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MEMORANDUM OPINION AND ORDER CASTILLO, District Judge. Due to the continued fast pace of American life, the production of frozen food products has continually expanded during the last decade. Yet, because railroad carriers had not replaced aging mechanical refrigeration cars since the early 1970’s, the American transportation system explored the feasibility of using liquid carbon dioxide (“CO2”) to create cryogenic railcar systems which could economically transport frozen food products. These developments led to the dispute in this case. Beginning on May 1, 1995 and continuing through May 10, 1995, this Court held a bench trial on this matter. During this patent trial, this Court has been called upon to decide questions of patent validity and infringement concerning competing cryogenic refrigerated railcars. During the trial, the Court received testimony and documentary evidence and conducted a site visit to personally inspect and view the railcars at issue in this case. Thereafter, the Court considered the written post-trial submissions filed by each party. The Court hereby enters the following Findings of Fact and Conclusions of Law, which in contrast to its prior order in this matter, are based upon consideration of all the admissible evidence as well as this Court’s own assessment of the credibility of the trial witnesses. To the extent, if any, that the Findings of Fact as stated may be deemed Conclusions of Law, they shall be considered Conclusions of Law. Similarly, to the extent that matters expressed as Conclusions of Law may be deemed Findings of Fact, they shall also be considered Findings of Fact. FINDINGS OF FACT 1. This case involves a patent dispute between General American Transportation Corporation and Cryo-Trans Inc. 2. Plaintiff General American Transportation Corporation (“GATC”) is a corporation organized under the laws of New York, with its principal place of business in Chicago, Illinois. 3. Defendant Cryo-Trans, Inc. (“CryoTrans”) is a corporation organized under the laws of Maryland, with its principal place of business in Mt. Airy, Maryland. 4. GATC’s claim is an action for declaratory judgment, pursuant to 28 U.S.C. § 2201, with respect to the enforceability of United States Patent 4,704,876 (“the ’876 Patent”) against a cryogenic railcar produced and marketed by GATC. (Pl.’s Ex. A). 5. The ’876 Patent is owned by CryoTrans which has counterclaimed for patent infringement pursuant to 35 U.S.C. § 281. Figure 1 of the ’876 Patent is hereby incorporated into this opinion as Appendix A. (Pl.’s Ex. A). 6. Venue in this ease is proper under 28 U.S.C. §§ 1391 and 1400(b) and jurisdiction is proper under 28 U.S.C. § 1338. 7. On March 1, 1991, GATC filed a four-count complaint against Cryo-Trans seeking a declaratory judgment that the ’876 Patent, issued to Mr. Ralph P. Hill on November 10, 1987, and entitled “Cryogenic Refrigeration System ”, is invalid, void and unenforceable, and further that the ’876 Patent is not infringed by GATC’s cryogenic refrigerated boxcar design, presently commercialized in the United States under the tradename “Arcticar”. The complaint also sought a preliminary injunction enjoining Cryo-Trans from threatening patent infringement and other related litigation against actual and prospective users of GATC Areticar boxcars. The extensive procedural history of this ease includes a five-day hearing held before Magistrate Judge Rosemond in July, 1991, on the parties’ cross-motions for preliminary injunction. On August 12, 1994, Magistrate Judge Rosemond issued a formal Report and Recommendation which found in favor of GATC with respect to the issues raised before him in the parties’ cross-motions for preliminary injunction. 8. This Court adopted the recommended findings in the Magistrate Judge’s Report in a Memorandum Opinion dated December 20, 1994, which granted a preliminary injunction in favor of GATC, except that this Court rejected, as premature, Magistrate Judge Rosemond’s recommendation that GATC’s motion for attorney fees under 35 U.S.C. § 285 be granted. The Court’s December 20, 1994 order expressly indicated that this Court had not made any final determinations on the merits of this case. 9. GATC has been in the business of leasing railcars to the railroad industry for approximately 80 years, and for many years with respect to the business of manufacturing and leasing mechanically refrigerated railcars. In late 1990, GATC introduced a prototype non-mechanical, cryogenically refrigerated railcar using a bunker-style design. This prototype cryogenic railcar was designated the GARX 68000, and was built under the supervision of Mr. Erling Mowatt-Larssen, GATC’s Director of Engineering. The GARX 68000 was built and used only for demonstration and marketing purposes to solicit orders from frozen food shippers for the company’s anticipated production of a cryogenically refrigerated railcar called the “Areticar.” The prototype railcar has never been, and is not, available for lease by customers. 10. Around April of 1991, the GARX 68000 was modified several times to become the GATX production car design styled the “Arcticar.” Thereafter, in November of 1991 GATC obtained United States Patent 5,168,-717 which incorporated the modified design. Figure 1 from this patent is hereby incorporated into this opinion as Appendix B. (Def.’s Ex. 228). The primary modification was the blocking up of the openings in the bunker floor adjacent the end walls. As a result, the Arcticar production railcar has no openings adjacent the end walls of the car. In early 1991, GATC obtained its first order for Arcticar railcars. 11. Cryo-Trans is the owner by assignment of the ’876 Patent. (Def.’s Ex. 139). In 1985, Mr. Marvin H. Weiner formed a sole proprietorship named “Cryo-Trans” for the purpose of developing a business involving the leasing of cryogenically refrigerated rail-cars. Cryo-Trans was incorporated to form Cryo-Trans, Inc. in 1987. Mr. Weiner is the chief executive officer and president of CryoTrans, Inc. Cryo-Trans’ cryogenically refrigerated railcars are referred to as CRYX railcars. Mr. Weiner is also the president of Mt. Airy Cold Storage (“Mt. Airy”), a frozen food storage facility used by frozen food processors which is located in Mt. Airy, Maryland. 12. The declared inventor of the ’876 Patent is Mr. Ralph P. Hill. Mr. Hill has not obtained other patents. (Tr. 118, 122). 13. At all relevant times prior to his retirement in 1988, Mr. Hill was vice president of distribution at Lamb-Weston, Inc. in Portland, Oregon. (Stip. No. 5). He was also a past chairman and long-time member of the American Frozen Food Institute’s Physical Distribution Council. Mr. Hill is credited with having made many outstanding contributions in rail transportation of frozen foods. 14. A critical issue facing the frozen food industry in the 1980’s was the availability of mechanical refrigerator cars owned by the nation’s railroads. The then-current policy of the railroads was not to replace aging mechanically refrigerated railcars as they became unserviceable. The frozen food industry’s dependence on mechanical refrigerator cars for long-haul movement was expected to be compounded by the continuing escalation of diesel fuel prices which would preclude long-haul truck movement and make the industry even more dependent on the railroads. Finding an alternative to the use of mechanical refrigerator cars had been a high priority matter for the American Frozen Food Institute Distribution Council and Transportation Committee since at least 1982. 