claim 1). Claim 1 is illustrative: 1. A process for producing trichlorosilane by reaction of tetrachlorosilane with hydrogen, comprising reacting a tetrachlorosilane-containing reactant gas and a hydrogen-containing reactant gas in a reactor at a reaction temperature of from 700Â°C to l 500Â°C to form a trichlorosilane-containing product gas mixture, and cooling the product mixture by means of a heat exchanger constructed of a material selected from the group consisting of silicon carbide, silicon nitride, quartz glass, graphite, silicon carbide coated graphite and combinations thereof, wherein passages in the heat exchanger have a hydraulic diameter> 5mm, the heat exchanger has a ratio of heat exchange surface to volume of> 400-1 and a heat transfer coefficient of> 300 watts /m2K, and cooling the product gas mixture to a temperature T cooling over a heat exchanger residence time of the product gas mixture in the heat exchanger 1"[ ms], where r ~A Â·e BÂ·Tcooling (Equation 1) 1000 where A= 4000, 6 :SB :S 50, and 100Â°C :S Tcooling :S 900Â°C, wherein the product gas mixture is cooled by reactant gases in the heat exchanger to a temperature lower than the reaction temperature and at most 700Â°C in less than 50 ms, and the reactant gases are heated thereby. App. Br., Claims App'x 1-3 (emphasis added.) 2 Appeal2014-006052 Application 13/585,235 Appellants appeal the following rejection: Claims 1-16, 18 and 19 have been rejected under 35 U.S.C. Â§ 103(a) as unpatentable over Weigert (U.S. 4,217,334 to Weigert et al. issued August 12, 1980) in view of Hamster (U.S. 4,536,642 to Hamster et al. issued August 20, 1985) and Shah ("Fundamentals of Heat Exchanger Design," (2003), pp. 1-20 and 78-96) (Final Action dated June 5, 2013 ("Final Act.") 3-6; Examiner's Answer dated February 12, 2014 ("Ans.") pages 2-6). Appellants argue separately claims 1, 14 and 15 (App. Br. 22 and 23). Any claims not argued separately will stand or fall with our analysis regarding claim 1. FINDINGS OF FACT & ANALYSIS CLAIM 1 The Examiner finds that Weigert teaches a process that produces trichlorosilane by reacting tetrachlorosilane with hydrogen as recited in claim 1 except for the step of using the energy of the product gas removed via a heat exchanger to heat the reactant gases and for specific design limitations of the heat exchanger (Final Act. 3-5). The Examiner finds that Hamster teaches a device containing a heat exchanger used in processes, such as forming trichlorosilane from tetrachlorosilane and hydrogen (Final Act. 6). The Examiner further finds that Hamster teaches that reactant gases can be preheated in the heat exchanger by reaction gases while still hot (Final Act. 6). The Examiner concludes that it would have been obvious to one skilled in the art to use Hamster's heat exchanger in Weigert's process 3 Appeal2014-006052 Application 13/585,235 because it can minimize energy losses and ensures uniform temperature (Final Act. 6). As to properties and design characteristics of the heat exchanger, the Examiner finds that Shah teaches that it is conventional to modify the mechanical/thermal design, particularly, the hydraulic diameter, of a heat exchanger in accordance with process specifications (Final Act. 6). The Examiner concludes that it would have been obvious to design Weigert' s heat exchanger including the materials; hydraulic diameter; ratio of heat exchange surface to volume; and heat transfer coefficient as taught by Shah to cool effectively the product gas in Weigert's process (Final Act. 6). Appellants contend that Weigert discloses using a heat exchanger only in small/laboratory scale processes, and that Weigert discourages using heat exchangers in large-scale applications where it teaches only rapid quenching of reactor product gases in industrial practice (App. Br. 12-16; Declaration, 2 5-6). Appellants contend that Weigert's heat exchanger is not a gas/gas heat exchanger employing reactant gases as the cooling medium but that it wastes product gas and thereby does not have the economic benefits provided by the claimed heat exchanger (App. Br. 13, 17, 20-22; Declaration, 12-13). Appellants further contend that Hamster's reactor is integrated entirely within the reactor shell and depicts the product gas mixture in its examples as cooled while reactant gases are heated (App. Br. 17-19). Appellants further contend that Shah is "merely a general treatise" that provides theoretical and practical information on designing and constructing 2 Declaration by Dr. Rudinger (an inventor) (hereinafter "Rudinger Declaration") filed September 14, 2012 that has been attached to Appellants' Appeal Brief. 