WESTINGHOUSE eVinci ™ Micro reactor

Question 2 (Application Adaptation): eVinci ™ Why are micro reactors suitable for remote areas and university settings? What are the core adaptation advantages?

Answer: The core advantages of adapting to remote areas are: ① transportability (full factory assembly, railway/barge transportation), which solves the problem of fuel transportation in remote areas; ② 8 years without the need for material replacement, reducing the frequency of operation and maintenance; ③ Replace diesel generators, achieve zero carbon power supply, and adapt to scenarios without grid coverage. The core advantages of adapting to university scenarios are: ① integrated supply of zero carbon electricity and regional heating, helping to decarbonize campuses; ② Mature and secure technology, deployable in campus environments; ③ Provide research and talent development platforms for nuclear technology, energy science, and other fields, in line with the needs of research-oriented universities.

Question 3 (Sustainability and Collaboration): eVinci ™ What is the role of microreactors in decarbonization process? How to collaborate with renewable energy?

Answer: Decarbonization effect: ① Zero carbon emissions, replacing fossil fuels such as diesel and coal for power generation, reducing carbon footprint; ② Adapt to remote areas and special scenarios, filling the deployment gap of traditional zero carbon energy (wind/photovoltaic); ③ Provide additional functions such as regional heating to expand zero carbon application scenarios. Collaborative approach with renewable energy: ① Compensate for the intermittent defects of wind and solar energy, provide 24/7 continuous power supply, and ensure the stability of the energy system; ② It can be quickly deployed and expanded, flexibly matched according to the installed capacity of renewable energy, and build an energy structure that is "zero carbon oriented, collaborative and complementary".