15. The American Frozen Food Institute (“AFFI”) and the International Association of Refrigerated Warehouses (“IARW”) through the Refrigeration Research Foundation jointly formed a cryogenic railcar research and development task force (AFFI-IAWR Refrigerated Railcar Task Force) to explore the feasibility of using total loss refrigerants, such as liquid CO2 to ensure an adequate transportation system for the expected growth of the frozen food industry. The United States Department of Agriculture provided the scientific monitoring and evaluation for the test shipments. Additionally, there was substantial resource involvement by the Burlington Northern Railroad. 16. Recognizing that the supply of mechanically refrigerated cars was steadily declining, Mr. Hill initiated the Cryogenic Rail Car Research Project. The project involved development of prototype railcars that relied on CO2, rather than mechanical systems, to provide refrigeration. Hill was a leading force behind the project. 17. Mr. Hill first initiated the Cryogenic Rail Car Research Project under the joint sponsorship of the AFFI and IARW, and later through a separately incorporated organization called the American Frozen Food Cryogenic Association for Rail Car Research — better known as AFFCAR — which was a non-profit shipper’s association formed to purchase refrigerated railcars with which the AFFI cryogenic research and development task force could experiment. Hill was chairman and leader of AFFCAR throughout its existence. Throughout the Cryogenic Rail Car Research Project, Mr. Hill championed the need for research, raised funds, supervised the design, engineering and testing of prototype railcars, and kept the frozen food industry informed of the progress of the research. In 1985, he was recognized by the frozen food industry for his work in ehampioning the need for cryogenic research, raising funds to build prototype cars, supervising design work, and engineering and testing prototype cars. (Def.’s Exs. 14, 22, 23, 30, 47, 233 ¶ 28, 234 ¶¶ 17-18, 235 ¶¶ 15, 16, 21). 18. During 1980-1985, AFFCAR and/or Burlington Northern built a number of prototype cryogenic cars which were identified as the BNFE 3, AFFX 2001, AFFX 2002 and AFFX 2003 during the trial. 19. The AFFI task force decided that an insulated railcar loaded with frozen food and given an initial charge of cryogen would most likely be a technically and economically feasible cooling system. A series of test shipments were conducted over a one year period to determine the feasibility of using CO2 as an alternative refrigeration source for railcar shipments of frozen foods. The Burlington Northern Railroad donated its modified mechanical refrigerator test car (“the BNFE 3”) to be used in the AFFI cryogenic railcar project study. The BNFE 3 was a refrigerated railcar originally built as a meat car in 1966, and rebuilt with under-the-floor air delivery and a truck-type nosemount mechanical refrigeration unit in 1976. It was modified for CO2 snow refrigeration in June of 1980. Seven shipments of various frozen commodities in the summer and fall of 1980 and the winter and spring of 1981 were made. The mechanical unit was not used during the testing. Upon evaluation of the test data from the BNFE 3 test shipments, the cryogenic railcar research task force concluded that the cryogenic refrigeration concept warranted further testing and consideration. 20. Ralph Hill, James Fink, Eddie Bar-. ron, LeRoy Couture and Bill McCollister were principally involved in the reconstruction of the BNFE 3 railcar in 1980. (Tr. 72). The BNFE 3 was a converted mechanical refrigeration car, which utilized an overhead rectangular manifold at the ceiling of the car to spray CO2 directly on the load. It utilized a single loading of CO2 at the place of embarkation. (Tr. 71-72). The BNFE 3 car proved that CO2 had applications for use in transportation of frozen food, but had drawbacks which did not allow the entire load to remain consistently frozen during the entire trip. (Tr. 73). 21. With promising results from the BNFE 3 test shipments, the task force proceeded to plan and design the construction of a prototype cryogenic railcar with an on-board CO2 temperature control system with no mechanical or electric parts; thus, eliminating costly mechanical diesel powered refrigeration. Construction of the prototype car — the AFFX 2001 — was completed in January of 1983. 22. The AFFX 2001 car was built for AFFCAR as an attempted improvement over the BNFE 3 car. The AFFX 2001 utilized tanks of liquid CO2 beneath the floor of the loading area to carry a supply of C02 on the railcar as well as a computer to sense temperature changes and to direct release of CO2 snow on the load. (Tr. 81). 23. The salient features of the “AFFX 2001 — Prototype Car Design ” were as follows: The car is equipped with a liquid carbon dioxide refrigeration tank system. The system stores liquid carbon dioxide under pressure at zero degrees Fahrenheit in a series of interconnected aluminum storage tanks placed lengthwise to the car beneath the car’s aluminum floor. The tank system not only provides in transit storage for liquid carbon dioxide, but also acts as a barrier to heat entering the car and functions as a giant cold plate to keep the load frozen. An initial blanket of carbon dioxide snow is deposited in the air on top and around the load prior to departure from the loading warehouse. While in transit, the load receives additional charges of snow triggered by a thermostatically controlled temperature sensor in the ceiling of the car above the air and load. Operation of the refrigeration system requires only pneumatic power provided by the pressure of the liquid carbon dioxide. No electrical nor diesel power is needed. The prototype car is the largest and best insulated refrigerator car ever built. The car utilizes state of the art compressed polyurethane foam in place insulation placed behind interior fiberglass roof and wall panels with spedally designed deep corrugated channels to allow the free flow of carbon monoxide gas over and around the load of frozen food. The exterior of the car is painted with a high gloss reflective acrylic white paint specially formulized to maximize reflection of radiant heat from the sun to provide an exterior surface that can easily be cleaned. The prototype car has a capacity of 4,904' cubic feet, compared with the 4,050 cubic feet capacity of existing mechanical cars. The overall exterior length of the ear is nearly 65 feet. The interior length is 58 feet. As evident from the above-quoted description, the AFFX 2001 was equipped with an under-the-floor liquid CO2 cooling system, corrugated paneling on the side walls, and a piping system with which to inject liquid CO2 directly on top of the cargo to form C02 snow. The AFFX 2001 proved impractical because of the extra weight of the car from the storage tanks of liquid CO2 and because the computers, which controlled the release of C02 while in transit, were subject to breakdown due to the difficulties of the rail environment. (Tr. 83). 24. Mr. Hill was part of a group of people who helped to design the AFFX 2001. Other persons involved in designing the AFFX 2001 included Messrs. Fink, Habel, Couture and Jenkins. 