4 Appeal2014-006052 Application 13/585,235 numerous types of heat exchangers and does not suggest, for example, the hydraulic diameter specified in claim 1 within a gas/gas heat exchanger (App. Br. 19-22). Appellants' primary argument concerns whether Weigert discloses using its heat exchanger in industrial applications. As pointed out by the Examiner, Weigert discloses at column 2, lines 32-42 wherein the heat exchanger is used in "small reactor units", which the Examiner finds are not laboratory scale units (Ans. 9-10). Appellants do not respond to this finding in the Reply Brief. We agree with the Examiner that the present claims are not limited to an "industrial process"; the claims do not recite that the process is an industrial process or provide any recitation of volume/amount of trichlorosilane produced (Ans. 11 ). Thus, even if Weigert were limited to laboratory-scale units, its teachings would be pertinent to the claims on appeal. With respect to Appellants' arguments that, even though Wiegert discloses examples that use a heat exchanger, it suggests quenching the product gases in large scale applications, the Examiner finds that Weigert'sdisclosure is not limiting the use of a heat exchanger to small scale processes but is instead teaching quenching product gases as a preferred embodiment for large scale applications (Ans. 10, 12 and 13). We agree with the Examiner that Weigert' s disclosure is merely a preferred embodiment of the reference. Weigert's process is not limited to quenching the product gas in industrial applications but also discloses using a heat exchanger its processes for converting trichlorosilane from tetrachlorosilane that fall within the meaning of the claims (Ans. 10). 5 Appeal2014-006052 Application 13/585,235 We are unpersuaded by Appellants' arguments that the teachings of Weigert and Hamster would not have been combined because Hamster's integrated heat exchanger in the reactor shell does not preheat the reactant gases with heat from the product gases which is contrary to Weigert's heat exchanger where heat is transferred from the product to a cooler medium. (Reply Br. 2-4 and 8) The Examiner finds that Hamster suggests using product/reaction gases while still hot to preheat reactant gases in a heat exchanger and that it would have been obvious to modify Weigert' s heat exchanger to do so in view of Hamster's teachings (Ans. 10, 12-14; Hamster, col. 3, 11. 7-14). In other words, the Examiner relies upon the concept taught by Hamster of using the hot product gases to preheat cooler reactant gases to modify Weigert' s heat exchanger to permit such recuperation of the heat in the product gases, not the bodily incorporation of Hamster's heat exchanger into Weigert's device and process. As to Appellants' arguments that Shah "adds nothing" to the teachings of Weigert and Hamster, we agree with the Examiner's that Shah teaches that an ordinarily skilled artisan can tailor a heat exchanger to satisfy the particular conditions or requirements of a given process (Ans. 15-17). Shah teaches the variables that are used in designing heat exchangers include, inter alia, the hydraulic diameter, residence time, heat exchanger surface area, and heat transfer coefficient. (See e.g., Shah generally and 8-9, 84-85). Accordingly, the ordinarily skilled artisan would have modified Weigert's heat exchanger in the process as per the teachings of Shah and Hamster in order to tailor the heat exchanger to the particulars of the tetrachlorosilane conversion process and in so doing arrive at a heat exchanger having the parameters recited in the claim. KSR Int'l. Co. v. Teleflex Inc., 550 U.S. 6 Appeal2014-006052 Application 13/585,235 398, 417 (2007) ("[I]f a technique has been used to improve one device, and a person of ordinary skill in the art would recognize that it would improve similar devices in the same way, using the technique is obvious unless its actual application is beyond his or her skill."). We find that the preponderance of the evidence favors the Examiner's conclusion of obviousness. We now consider Appellants' evidence of secondary considerations. Appellants argue that there has been a continual long felt need to efficiently regenerate trichlorosilane from tetrachlorosilane exiting Siemens reactors (conventional industrial reactors used in this process) in an economical manner (App. Br. 3-11; Reply Brief entered April 14, 2014 ("Reply Br.") 4-6). Appellants additionally argue that the heat exchanger having a small hydraulic diameter is critical to the claimed process (App. Br. 21-22) and that comparative data submitted in the Rudinger Declaration demonstrates unexpected results as evidence of the criticality for a heat exchanger having a hydraulic diameter less than 6 mm as recited in present claim 1 (App. Br. 19-20 and21-23; Declaration 14-15; Ans. 19). We are not persuaded by Appellants' arguments and evidence of secondary considerations based upon a "continual long felt need" to efficiently regenerate trichlorosilane from tetrachlorosilane exiting reactors used in industrial processes (Reply Br. 4-6). Appellants have not established that the long-felt need had not been satisfied by another before Appellants' claimed invention, and, moreover, that the claimed invention satisfies the long felt need. Newell Companies v. Kenney Mfg. Co., 864 F.2d 757, 768 (Fed. Cir. 1988). 