The nuclear power industry knows Studsvik is the company for fuel management expertise and cutting-edge software. For almost 25 years, Studsvik has provided world-class software and services to address emerging issues and industry initiatives.
Studsvik software solutions and engineering services are used by nuclear power plants, fuel vendors, and safety authorities to calculate fuel and core configurations for optimum, reliable, and safe operation of nuclear power plants.
Studsvik offers a wide range of services to support nuclear fuel analysis efforts, such as independent core reload design and verification services. With over 25 years and thousands of operating cycles of experience in nuclear fuel analysis, Studsvik software remains the industry standard for light water reactor analysis. We have provided cycle design reviews, alternate core loading strategies, and fuel cycle optimization for customers in several countries.
Our team is made up of almost 50 engineers and software developers in offices throughout the world. We have a presence in the United States, Japan, Germany, Sweden, Norway, and Switzerland. Together, we speak over 10 languages, have analyzed reactors in more than 20 countries, and have 1,000 man-years of experience.
This unique mix of diversity, talent, and experience has allowed us to analyze every commercially available light water reactor design and fuel design in the world over thousands of operating cycles. More than 200 of the 440 nuclear reactor units in the world have used Studsvik products and the Studsvik core management software suite is used by almost 65% of the world's light water reactors.
Built with robust, first-principle physics modeling, advanced numerical techniques, and first-of-a-kind engineering features, Studsvik has created the most popular reactor analysis software in the world.
Because of our internationally recognized expertise, Studsvik continues to provide important leadership for the commercial and non-commercial nuclear technology communities, and will play a central role in the next generation of nuclear power plants.
