January-February 2019 NPJ

14 NuclearPlantJournal.com Nuclear Plant Journal, January-February 2019 New Products, Services & Contracts New Products Retro-Fit Glove Port Central Research Laboratories® (CRL), a global leader in the remote- handling industry, has developed Retro- Fit Glove Ports that allow users to transform their non-Push-Through Glove Ports into Push-Through Glove Ports capable of utilizing all of CRL’s Push- Through technologies. To install, the Retro-Fit Glove Port is simply placed over the existing port and securely mounted to the glovebox. Using CRL’s Ejection Tool, the glove assembly is then securely installed into the port and ready for use. Glove and accessory changes can be quickly and safely performed at any point without losing containment. The Retro-Fit Glove Ports are currently available for mounting onto 8-inch round glove port rings. Different configurations can also be accommodated to convert any existing port to utilize push-through technology. Contact CRL for more information on customization options. Contact: Darren Wight, DeanHouston, Inc., telephone: (513) 280-0047, email: Dwight@deanhouston. com. Digital Safety System Curtiss-Wright and RadICS LLC announced a technical and marketing partnership agreement. Curtiss-Wright will market the Radiy RadICS digital safety system platform exclusively in the United States. Curtiss-Wright’s Idaho Falls operations will be the US integration center of excellence for the RadICS-based systems. System design, configuration and programming will be managed under the long-standing 10CFR50 Appendix B program at this facility. The Idaho Falls office will also be the domestic stocking facility for all RadICS system components and a direct exchange facility for any in-service devices. RadICS is IEC 61508 SIL 3 (in a single channel configuration), NRC safety certified digital safety system platform. This FPGA based safety platform is the core of Curtiss-Wright’s Digital Safety System and is suitable for installation in any nuclear power generating facility to replace existing digital or analog safety systems. The system is both hardware and software diverse making it the only fully deterministic solution available today. RadICS is designed to easily fulfill all cyber requirements. By virtue of its’ diverse hardware and software and its’ “fail-to-safe-state” design, it is immune to digital system Common Cause Failures. In fact, it is licensable today under existing rules and guidelines without fear of the risk and uncertainties associated with earlier less secure and robust designs. Radiy is a pioneer in the design, manufacturing, and installation of FPGA-based digital instrumentation and control (DI&C) systems for nuclear power plants and research reactors. With over 100 systems installed to-date and successful SIL 3 certification for the RadICS platform, Radiy’s demonstrated technological expertise is paving the way for increased safety and efficiency in the nuclear field. The RadICS design is both hardware, utilizing FPGA and CPLD technology, and software diverse eliminating common cause failure licensing concerns. The Safety Evaluation Report (SER) will be released by the NRC in the Spring of 2019. Curtiss-Wrightwilldesign,configure, manage and test the RadICS platform under their 10CFR50 Appendix B quality program. System development and Factory Acceptance Testing for systems will be performed in the secure Idaho Falls facility that meets all of the NRC requirements for a Secure Development and Operational Environment (SDOE). These development and test facilities ensure direct and immediate support of plant operations in the US. A full complement of modules and associated materials is maintained at the Idaho facility to support the 24/7 direct exchange maintenance program. Contact: Curtiss-Wright, telephone: (208) 497-3333, email: dss-sales@ curtisswright.com. Arc Welding Westinghouse Electric Company has optimized its process of applying hardfacing overlay for wear resistance through the use of computerized Plasma Transferred Arc Welding. The first two products that have been delivered were shaft sleeves for reactor coolant pumps, which were produced in one-third of the time it would take with conventional methods, reducing the schedule to complete each sleeve by several days. The automated PTAW process uses powder instead of traditional solid rods and is applied in very consistent bands, which significantly reduces the amount Retro-Fit Glove Port. Plasma Transferred Arc Welding. Digital Safety System Platform.