7 Appeal2014-006052 Application 13/585,235 First, as discussed above, the present claims are not limited to an industrial process as argued. Therefore, a showing that the prior art achieved a more efficient production of trichlorosilane from tetrachlorosilane at a small scale or even laboratory scale would suffice to counter Appellants' evidence and argument of long felt need. Nevertheless, the Examiner has shown that Example 3 in Weigert's process (using a heat exchanger) is more productive in that it provides a greater yield of trichlorosilane than the yield in the example from Appellants' Specification (i.e., Wacker Example in Table 1 of Rudinger Declaration) thereby rebutting the argument that the claimed invention resolves a long felt need to improve the productivity of preparing trichlorosilane from tetrachlorosilane (Ans. 7- 9). To the Examiner's point, Appellants have not proffered sufficient evidence regarding the capital and operational cost of Weigert's heat exchanger used in the quench process of Example 3 relative to the capital and operational costs of the claimed heat exchanger as a basis for determining the economics of each method (Ans. 8-9, 18). The evidence in Table 1 on page 10 of the Rudinger Declaration compares the specific energy costs per ton of trichlorosilane of Weigert' s Example 3 relative to Appellants' Example 1, but that does not establish that total cost (including capital costs) of Appellants' Example 1 results is a more economical process as compared to Weigert's Example 3. Id. In other words, it is unclear if Appellants have actually achieved a more economical process of producing trichlorosilane from tetrachlorosilane and satisfied a long felt need as argued. With respective to the data in the Rudinger Declaration relied upon by Appellants to show criticality of the heat exchanger's hydraulic diameter 8 Appeal2014-006052 Application 13/585,235 comparing Weigert's Example 1 with Appellant's Example 1, we agree with the Examiner that Weigert is not limited to Example 1 and that Example 3, which uses a heat exchanger, provides a yield of 37.1 %, which is greater than that of Appellants' Example 1 in the Declaration (Ans. 11). We also agree that the comparison of these examples in the Declaration is insufficient to overcome the primafacie obviousness rejection because the comparative data failed to demonstrate whether or not, aside from the hydraulic diameter, other differences in the heat exchanger/process contributed to the produced yield between the two examples, such as heat transfer coefficient and surface area to volume ratio (Ans. 20). Moreover, the evidence on pages 14-15 of the Rudinger Declaration is not commensurate in scope with the claims in that it fails to provide evidence that any alleged unexpected results occurs over the entire range of hydraulic diameters recited in claim 1 (i.e.,< 5 mm). In re Clemens, 622 F.2d 1029, 1036 (CCPA 1980). The only showing we have of an embodiment falling within the range recited in the claim is at 2 mm hydraulic diameter. Based upon this record, the preponderance of the evidence favors the Examiner's obviousness conclusion. No criticality has been shown for the hydraulic diameter range recited in claim 1 in that the comparative data was not commensurate in scope with the present claims. Accordingly, the ordinarily skilled artisan would have tailored the hydraulic diameter to a value within the claimed range as an optimization of the device to attain a suitable heat exchanger for the conversion of trichlorosilane from tetrachlorosilane as concluded by the Examiner. 9 Appeal2014-006052 Application 13/585,235 CLAIIvI 14 With respect to claim 14, it limits the heat exchanger of claim 1 to be positioned outside the reactor. Appellants contend that because Hamster teaches its heat exchanger as integrated within an insulated reactor shell requires, it does not suggest an outside heat exchanger (App. Br. 22). We agree with Examiner's finding that the heat exchanger setup disclosed in Hamster is not limited to a particular design choice but instead Hamster suggests designing a heat exchanger that can achieve fast cooling (as in Weigert) while also heating reactants by using hot product gases ( Ans.13-15). Appellants do not respond this finding of the Examiner. (Reply Br. generally). Accordingly, it would have been obvious to modify Weigert's "outside" heat exchanger in accordance with the teachings in Hamster as stated by the Examiner. CLAIM 15 Claim 15 depends from claim 14, and recites the product gas mixture exiting the reactor as fed into the heat exchanger through a heated line and that the product gas mixture has substantially the same temperature as it had upon exiting the reactor when it enters the heat exchanger. Appellants argue that because Hamster teaches an integrated heat exchanger, there would be no need to employ the heated line recited in the claim (App. Br. 23; Reply Br. 2). The Examiner argues that, regardless where the heat exchanger is located, Hamster suggests the step of preheating reactants by using hot product gases and that Shah teaches that a heat exchanger's setup for its various gas and liquid streams can be designed based on any given requirement, such as providing a heated line to adjust the starting and ending 10 Appeal2014-006052 Application 13/585,235 temperature of the stream to be cooled and the cooling stream (Ans. 15-17). Appellants do not respond to these findings of the Examiner (Reply Br. generally). On this record and for the above reasons, we affirm the Examiner's Â§ 103 rejection in view of Weigert, Hamster and Shah. DECISION The Examiner's decision is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ l.136(a). AFFIRMED 11