25. One of the problems with the AFFX 2001 Cryogenic Prototype Railcar Design was that direct contact of solid C02 with the frozen cargo caused over-freezing of the frozen food product near the top of the shipments. The solution to the problem was to put a bunker between the cargo and the solid CO2. Accordingly, in a subsequent phase of the task force’s cryogenic railcar research, the Burlington Northern Railroad modified two existing large cube mechanical refrigerator ears with the Rubin Carbonaire Plate CO2 Snow Bunker System. The two cars were called the AFFX 2002 and the AFFX 2003, and operated as follows: These cars are equipped with a snow bunker which consists of a sheet metal chamber across the interior ceiling of the car. Liquid CO2 is charged under pressure to supply lines accessible from either side of the A end (end opposite the brake wheel end) to the overhead bunker. As the liquid C02 is charged into the non-pressurized atmosphere in the bunker, it converts to snow which accumulates in the bunker under the entire ceiling of the car. The under surface of the bunker, which is the interior ceiling of the car, is insulated to control the sublimation (melting) of the snow and prevents extreme cold air from reaching the product in the car. As the CO2 sublimates, the cold air drops down the side walls and around the load. (CO2 is 52% heavier than air.) The AFFX 2002, which evolved over a two year period, utilized an overhead bunker to store the C02 snow after charging. (Tr. 856). The idea of using an overhead bunker was a result of collective discussions between Bill McCollister, James Fink, LeRoy Couture and Ralph Hill. (Def.’s Ex. 233 ¶ 18, Tr. 90). The Burlington Northern took the AFFX 2002 and the AFFX 2003 back after the AFFCAR project and put both cars in their fleet, and built 75 additional such cars in the remaining part of 1985 — after March of that year. 26. The AFFX 2002 was an experimental car. (Tr. 866). It went on two test runs before ratification (Tr. 838-39; Barron Dep. at 30-31). The AFFX 2002 design showed that an overhead bunker might be a useful innovation. Nevertheless, the AFFX 2002 still needed improvement. Improvement was made to the design of the exhaust vents and floors which were incorporated into the AFFX 2002 for subsequent test runs and into the AFFX 2003, which was identical to the AFFX 2002, except for its overall length. (Tr. 435; Def.’s Ex. 233 ¶ 15; Habel Dep. at 145^46; Barron Dep. at 21). Mr. Fink was principally responsible for the design of the AFFX 2002. (Tr. 163). 27. The eryogenically refrigerated railcar designated AFFX 2002 was built by employees of the Burlington Northern in June-July of 1983. Burlington Northern sold the rail-car to AFFCAR after its completion. (Tr. 165, 437). This railcar was used to transport frozen food product from the State of Washington to an unloading site near Kansas City, Kansas, in the summer of 1983. Ralph Hill was familiar with the AFFX 2002 railcar construction. (Stip. No. 2). He witnessed the loading, testing, and unloading of the AFFX 2002 in 1983 and understood its construction. (Id.). Ralph Hill publicly asserted that the technology was available for anyone in the trade to use. (Pl.’s Ex. HH). 28. The AFFX 2002 was a converted mechanical refrigerator car having corrugated side and end walls, aluminum floor racks, corner floor drains used as cargo area vents, and an overhead bunker. (Pl.’s Exs. DF; DF(A). The bunker had screened vents along one side and alternating C02 nozzles penetrating into the duct. (Pl.’s Exs. DF, DF(A), EO). The bottom wall of the air duct was insulated. (Pl.’s Ex. EO). The C02 nozzles were connected to a C02 manifold pipe running the length of the car and connectable to an outside source of liquid C02. (PL’s Ex. DF, DF(A)). The aluminum floor racks were of a herringbone construction with spaced apart slats running obliquely transversely and supported by lengthwise stringers to support the load. (PL’s Ex. DF; DF(A)). The stringers formed a plurality of parallel lengthwise channels for allowing C02 gas to flow beneath the cargo. A center rail between the floor racks would make it difficult for C02 gas to flow side to side under the floor. (PL’s Exs. DF(A), DX; Tr. 821-822, 826, 859-860). 29. When the AFFX 2002 railcar was initially charged with C02, the doors were kept ajar to relieve pressure. (Def.’s Ex. 233 ¶ 16, Barron Dep. at 32-33). Although the drain vents at each of the corners of the AFFX 2002 railcar were kept open during the charging phase, most of the pressure was relieved through the open door. (Tr. 867, 1071-72; Barron Dep. at 32-34). If the door was not kept open, the roof of the car was in jeopardy of being blown off because the drain vents were not sufficient to relieve the pressure. (Tr. 446-47). 30. There is a dispute as to how the sublimated C02 gas would flow in the AFFX 2002. Many of the people involved in developing the AFFX 2002, including Messrs. Hill, Couture, Habel and Barron, believed that its C02 gas would drop down the sidewall nearest the bunker toward the aluminum floor racks, pass through the gaps between the slots on the aluminum floor racks beneath the load, and then go up on the opposite sidewall of the car and over the top of the load. (Tr. 87-88; Def.’s. Ex. 233 ¶ 14; Tr. 445; Habel Dep. at 148; Barron Dep. at 18). Mr. Fink, who also was involved in the design of the AFFX 2002, however, believed that the gas would flow on top of the load and go down both sidewalls. (Tr. 849). This theory of gas flow is contrary to what is claimed as the gas flow in the Fink and Habel Patent. (Pi’s. Ex DF; Tr. 858). While GATC’s in-court demonstration was of interest in trying to determine through the use of a simulated model how the AFFX 2002 actually may have worked, (PL’s Ex. HK), it is not entitled to much weight because it does not answer the question of how the relevant persons in the art believed the AFFX 2002 worked during the relevant time period. 31. Mr. Hill was involved in providing input and design assistance for the BNFE 3, the AFFX 2001, and the AFFX 2002/2003 cars. (Tr. 22, 84, 90, 418-20, 425-26). The development of a successful cryogenic railcar was very much an evolutionary process involving trial and error. Mr. Hill was the only person who was aware of everything that was going on in connection with AFF-CAR activities. He was the only person actively involved in the development phase of each and every prototype car developed by AFFCAR. (Def.’s Ex. 234). 32. Each of the prototypes developed by AFFCAR and/or Burlington Northern had problems. However, by 1985, Burlington Northern began to commercialize the AFFX 2002/2003 design and built 75 railcars incorporating the AFFX 2003 design. Burlington Northern indicated to the industry that it was going to seek a patent. As a result, AFFCAR disbanded in March 1985. (Tr. 92-93). 33. At the time AFFCAR disbanded in March of 1985, Mr. Hill and his employer Lamb-Weston knew that there were problems with the AFFX 2002/2003 design. In particular, it was generally known that the car had hot spots along the sidewall opposite the bunker vents, were, resulting in the thawing of frozen product by the time it reached the east coast. Therefore, Lamb-Weston instructed Mr. Hill to continue working on the development of a successful cryogenic car. (Tr. 95-96). 