Latest news with #GA-EMS
Miami Herald
04-08-2025
- Business
- Miami Herald
General Atomics Electromagnetic Systems Highlights Its Missile Defense Portfolio at the 2025 Space and Missile Defense Symposium
HUNTSVILLE, AL / ACCESS Newswire / August 4, 2025 / General Atomics Electromagnetic Systems (GA-EMS) returns to the Space and Missile Defense Symposium to highlight its missile defense solutions supporting Golden Dome, a layered missile defense architecture designed to protect the nation from a range of advanced missile threats including hypersonic, ballistic and cruise missiles, as well as other airborne threats. GA-EMS will showcase the designs for their Bullseye™ missile and Long-Range Maneuvering Projectile (LRMP), with a 1:1 scale model and 1:2 scale model in their booth. The company has accelerated integration and testing of its missile defense technologies to demonstrate advanced capabilities and move rapidly toward field deployment. "Our LRMP aligns with dynamic defense requirements for improved long-range precision strikes and minimizes operational uncertainty by integrating into existing artillery systems," said Scott Forney, president of GA-EMS. "The next phase of full-system testing will validate the projectile's performance across complex scenarios and ensure seamless integration with missile defense frameworks." Bullseye is a Technology Readiness Level (TRL) 8 missile system that shares 80% of its components with combat-proven TRL 9 missile systems, fully validated through successful real-world operations. Attendees visiting Booth #531 will engage directly with GA-EMS experts to explore system designs and planned field-testing initiatives for both LRMP and Bullseye. GA-EMS will also feature its portfolio of laser weapon systems, hypersonics and sensor payloads for missile defense and tracking-offering greater flexibility and capability to support both offensive and defensive missions. About General Atomics Electromagnetic Systems General Atomics Electromagnetic Systems (GA-EMS) develops innovative technologies to create breakthrough solutions supporting operational environments from undersea to space. From electromagnetic, power generation and energy storage systems and space systems and satellites, to hypersonic, missile defense, and laser weapon systems, GA-EMS offers an expanding portfolio of capabilities for defense, government, and national security customers. GA-EMS also provides commercial products and services targeting hazardous waste remediation, oil and gas, and nuclear energy industries. For further information, visit Contact Information General Atomics Electromagnetic Systems Media Relations Media Relationsems-mediarelations@ SOURCE: General Atomics Electromagnetic Systems press release
Miami Herald
24-06-2025
- Business
- Miami Herald
General Atomics Achieves Another Milestone in Silicon Carbide Composite Nuclear Fuel Rod Technology
SAN DIEGO, CALIFORNIA / ACCESS Newswire / June 24, 2025 / General Atomics Electromagnetic Systems (GA-EMS) announced today that it has reached another significant milestone in the development and testing of its SiGA® Silicon Carbide (SiC) nuclear fuel cladding technology. Recent performance testing on GA-EMS' patented, localized SiC joining method has shown excellent performance under the corrosive water conditions expected in the current fleet of pressurized water nuclear reactors, marking a significant step in advancing the readiness of SiGA cladding for reactor testing. SiGA is an engineered, multilayer composite cladding structure that offers high temperature performance and other operational benefits for current and future nuclear reactors. "Our patented local joining process seals the fuel rods without exposing the nuclear fuel pellets to high temperature water," said Scott Forney, president of GA-EMS. "Our SiC cladding and localized joining method form a complete solution to fully and safely contain the solid fuel and enable it to withstand temperatures six times greater than the expected light-water, pressurized water reactor conditions. The local SiC joining process is also proving to reduce processing time, supporting the scale-up of efficient domestic manufacturing capability to provide safe accident tolerant fuel cladding for the nuclear fleet." Fuel cladding is a barrier between the reactor coolant and nuclear fuel pellets and is essential to protecting the fuel while also ensuring the safety of a nuclear power plant. Fuel is stacked into cladding tubes and the ends of the tubes are joined to form hermetic seals for the fuel rods. GA-EMS' SiGA cladding offers superior high temperature and irradiation resistance which can significantly improve the operating performance, economic efficiency, and safety of light water reactors. "We've successfully verified irradiation resistance of our ceramic joints at the Oak Ridge National Laboratory High Flux Isotope Reactor test reactor," said Dr. Christina Back, vice president of GA-EMS Nuclear Technologies and Materials. "Now, GA-EMS is working to evaluate the