Because of the stringent safety and reliability requirements in the nuclear sector, achieving this qualification is a significant accomplishment.
The replacement part produced for the Krško nuclear power plant in Slovenia is a metallic, 108 mm diameter impeller for a fire protection pump that is in constant operation. The water pump provides pressure for the fire protection system at the plant. The original impeller was in operation since the plant was commissioned in 1981; its original manufacturer is no longer in business.
Obsolete, non-OEM parts are particularly well-suited for this new technology as they and their designs are virtually impossible to obtain. This technology thus allows mature operating plants to continue operating and achieving or, as in the Krško case, even extending, their full life expectancy.
Siemens’ team of experts in Slovenia reverse-engineered and created a “digital twin” of the part. The company’s additive manufacturing (AM) facility in Finspång, Sweden, housed at the Siemens Industrial Turbomachinery business, then applied its advanced AM process using a 3D printer to produce the part.
Meeting the Krško NPP’s stringent quality and safety assurance requirements required extensive testing that was performed jointly with the Krško operations team over several months, ensuring that the new 3D-printed part would perform safely and reliably. Further material testing at an independent institute as well as a CT scan showed that the material properties of the 3D-printed part were superior to those of the original part.
“The better than expected performance of this 3D-printed part gave us confidence that we can reach the full life expectancy from our asset,” said Vinko Planinc, head of maintenance at the plant.
The Krško plant provides more than one-quarter of Slovenia’s and 15 percent of Croatia’s power, making it vitally important to the region. For over a decade, Siemens has been actively performing modifications and providing service on the plant’s non-nuclear side, including turbine, generator and auxiliary equipment.
Siemens and Krško plan to continue research and development in this area and are looking at advancing the design of parts that are most difficult to produce using classical manufacturing techniques, such as lightweight structures with improved cooling pattern.
Siemens operates a state-of-the-art AM production facility in Finspång where is has been advancing this technology since 2009. Siemens extensively uses AM for rapid prototyping and has introduced serial production solutions for rapid manufacturing of small fuel mixers and for rapid repair of burner tips for mid-size gas turbines. The first 3D-printed burner component for a Siemens heavy-duty gas turbine has been in successful commercial operation in a power plant in Brno, Czech Republic, since June 2016. It has achieved 1,600 equivalent operating hours without causing any forced outages. For parts production in industrial gas turbines, the benefits of Siemens’ AM include an approximate 50% reduction in lead time and a 75% reduction in development time. Siemens recently announced it has finished its first full load engine tests for gas turbine blades completely produced using AM technology.