34. Burlington Northern patented the AFFX 2002/2003 design. The patent issued as U.S. Patent No. 4,593,536 to two Burlington Northern employees, James K. Fink and David H. Habel (“Fink and Habel Patent”). (PL’s Ex. CQ; Tr. 92-93). The Fink and Habel Patent specifically disclosed that “[w]hen the refrigerant flakes sublimate in the bunker, the vapor flows from the bunker out the screen mesh, down the channel of the first sidewall, across the air flow channel and up the channel of the second sidewall, all by convection.” (Pl.’s Ex. CQ). Ultimately, Burlington Northern refurbished 75 cars utilizing a modified AFFX 2002/2003 design. These cars were not effective because they suffered from hot spots on the sidewall. As a result, the Burlington Northern cars were never accepted in the marketplace, and ultimately were taken out of service. (Def.’s Ex. 233 ¶¶ 14-21). 35. The design that ultimately led to the ’876 Patent was conceived by Mr. Hill during the summer of 1985. (Tr. 96; Def.’s Ex. 233 ¶ 22). During the summer of 1985, Mr. Hill spoke often to Mr. Jenkins, a fellow employee at Lamb-Weston, about how a C02 car should be designed. (Tr. 733-734). Mr. Hill often pulled out pieces of paper and made sketches. During the summer of 1985, Mr. Hill described a potential design for a C02 car to Mr. Jenkins which included a false ceiling created by the use of a bunker. (Tr. 737). During this same time period, Mr. Hill also described this idea to a Mr. LeRoy Couture, a marketing manager with the Burlington Northern. (Def.’s Ex. 233 ¶ 13). Mr. Hill’s idea included use of vents along both sides of the ceiling bunker, as well as the use of corrugated walls on the end walls and the side walls and flooring of the ear. (Tr. 754). (Def.’s Ex. 235). Mr. Jenkins also saw Mr. Hill with blueprints regarding this design. (Id.; Tr. 747-49). Blueprints, which reflected Mr. Hill’s design, were prepared by Lamb-Weston’s engineering draftsman during the summer of 1985. (Tr. 96). 36. Mr. Hill’s employer, Lamb-Weston, was not interested in manufacturing railcars. It was interested in having someone else make them for Lamb-Weston’s use. (Tr. 266). 37. Mr. Weiner knew Mr. Hill because of the business relationship between Mt. Airy and Lamb-Weston. Mr. Weiner was familiar with the Burlington Northern cryogenic rail-cars because they had been off-loaded at Mt. Airy. Because of this, he also knew that the Burlington Northern cars — AFFX 2001 and 2002 (which were the AFFCAR prototypes) — had “hot spots” resulting in a thawing of frozen food product by the time the cars reached Mt. Airy. (Tr. 252). 38. Mr. Weiner recognized the commercial potential of cryogenic railcars as a replacement to mechanical cars. Mr. Weiner and Mr. Hill agreed to work together to build a new prototype cryogenic railcar. Mr. Weiner agreed to fund the construction of a new prototype. (Tr. 253-54). 39. Mr. Weiner and Mr. Hill acquired and modified one of the AFFCAR prototypes, the AFFX 2001, into a new design. However, because the previously used construction facilities were no longer available, Messrs. Weiner and Hill had to find another party to do the modification work they desired. (Tr. 254). 40. Mr. Hill first met James S. Moe of C.V. Engineering in October of 1985. (Tr. 99; Stip. No. 3). At all relevant times, the company was commonly referred to simply as Cryo-Van, a company principally operated by James S. Moe and Tom Maxwell. Mr. Hill’s initial meeting with Mr. Moe led him to believe that Cryo-Van had the capability of modifying the AFFX 2001 into his new design because Cryo-Van had the capability to manufacture fiberglass which was an important component of the new design. (Tr. 100-101). 41. In late 1984, James Moe, with the assistance of Tom Maxwell, designed and developed a cryogenically refrigerated “all purpose container” for the transport of frozen fish. Mr. Moe is a natural mechanic with cryogenic experience. His real expertise is in design and finding creative practical solutions to mechanical problems. The container included a bunker (or tray) extending the full length and width of the container to serve as a false ceiling above the fish cargo and upon which solid carbon dioxide was placed. The bunker served the same purpose as all bunkers holding refrigerants such as solid carbon dioxide, to-wit: to prevent direct contact of the refrigerant with the cargo below and, thus, avoiding overfreezing of the top of the load. Cryo-Van’s bunker was formed with vent openings along the side walls of the container to permit sublimated carbon dioxide gas to flow naturally down from the bunker to the cargo below. 42. In October of 1985, Mr. Hill sent blueprints of his design and of the original railcar which was to be converted into the new design (the AFFX 2001), to Cryo-Van. (Tr. 100). Mr. Moe ultimately threw away the blueprints sent to him by Mr. Hill. (Tr. 903). After receiving blueprints from Mr. Hill, C.V. Engineering submitted a bid to Mr. Hill in the amount of $22,150 by letter dated October 29, 1985. (Def.’s Ex. 21). This letter specifically acknowledges receipt of the blueprints from Mr. Hill and itemizes in detail the various changes requested by Mr. Hill for modification of the AFFX 2001 into the new design which ultimately became known as the CRYX 1000. (Id.) Mr. Moe acknowledged that Mr. Hill’s prior designs included a bunker-type compartment. (Pi’s Ex. HP at 690). 43. Cryo-Van converted the AFFX 2001 to the CRYX 1000. Although who actually designed the CRYX 1000 is not without some controversy, the evidence indicates that it is more likely than not that Mr. Hill principally designed the CRYX 1000. 44. The October 29, 1985 letter from Cryo-Van to Ralph Hill, while he was at Lamb Weston, Inc., confirms that the blueprints were sent to Cryo-Van by Mr. Hill. The first paragraph of the letter reads in pertinent part as follows: I [Tom Maxwell, General Manager of Cryo-Van] also thank you [Ralph Hill] very much for your prompt arrangement for expediting your blueprints on above matter____ The Court specifically finds by a preponderance of the trial evidence that it is more likely than not that this language referred to blueprints of Mr. Hill’s design. 45. The second full paragraph of the October 29, 1985 letter reads in pertinent part as follows: Pursuant to our recent discussion on refurbished rail car # 2001 to B[u]nker type rail car, we would like to offer you our proposal after carefully review[ing] your blueprints as follows: * * * * * * 2. To remove existing end wall skins and install a vent from plenums to upper extremity of the end walls, 3. To make up and install a plenum at each end of the All-Air floor to connect to the vent to relieve the flash gas from the car at floor level, this insures that all the gas is used for cooling before being emitted to the outside, # * * * * * 5. To install Fluted fiberglass panels on the end walls, 6. To install bunker system designed and built by C.V. System Engineering, Inc. 7. To install a single centered C02 manifold designed and built by C.V. System Engineering, Inc. with load, test and bleed controls under the car at one end. * * * * * * 10. To remove the existing floor, tanks and grid work that now make up floor, 11. To build up from the sub-floor to the base for the All-Air floor, 12. To install an All-Air floor. Although Cryo-Van helped to improve the original Hill design, this letter does not, contrary to GATC’s position, indicate that CryoVan principally invented the CRYX 1000. Messrs. Moe and Maxwell used Mr. Hill’s blueprints and the shell of the AFFX 2001 railcar to complete the construction of the CRYK 1000. 