quality of the SiGA joints under the high temperature, high pressure, and corrosive water coolant environment expected in pressurized water reactors. We achieved a critical milestone this past month, with results confirming that joints fabricated by our local SiC joining process remained gas-tight after 180-days of exposure in Westinghouse's reactor coolant test facility. It is very exciting to be moving to the ultimate demonstration of joint performance testing in the Advanced Test Reactor at Idaho National Laboratory in the presence of both corrosive water coolant and neutron irradiation." Acknowledgment: Based upon work supported by the US Department of Energy under Award No. DE-NE0009235 "SiC Cladding Development." Contact InformationGeneral Atomics Electromagnetic Systems Media Relations ems-mediarelations@ SOURCE: General Atomics Electromagnetic Systems press release
Miami Herald
09-06-2025
- Business
- Miami Herald
General Atomics Demonstrates PFAS Destruction System for Minnesota Congresswoman, State and Local Officials
PERSES System Delivered to Lake Elmo Facility to Destroy PFAS Waste SAN DIEGO, CA / ACCESS Newswire / June 9, 2025 / General Atomics Electromagnetic Systems (GA-EMS) announced today that Minnesota Congresswoman Betty McCollum (D-MN) and other members of state and local government attended a real-time demonstration of the complete destruction of per- and polyfluoroalkyl (PFAS) waste streams using GA-EMS' PERSES™ waste destruction system at a site located in Lake Elmo, MN on Friday, May 30. The PERSES system is on-site at the Lake Elmo facility for a four-week period to demonstrate the system's industrial-scale capabilities to destroy a wide variety of PFAS and PFAS contaminated waste. The PERSES system will be shipped to other suitable test sites for additional on-site PFAS destruction testing and demonstrations. "This is an exciting day as we learn how to break down the toxic chemical bond of PFAS. Through Department of Defense investment and private-sector innovation, General Atomics has achieved an extraordinary scientific breakthrough by completing a successful PFAS remediation in a controlled setting," said Congresswoman McCollum. "But there's still work to be done. Now, we must focus on scaling this technology so that it can be a solution for communities and military installations at large to eliminate the threat of PFAS pollution." GA-EMS is conducting the on-site demonstrations under a contract award by Bay West LLC, an environmental and remediation company leading a research program funded by the U.S. Army Engineer Research and Development Center (ERDC) to deliver, install, and operate PERSES for multiple project demonstrations to destroy PFAS and PFAS contaminated waste. "We are extremely pleased to be working with Bay West and ERDC in welcoming Congresswoman McCollum, state, regional and local officials to witness the effectiveness of PERSES in the destruction of PFAS," said Scott Forney, president of GA-EMS. "On-site demonstrations such as this bring the power of PERSES directly into a community to demonstrate in person the system's capabilities to safely and efficiently eliminate PFAS from a broad range of waste media including landfill leachate, biosolid "sludge", soils and sediment, firefighting foam, and granular activated carbon and resin beads from filtration treatment systems. PERSES is the most effective tool in the waste remediation toolkit that can help bring an end to the forever cycle of PFAS contamination." PERSES utilizes GA-EMS' proven industrial Supercritical Water Oxidation (iSCWO) technology which has been in commercial use for more than a decade to effectively destroy PFAS and more than 200 hazardous and non-hazardous types of waste with 99.99% and greater efficiency. In a single process, PERSES destroys PFAS and PFAS waste with co-contaminants leaving behind only water, salts, and carbon dioxide which can be safely released into the environment with no post-treatment requirement. Bay West is a nationally recognized environmental consulting and remediation company headquartered in St. Paul, MN that provides solutions to government and commercial enterprises to navigate complex environmental concerns and ongoing remediation challenges. ERDC is an integral component of the Office of the Assistant Secretary of Defense for Research and Engineering and helps solve the nation's most challenging civil and military engineering, geospatial sciences, water resources, and environmental sciences for the Army, DoD, civilian agencies. SOURCE: General Atomics Electromagnetic Systems press release
Miami Herald
08-05-2025
- Business
- Miami Herald
General Atomics Awarded U.S. Space Force Contract for Phase 2 of the Enterprise Space Terminal Program
