The Westinghouse AP1000 ® Pressurized Water Reactor (PWR) is simply more advanced than other nuclear power plant technologies available today in the worldwide commercial marketplace.

The AP1000® full-scope simulator provides the capability to train plant operators in a replica control room that represents the control consoles, control panels and displays in the plant control rooms.

Westinghouse proudly brings 70 years of experience developing & implementing new nuclear technologies that enable, reliable, clean, safe and economical sources of energy for generations to come. Our AP300 SMR leverages tens of millions of hours on AP1000® reactor development. The AP300 SMR technology builds upon the success of AP1000 reactors currently operating around the globe.

Westinghouse has developed and continues to advance heat pipe technology and manufacturing processes through design, analysis tools and test capabilities. Westinghouse has also developed proprietary manufacturing processes for high performance heat pipes based on strict quality controlled techniques, procedures, and tooling.

"The eVinci Micro Reactor’s innovative design combines new technologies with 50+ years of commercial nuclear design and engineering and creates a cost competitive and resilient source of power with superior reliability and minimal maintenance. Its small size allows for transportability and rapid, on-site deployment in contrast to plants requiring large amounts of construction. eVinci can produce 5MWe with a 15MWth core design. The reactor core is designed to run for eight or more full power years before refueling."

The eVinci™ Microreactor's innovative design combines new technology advancements with 60+ years of commercial nuclear design and engineering, creating a cost-competitive and resilient source of zero-emissions power and heat with superior reliability and minimal maintenance. Its small size allows for transportability and rapid, on-site deployment. eVinci can produce 5MWe with a 13MWth core design. The reactor core is designed to run for eight or more years at full power before refueling.

Saskatchewan Research Council partners with Westinghouse to deploy the first-of-a-kind microreactor Saskatchewan is undergoing an energy transition. Microreactors will play a key role in providing sustainable electricity, heat and energy resilience across Canada’s north.

The eVinci™ Microreactor provides a cost competitive, flexible and resilient source of power and heat while enabling active nuclear research opportunities. The eVinci small size allows for flexible transportability and rapid on-site deployment. Westinghouse combines new technology with over 60 years of nuclear design and engineering experience to support research applications.

Helping Communities to Grow with emissions free and reliable heat and power generation.

The eVinci microreactor's innovative design combines new technologies with 60+ years of commercial nuclear design and engineering and creates a cost competitive and resilient source of power with superior reliability and minimal maintenance. Its small size allows for transportability and rapid, on-site deployment in contrast to plants requiring large amounts of construction. eVinci can produce 5MWe with a 13MWth core design. The reactor core is designed to run for eight or more full power years before refueling.

The world is gearing up for our next visit to the moon- but this time we plan to stay. It's time to grow, innovate, and build sustainable habitats beyond our planet. The moon has critical elements required for deep space exploration including water, rocket fuel, hydrogen, and oxygen which can be used to supply difficult missions to Mars and beyond. The eVinci Space Microreactor provides the energy security necessary for humans to thrive on the moon and continue exploration of the solar system.

Westinghouse continues to develop its next-generation, medium-capacity nuclear power plant based on lead-cooled fast reactor (LFR) technology. The delivery of commercially competitive, reliable, zero-emission clean and sustainable energy, with unparalleled safety and flexible operations, are Westinghouse’s key goals.

Pumped Thermal Energy Storage (PTES): Engineered to Fill the LDES Gap to Enable the Global Energy Transition.

The nuclear industry continues to experience significant pressure to reduce costs, yet the safe and efficient operation of nuclear power plants requires well-trained, highly competent staff. Research evidence from Mind, Brain and Education (MBE) science can improve the efficiency of nuclear industry training practices; but, instructors and instructional designers must first understand these findings to align content and instruction with how people learn most effectively and efficiently.

Westinghouse Electric Company is a world leader in the development and commercialization of nuclear power plants, with 70+ years of successful global experience in turning nuclear technologies from design to commercial products, globally.