46. A December 10, 1985 letter from Mr. Marvin H. Weiner to Mr. M. Tom Maxwell, General Manager of C.V. System Engineering, Inc., states as follows: Dear Tom: You should by now have received AFFX 2001 (hereinafter referred to as CRYX 1000) for refurbishment---- The body of this letter contains the following paragraph: It is also my understanding from Ralph [Hill] that he has discussed the matter of patent searches, clearances and indemnification with you. Indemnification should be for Lamb-Weston, Ralph and myself personally, Cryo-Trans and Mt. Airy Cold Storage. Based on the ultimate performance of CRYX 1000, we see this as the forerunner of mutually exciting times for all of us. At the time of this letter, Messrs. Hill and Weiner were concerned that Cryo-Van’s liquid C02 bunker-style refrigeration system might be alleged to infringe the Rubin Carbonaire Plate C02 Snow Bunker System. (Pl.’s Ex. HP at 749). In the Rubin Patent [U.S. Letters Pat. No. 3,561,266], carbon dioxide gas was expanded within containers [bunkers] at the top of the vehicle storage area so as to form a deposit of snow within the containers. (Pl.’s Ex. AL). The snow provided a cold surface on the bottom of the containers to cool the circulating air within the vehicle. In addition, in one embodiment, a single vent was provided in each container to permit carbon dioxide gas to flow into the storage area. In another embodiment, the carbon dioxide gas was vented to the atmosphere outside of the container. There were concerns over a possible patent suit by Burlington Northern. (Def.’s Ex. 39). These concerns ultimately led to a proposed Patent License Agreement between Cryo-Trans and Burlington Northern. (Def.’s Exs. 27, 29, 35, 36; Pl.’s Ex. HP at 745). Cryo-Trans also entered into a Patent License Agreement with the owner of the Rubin Patent. (Tr. 259-264; Def.’s Ex. 48). Given this background, Messrs. Weiner and Hill’s desire to obtain a “hold harmless” indemnification from Cryo-Van was understandable. 47. Cryo-Trans’ request for “hold harmless” indemnification was accepted by CryoVan by letter dated December 12, 1985. In closing, the letter stated the following: Regarding a patent, our attorney of Washington, D.C. indicated there is no such patent [that] was applied [for in] recent year[s], however, as you understand, we are going to apply our concept as patent as soon as possible. In this letter Messrs. Moe and Maxwell never claimed that they were the principal designers of the CRYX 1000. If they had been, it is extremely unlikely that they would have agreed to Mr. Weiner’s “hold harmless” request without some reciprocal business consideration. 48. A February 4, 1986 letter written by Cryo-Van to Mr. Weiner upon the completion of the CRYX 1000 also makes no claim that Cryo-Van had designed the CRYX 1000. Instead, this letter merely refers to the “refurbishment of your CRYX 1000”. (Def.’s Ex. 28). 49. Mr. Moe has no credible documentation which clearly and convincingly indicates that he conceived of the invention defined in the ’876 Patent prior to the time the invention was conceived by Mr. Hill. The earliest documentation that Mr. Moe has which allegedly supports any claim of inventorship by him is a sketch of a C02 container having a manifold and exhaust system, which was sealed and mailed on December 17, 1985— after Mr. Moe had met Messrs. Hill and Weiner. (Pl.’s Ex. AK). The documentation submitted by GATC as evidence that Mr. Moe was the true inventor does not clearly contradict Mr. Hill’s claim of inventorship. This Court specifically finds that the testimony of Messrs. Hill and Weiner about the development and invention of the ’876 Patent was corroborated by admissible evidence and that Mr. Moe’s testimony concerning the same issue was not. Unlike Mr. Hill, Mr. Moe had no historical involvement in the development of cryogenically refrigerated railcars. Mr. Moe had no experience with railcars or with C02 manifold systems prior to building the CRYX 1000 for Cryo-Trans. 50. From 1983 to 1988, Mr. David Burgener served as Food Program Manager and/or Director of Applications for the Cardox Corporation. This position gave him engineering and marketing responsibilities with respect to the use of solid or liquid carbon dioxide for the refrigeration of food supplies. As part of the management of Cardox Corporation, Mr. Burgener was aware that a committee of the American Frozen Food Institute was exploring the feasibility of non-mechanical, cryogenic refrigeration for food shipments on railcars, and that Cardox was being solicited as a supplier of the liquid carbon dioxide to be used in such cryogenically refrigerated railcars. Cardox was at that time, and long has been, in the business of selling solid or liquid carbon dioxide for use in refrigeration systems. 51. In March of 1986, Mr. Burgener witnessed the maiden voyage and unloading of the CRYX 1000 at the Mt. Airy Cold Storage warehouse in Mt. Airy, Maryland. The unloading of the CRYX 1000 occurred on March 14,1986 at Cryo-Trans’ Mt. Airy Cold Storage warehouse in Mt. Airy, Maryland. At the unloading were representatives from Mt. Airy Cold Storage, Lamb-Weston, Liquid Air-Cardox, and the Burlington Northern Railroad. The unloading was also not a secret event. All who attended were there at the invitation of defendant Cryo-Trans’ chief executive officer, Mr. Weiner and/or Mr. Hill. 52. A July 2,1986 letter from Mr. Weiner to Mr. Hill, which significantly predates this controversy and resulting litigation, also documents that Mr. Hill was the inventor of the CRYX 1001 design. (Def.’s Ex. 38). 53. On August 12, 1986, Ralph Hill, while still a Lamb-Weston employee, filed a patent application for the cryogenic refrigeration system at issue. The Hill patent application was prepared by Lamb-Weston’s attorney, Kenneth Klarquist. (Stip. No. 8). He did not have a copy of the original design blueprints in his file. He did have a copy of a sketch of the railcar reflecting changes to be made at Mells Cargo from the original CRYX 1000, which he could use to describe the best mode of the patented invention. (Klarquist Dep. at 103; Tr. 546). 54. Kenneth Klarquist, received, but did not disclose to the Patent Office, the Kurth British Patent 399,678 (Stip. No. 10; Pl.’s Ex. CR) (“the Kurth Patent”). Klarquist received the Kurth Patent and other prior art patents from Mr. David Abrams, who was Mr. Weiner’s patent attorney. (Stip. No. 9). Klarquist indicated that his usual practice was that he would, in fact, have received such materials, and supplemented the disclosure already made to the Patent Office if he believed it was appropriate. (Klarquist Dep. at 63, 66-68). 55. The Kurth Patent (Pl.’s Ex. CR) discloses a cryogenic refrigerated railcar with an overhead solid carbon dioxide bunker system having a plurality of openings arranged along the side walls for downward flow into the cargo area of sublimated C02 gas. (Pl.’s Ex. CR; Tr. 582, 599). 