SAN DIEGO, CALIFORNIA / ACCESS Newswire / May 8, 2025 / General Atomics Electromagnetic Systems (GA-EMS) announced today that it has been awarded a contract by the U.S. Space Force (USSF) Space Systems Command (SSC) for Phase 2 of the Enterprise Space Terminal (EST) program. This Phase 2 contract award was issued through the Space Enterprise Consortium (SpEC) via an Other Transaction Agreement (OTA). The EST program is an enterprise optical communications solution to enhance mission effectiveness by providing resilient, high-capacity communication solutions for Department of Defense (DoD) space platforms operating primarily in beyond Low Earth Orbit (bLEO) regimes at crosslink ranges from 10,000 to 80,000 kilometers while maintaining the ability to operate in the LEO regime. "GA-EMS, under a Phase 1 contract award, leveraged its extensive Optical Communication Terminal (OCT) expertise to develop a design that can be efficiently scaled to deploy a mesh network enterprise of OCTs with capabilities to transfer large volumes of data between spacecraft and ground stations distributed across a wide spectrum of operational domains," said Scott Forney, president of GA-EMS. "We are excited to enter Phase 2 to advance our system design and begin the build and test of the OCT subsystems." Phase 2 will include lab demonstrations of OCT subsystems within a government provided test bed. GA-EMS will continue design and analyses activities to optimize the system designs. Testing results and analyses will then be presented during a Critical Design Review (CDR) at the end of Phase 2 period of performance. "The Phase 2 CDR will help inform the decision gate toward entering Phase 3 of the program, which will call for the assembly, test, and delivery of an integrated prototype OCT system for demonstration on a government provided test bed," said Gregg Burgess, vice president of GA-EMS Space Systems. "We look forward to delivering a robust, producible Optical Communication Terminal for the Space Force to ensure resilient space network connectivity for future National Security Space Architectures." GA-EMS completed the preliminary design of the payload support system, electrical hardware, laser terminal design, optical design and subsystem, thermal control, and command and data handling under the EST Phase 1 contract awarded in 2024. As prime contractor, GA-EMS has teamed with L3Harris for the modem subsystem and Advanced Space to provide performance modelling. SOURCE: General Atomics Electromagnetic Systems press release
Yahoo
08-05-2025
- Business
- Yahoo
General Atomics Awarded U.S. Space Force Contract for Phase 2 of the Enterprise Space Terminal Program
SAN DIEGO, CALIFORNIA / / May 8, 2025 / General Atomics Electromagnetic Systems (GA-EMS) announced today that it has been awarded a contract by the U.S. Space Force (USSF) Space Systems Command (SSC) for Phase 2 of the Enterprise Space Terminal (EST) program. This Phase 2 contract award was issued through the Space Enterprise Consortium (SpEC) via an Other Transaction Agreement (OTA). The EST program is an enterprise optical communications solution to enhance mission effectiveness by providing resilient, high-capacity communication solutions for Department of Defense (DoD) space platforms operating primarily in beyond Low Earth Orbit (bLEO) regimes at crosslink ranges from 10,000 to 80,000 kilometers while maintaining the ability to operate in the LEO regime. "GA-EMS, under a Phase 1 contract award, leveraged its extensive Optical Communication Terminal (OCT) expertise to develop a design that can be efficiently scaled to deploy a mesh network enterprise of OCTs with capabilities to transfer large volumes of data between spacecraft and ground stations distributed across a wide spectrum of operational domains," said Scott Forney, president of GA-EMS. "We are excited to enter Phase 2 to advance our system design and begin the build and test of the OCT subsystems." Phase 2 will include lab demonstrations of OCT subsystems within a government provided test bed. GA-EMS will continue design and analyses activities to optimize the system designs. Testing results and analyses will then be presented during a Critical Design Review (CDR) at the end of Phase 2 period of performance. "The Phase 2 CDR will help inform the decision gate toward entering Phase 3 of the program, which will call for the assembly, test, and delivery of an integrated prototype OCT system for demonstration on a government provided test bed," said Gregg Burgess, vice president of GA-EMS Space Systems. "We look forward to delivering a robust, producible Optical Communication Terminal for the Space Force to ensure resilient space network connectivity for future National Security Space Architectures." GA-EMS completed the preliminary design of the payload support system, electrical hardware, laser terminal design, optical design and subsystem, thermal control, and command and data handling under the EST Phase 1 contract awarded in 2024. As prime contractor, GA-EMS has teamed with L3Harris for the modem subsystem and Advanced Space to provide performance modelling. Contact Information General Atomics Electromagnetic Systems Media Relations ems-mediarelations@ SOURCE: General Atomics Electromagnetic Systems View the original press release on ACCESS Newswire