56. On or about December 2, 1986, the Patent and Trademark Office of the United States Department of Commerce rejected Mr. Hill’s patent application stating: The following ... quotation of 35 U.S.C. 103 ... [is] the basis for all obvious rejections set forth in this Office: A patent may not be obtained though the invention is not identically disclosed or described as set forth in section 102 of this title, if the differences between the subject matter sought to be patented and the prior art are such that the subject matter as a whole would have been obvious at the time the invention was made to a person having ordinary skill in the art to which said subject matter pertains. Patentability shall not be negatived by the manner in which the invention was made. Subject matter developed by another person, which qualifies as prior art only under subsection (f) and (g) of section 102 of this title, shall not preclude patentability under this section where the subject matter and the claimed invention were, at the time the invention was made, owned by the same person or subject to an obligation of assignment to the same person. Claims 1-6 are rejected under 35 U.S.C. 103 as being unpatentable over Fink et al or Cryogenic Rail Car in view of Hall. It would [be] obvious to modify either Fink et al or Cryogenic Rail Car to arrange the C02 flow within the wall channels for sinuous flow as taught in Hall Fig. 7. (Pl.’s Ex. 2). To obtain reconsideration of this denial, Hill amended Claims 1 and 6 of the Application to stress the corrugated nature of the containers’ walls. (Pl.’s Ex. 2). 57. On November 10, 1987, Hill’s application was granted, and the ’876 Patent was issued. The ’876 Patent states that “it is an object of the invention to provide a railcar construction utilizing carbon dioxide snow as the refrigerant wherein all the contents of the car will be maintained within desirable temperature limits during shipment.” (Def.’s Ex. 200). The invention relates to a refrigeration system for vehicles, and more particularly to the construction of storage compartments for utilizing carbon dioxide as a refrigerant in transporting products by vehicles such as trucks, trailers, railcars and the like. In April of 1990, Cryo-Trans acquired the ’876 Patent from Lamb-Weston. (Def.’s Ex. 142). 58. Mr. Hill testified he last saw the original blueprints at Lamb-Weston. (Tr. 124). During the proceedings in this case, Mr. Hill was unable to produce the original blueprints that led to the ’876 Patent. In 1988, after Mr. Hill’s departure, Lamb-Weston was sold to Con-Agra, Inc. Thereafter Lamb-Weston’s headquarters were moved from Portland, Oregon to Pasco, Washington and a substantial number of business records from Lamb-Weston were discarded. (Stip. No. 27). The original blueprints may have been discarded by Lamb-Weston. 59. Claim 1 of the ’876 Patent is an independent claim from which the other claims— claims 2 through 3 — depend: Claim 1. In a container adapted to be maintained in a refrigerated condition from the sublimation of carbon dioxide snow the combination comprising: a storage area defined by a floor, a pair of opposed side walls, a pair of opposed end walls, and a ceiling means; an insulated roof positioned above said ceiling means and defining therewith a compartment for supporting a supply of carbon dioxide snow, said compartment extending substantially the full length of said car; means in said compartment for forming carbon dioxide snow and means for connecting said carbon dioxide snow forming means to a supply of liquid carbon dioxide; a plurality of openings through said ceiling means adjacent each of said side walls and end walls for permitting the flow of sublimated carbon dioxide gas from said compartment; each of said walls being corrugated to define a plurality of channels therein open-sided toward the interior of the container whereby said carbon dioxide gas may flow from said openings in said ceiling means downwardly through said channels between said walls and a product load disposed in said container toward said floor. Claims 2 and 3 of the patent incorporate all of the limitations of claim 1. In addition to that which is recited in claim 1, claim 2 calls for the “ceiling”, or bunker floor, to be insulated to resist heat transfer therethrough: Claim 2. The container of claim 1 wherein said ceiling means comprises a layer of insulation to inhibit the transfer of heat through said ceiling means from said storage area. In addition to the limitations of claim 1, claim 3 states that the floor of the container is formed with a plurality of open top channels extending from one end wall to the other: Claim 3. The container of claim 1 wherein said floor is defined by a plurality load supporting elements defining open top floor channels extending substantially from one end wall to the other. 60. Immediately prior to trial, CryoTrans limited its claim for infringement of the ’876 Patent to any of Claims 1, 2 and 3. (Final Pretrial Order: Waiver of Claims). 61. The term “adjacent” as used in patents means not necessarily at but nearby or near. (Tr. 539). 62. On November 8, 1977, United States Letters Patent, No. 4,057,367 was issued to Mr. James S. Moe, and Messrs. Marvin B. Carter and Ray L. Carter for their invention of a “Combined Rotary-Reciprocating Piston Compressor” to-wit: “[a] compact but high volume displacement, relatively noiseless and vibration free compressor for refrigeration gas or the like combining a rotary drive input with six cylinders and three reciprocating pistons within a rotor housed in a stator.” (Pl.’s Ex. AY). 63. On August 9, 1988, United States Letters Patent, No. 4,761,969 issued to Mr. James. S. Moe for the invention of “[a] non-mechanical refrigeration system particularly for use in a large insulated container such as a truck or railroad car for maintaining perishables at a desired low temperature during shipment. A cryogenic material such as liquid CO2 is used in a plurality of modes to permit or prevent exposure of the foodstuffs to CO2 vapors.” (PL’s Ex. AZ). 64. Mr. Moe never sought to patent an invention exactly like the ’876 Patent and his attorney never challenged the issuance of the ’876 Patent to Mr. Hill. 65. The cryogenic refrigeration system covered by the ’876 Patent at issue in this case, is essentially [a] railcar refrigerated by carbon dioxide snow [with a] compartment at top for containing a supply of such snow. Openings are provided along each side and end wall for escape of carbon dioxide gas from [the] compartment so it can flow down along each side of load and envelop same. Floor of car is formed with longitudinal channels with manifolds at ends of car to cause flow of gas toward one end along side walls and then through interior channels to discharge opening at opposite end. 66. Columns 1 and 2 of the specification text of the ’876 Patent make reference to and distinguish the subject invention from such prior art as the Fink patent, which refers to a bunker-style eryogenically refrigerated railcar, and the AFFX 2001 railcar. As concerns the AFFX 2001 railcar, the ’876 Patent notes as a problem the direct deposit of carbon dioxide snow on the cargo load, causing overfreezing at exposed parts of the load. The Fink patent is acknowledged to disclose a bunker to contain carbon dioxide snow out of contact with the load, but is reported to not be effective in enveloping the load with cold carbon dioxide gas since the openings in the bunker floor are only along one side wall of the car. (PL’s Ex. A). 67. The specification text and drawings of the ’876 Patent describe a railcar refrigerated by carbon dioxide snow which is deposited in a compartment or bunker beneath the roof of the railcar and overlying the cargo area of the railcar. The use of carbon dioxide as a refrigerant and the use of a bunker to hold carbon dioxide snow is all part of and taught by the prior art. Openings are provided along each side and end wall of the bunker floor through which sublimating carbon dioxide gas escapes from the bunker to flow down along the side walls and end walls of the car, enveloping the cargo. The use of openings in the ceiling of or in a bunker beneath the roof of a container to allow carbon dioxide gas to escape to and envelop the cargo below is all part of and taught by the prior art. Each of the cargo area walls is formed with sinuous channels to permit the flow of the carbon dioxide gas towards the floor beneath the cargo. The use of channeled or corrugated walls to permit the flow of the carbon dioxide gas towards the floor beneath the cargo, and the use of sinuous channels for this purpose is all part of and taught by the prior art. The floor of the ear is formed with open top lengthwise channels to receive the carbon dioxide gas and conduct it to one end of the car containing a discharge vent communicating with the atmosphere exterior to the rail-car. The use of all-air flooring, including the use of open top lengthwise channels to receive the carbon dioxide gas, was all part of and taught by the prior art. 68. But for the lack of a “compartment” the third clause of claim 1, to-wit: means in said compartment for forming carbon dioxide snow and means for connecting said carbon dioxide snow forming means to a supply of liquid carbon dioxide Would read on the AFFX 2001 railcar. 69. The ’876 Patent specification describes the invention arrangement as effecting a flow of cold carbon dioxide gas from the bunker area to envelop the cargo load in the car. “... because the cold carbon dioxide gas is flowing downwardly on each of the opposite sides and on the ends of the car and in direct contact with the bottom of the load, all parts of the load will be maintained at a desirably low temperature to preserve the quality of the product shipment.” 70. Because of concerns Mr. Weiner had about C.V. Engineering’s ability to quickly construct further CRYX 1000 cars, the CRYX 1000 was sent to Mells Cargo, Inc. (“Mells”) in Sacramento, California, an established business with extensive experience in working with railcars. (Tr. 105). 71. Mells rebuilt the CRYX 1000 bunker system and other components of the ear. After Mells rebuilt the CRYX 1000, Weiner contracted with Mells to retrofit the first 150 used cars of Cryo-Trans “C” plate fleet. (Tr. 267-68). 72. The original CRYX 1000 included vertical ducts, which served as exhaust vents, which were designed by C.V. Engineering. These ducts were not included in the ’876 Patent and were removed at Mells. Mells also rebuilt the flooring in the CRYX 1000. (Tr. 106). 73. Mr. Weiner personally borrowed $8.5 million in order to purchase used mechanical cars and rebuild them into the first 150 cars of Cryo-Trans’ “C” plate fleet. (Tr. 267). Thereafter, Mr. Weiner incorporated CryoTrans and began entering into leasing agreements with Lamb-Weston and other food processors. While mass construction of the CRYX 1000 was underway, problems developed relating to its manifold pressure which caused the roofs of the railcars to be ruptured. Cryo-Trans spent close to $1 million working out these problems to improve the CRYX 1000. (Tr. 269-70). 74. During the ’876 Patent Application, Lamb-Weston’s patent attorney described the Mells’ modified version of the CRYX 1000 to the patent examiner. (Tr. 546). 75. Shortly after Cryo-Trans began construction of its “C” plate fleet, Mr. Weiner conceived of an improved “high cube” version of Mr. Hill’s design. Instead of being limited by the size of the “C” plate shell, Mr. Weiner’s high cube design optimized interior car dimensions to fit the size of the boxes used as product packaging by various food processors. 76. Commencing in the Spring of 1987, Mr. Weiner approached Gunderson, Inc. (“Gunderson”) in Portland, Oregon to arrange for the production of a prototype high cube car. Gunderson’s engineering department, working in conjunction with Mr. Weiner, developed a comprehensive set of blueprints for the car which Gunderson labeled the ‘Weinermobile”. (Def.’s Ex. 85; Tr. 274). 77. Gunderson built the shell of the high cube car in the Fall of 1987. The car was then moved to Mells where the C02 bunker system and walls were installed in accordance with Hill’s design, as well as other structures. The car also included a customized “high profile” plug door designed specifically for Cryo-Trans by Youngstown Door Company in Ohio. (Tr. 284). 78. After two years of testing, CryoTrans was able to lease fifty high cube production cars in 1989 or early 1990. (Tr. 276-79). By that time, Cryo-Trans had increased its “C” plate fleet to a total of 222 cars which were under lease. 79. The food processors who leased Cryo-Trans’ cars were able to ship their product at a transportation cost that was considerably lower than the cost of using the older, mechanical cars. (Tr. 285-86). 80. Lewis Tyree was an inventor who was active in AFFCAR and who was paid to work on inventions to increase the use of C02. It was in his financial interest to come up with an invention similar to the ’876 Patent. He did not. (Def.’s Ex. 224 ¶33). The same financial incentive applied to David Burgener yet he also did not invent the ’876 Patent. (Tr. 988). 81. Burlington Northern had an interest in building a C02 railcar that worked. Burlington Northern did not conceive of the ’876 Patent design. Instead, it built 75 C02 rail-cars employing the Fink and Habel Patent design, which were not effective. 82. GATC has over 61,000 cars of all types under lease. (Tr. 353). In late 1990, GATC decided it had to promptly get into the cryogenic railcar market and copy CryoTrans’ high cube ear. (Def.’s Ex. 226, Tr. 334-36, 398). 83. GATC recognized it needed the ’876 Patent to get involved in the marketplace and tried to hire Mr. Hill. (Tr. 375-77; Def.’s Ex. 223). 84. GATC had Gunderson make a shell identical to the Cryo-Trans high cube car. Gunderson also provided GATC with a set of engineering drawings it had originally made for Weiner and Cryo-Trans. (Def.’s Exs. 127, 131, 133; Tr. 467-69). 85. GATC then moved the shell from Gunderson’s to Mells for completion of the interior. The GATC car was completed by Mells along with the identical cars Mells was completing for Cryo-Trans. (Tr. 392). 86. GATC spent $130,000 to have a prototype copy of Cryo-Trans’ railcar built as a tag-along order to the Cryo-Trans ears being built. (Tr. 338). 87. The prototype railcar GARX 68000 was originally produced with openings in the bunker floor adjacent the end walls of the car. In April, 1991, after this lawsuit was filed, GATC blocked up these end wall openings before commencing production of the Areticar railcar design. From its first demonstration run in December 1990 to April 1991, GATC admits the GARX 68000 car literally infringed claims 1, 2, and 3 of the Hill ’876 Patent, if valid and enforceable. (Stip. No. 25). 88. The Areticar is cryogenically refrigerated with carbon dioxide snow deposited in a bunker area beneath the roof of the ear. The source of the snow is a manifold pipe mounted along the roof and length of the car, and connected to a source of liquid carbon dioxide for charging the bunker. The floor of the bunker area serves as the ceiling to the cargo area beneath. The walls of the Areticar in the cargo area are formed with corrugated, open channels extending from the bunker floor to the floor of the car. 89. The bunker floor vent opening arrangement in the Areticar is as shown in Plaintiffs Exhibit CG. The bunker floor is provided with openings along both side walls (which are disposed 6 inches from the side walls and no closer to any end wall than 3 feet) and a row of openings along the center line of the bunker floor (which are disposed % feet from each side wall and no closer than 6 feet from an end wall). The vent opening arrangement in the Areticar bunker floor provides a cooling flow which, in the form of sublimated carbon dioxide gas, passes from the bunker area down along both side walls of the railcar and also through the center line openings into a dispersement chamber on top of the load. The gas deposited into the central dispersement chamber on top of the load radiates over the top of the load to permeate through the load and/or spread out over the top of the load to pass down along the side or end of the load wherever a pressure differential occurs accommodating such a flow. 90. The only significant change made to the GARX 68000 in its transformation into the Areticar, relative to claims 1, 2 and 3 of the Hill ’876 Patent, was the elimination of the ceiling bunker vents on each of the end walls of the railcar. (Stip. No. 26). 91. In designing the Areticar production railcar, GATC was cognizant of the ’876 Patent and eliminated end wall vents on the bunker floor system precisely to avoid infringement of the ’876 Patent. (Tr. 521-22). 92. Mr. Mowatfr-Larssen, GATC’s engineer, admitted that the Areticar does not work any differently than the first GATC prototype in the way the load is cooled. (Tr. 486). 93. The Court’s own observation and inspection of the Areticar disclosed that it did not work any differently than the CryoTrans high cube car. 94. GATC copied the design of the CryoTrans high cube car after the commercial viability of the technology was proven by Cryo-Trans. 95. There is no perceptible market difference between the Cryo-Trans railcar and the Arcticar. (Tr. 341, 360-61; Def.’s Ex. 186). 96. Prior to the introduction of the Arctiear production railcar, GATC sought and obtained the advice of outside patent counsel concerning its possible infringement of the ’876 Patent. In a written opinion dated November 16, 1990, GATC was advised by outside patent counsel that its Arcticar production railcar design did not infringe the ’876 Patent. (Tr. 512-18; Pl.’s Ex. HI). 97. GATC has produced and leased approximately 80 Arcticar railcars. (Stip. No. 16). 98. At the time of trial GATC also had orders for 100 more Arcticar railcars. (Tr. 360). 99. The ’876 Patent design has enjoyed a high degree of commercial success, not only from the standpoint of reducing transportation costs for food processors, but also from the standpoint of making Cryo-Trans a profitable leasing company. The ’876 Patent design has been accepted by the industry. (Tr. 371; Def.’s Ex. 223). This was the main reason GATC decided to enter the market. 100. The ’876 Patent design solved a long felt transportation problem for frozen food processors, who were searching for a viable solution since 1980 to the poor economic and maintenance viability of old railroad mechanical cars. This is especially true in view of our planet’s confirmed environmental and related climate problems which have led to new record hot temperatures throughout our country during the last several years. CONCLUSIONS OF LAW 1. Cryo-Trans has the burden of proving by a preponderance of the evidence that GATC’s Arcticar falls within the scope of Claim 1 of the ’876 Patent. Lemelson v. United States, 752 F.2d 1538, 1547 (Fed.Cir. 1985). Literal infringement is found when the accused device embodies all the elements of the claimed invention. Mannesmann Demag Corp. v. Engineered Metal Prods. Co., 793 F.2d 1279, 1282 (Fed.Cir.1986), Texas Instruments Inc. v. United States Int’l Trade Comm’n, 988 F.2d 1165, 1171 (Fed. Cir.1993). If the Arcticar is found to have at least each and every feature specified in Claim 1, then the claim is literally infringed. Read Corp. v. Portec, Inc., 970 F.2d 816, 821 (Fed.Cir.1992). Even if all of the features of the Claim are not literally present, under the “doctrine of equivalents”, infringement may be found if the Arcticar performs substantially the same function, in substantially the same way, to achieve substantially the same result as the subject matter of the claim. Id. at 821; Black & Decker, Inc. v. Hoover Serv. Ctr., 886 F.2d 1285, 1293-94 (Fed.Cir.1989). 2. The construction of a patent claim is a matter of law which can be determined by a review of all relevant evidence including the patent’s prosecution history and extrinsic evidence regarding the true meaning of the language employed in the patent. Markman v. Westview Instruments, Inc., 52 F.3d 967, 977-79 (Fed.Cir.1995). It is undisputed that GATC’s production version of the Arcticar has each and every element of Claim 1 of the ’876 Patent except bunker vents “adjacent” to the end walls. (Trial Stip. No. 17). In the Arcticar, the vents nearest each end wall are 2 feet, 9 inches away (Tr. 480). The Arcticar has an interior length of 67 feet, 8 inches, which is identical to the Cryo-Trans car. (Trial Stip. No. 21; Tr. 279-280). Its end-most bunker vents are less than five percent of the distance measured from end to end of the car. Because the terms of a Claim “will be given their ordinary meaning, unless it appears that the inventor used them differently” this Court finds on the basis of all of the relevant evidence that the term “adjacent” as used in the ’876 Patent means “not far off’. (Ex. 134; Tr. 539). See ZMI Corp. v. Cardiac Resuscitator Corp., 844 F.2d 1576, 1579 (Fed. Cir.1988). Since the vents nearest the end walls of the Arcticar are “not far off’, this Court finds the Arcticar within the scope of the meaning of “adjacent” as used in Claim 1. 3. The purpose of the bunker vents of the ’876 Patent is to facilitate the passage of sublimating CO2 along the corrugations making up the walls of the car. The Areticar’s bunker vents are close enough to provide the same function. Given the proximity of the Arcticar bunker vents to the end walls, the Arcticar literally inflinges the ’876 Patent. 4. Based on the Court’s careful review of all the admissible evidence as well as its personal observation of the two cryogenic railcars, the Court finds that the GATC ARCTICAR is simply a copy of the CryoTrans car. The Court’s own physical inspection of the Cryo-Trans and Arcticar disclosed that both ears operate in essentially the same manner. The Arcticar performs substantially the same function, in substantially the same way, to achieve substantially the same result as the invention defined in the ’876 Patent. (Tr. 540-45, 1084; Def.’s Ex. 234 ¶25, Appendices A & B). Thus, Cryo-Trans has carried its burden of proof of establishing that the Arcticar infringes Claim 1 of the ’876 Patent under the doctrine of equivalents. Graver Tank & Mfg. Co. v. Linde Air Prods. Co., 339 U.S. 605, 70 S.Ct. 854, 94 L.Ed. 1097 (1950). 5. The ARCTICAR has an insulated bunker floor which is the same as the subject matter specified in Claim 2 of the ’876 Patent. Claim 2 is therefore literally infringed. 6. The ARCTICAR has a plurality of floor ribs or slats which are the same thing as the subject matter specified in Claim 3 of the ’876 Patent. Claim 3 is therefore literally infringed. 7. Cryo-Trans has satisfied its burden of proof in establishing by a preponderance of evidence that the GATC ARCTICAR literally inflinges Claims 1, 2 and 3 of the ’876 Patent. Alternatively, Cryo-Trans has established that the GATC ARCTI