For rising 11th – 12th graders
July 24th – July 30th, 2022 (Residential & Commuter)
The Summer 2022 program has ended. To receive updates for the Summer 2023 program, sign up for summer program notifications.
Residential: $1,000 per camper. Scholarships are available.
Commuter: $600 per camper. Scholarships are available.
See the Summer Camps FAQs page for more information about camp costs and the Trail Blazer scholarship.
Nuclear, Plasma and Radiological Engineering (NPRE) is a branch of engineering with broad and diverse but complimentary applications–among them: continued safe and reliable nuclear energy production, risk and reliability assessment, plasma science and engineering, development of fusion reactors, use of radiation for biomedical research and healthcare, and nuclear safeguards and radiation detection for homeland security.
NPRE is for those who:
- Are passionate about impacting climate change and exploring clean, renewable energy sources
- Want to innovate the plasma technologies of the future
- Are interested in harnessing the power of nuclear fusion
- Want to apply radiological science to advancing medicine, human health, and national security
- Enjoy experimental hands-on and/or computational research using math, physics, and computer skills
Campers will explore NPRE through lectures and discussion, hands-on activities, computer programming and simulations, demonstrations, lab tours and field trips.
“I enjoyed visiting the nuclear fusion reactor visit because it was something that I have always wanted to see up close and I finally was able to and get explanations on how it worked and why it is used. I also enjoyed going to the control room simulation at the Clinton Power Station. It was absolutely fascinating to me.” ~2019 Explore NPRE camper
- What is the miraculous atom?
- How do fission and fusion reactions produce energy?
- Does radiation really surround us in our everyday lives?
- How does a nuclear reactor work?
- What are the different reactor designs?
- What are thermodynamics, fluid mechanics, and heat transfer?
- What are the issues regarding nuclear reactor safety?
- What is a day in the life of a nuclear engineer at a commercial nuclear power plant?
- Where does material science intersect nuclear engineering?
- What is plasma and what are its uses?
- How do plasmas contribute to the fields of medicine and materials processing?
- What is the role of plasmas in semiconductor manufacturing?
- What are current developments in fusion reactors?
- How does a radiation detector work?
- What are some medical uses of radiation?
- How does soft robotics and artificial intelligence fit in to all of this?
- Learn about radiation dosages, half-life and decay, and shielding
- Observe vacuum and atmospheric plasmas
- See how medical imaging is used to diagnose disease
- Discover how radiation detection helps maintain human health and national security
- Experience how 3D printing is used in the design process
- Radiation measurements laboratory
- Multiphase thermo-fluid dynamics laboratory
- Center for researching plasma-material interactions relevant to fusion, semiconductors, and plasma manufacturing
- HIDRA, the Hybrid Illinois Device for Research and Applications, a toroidal magnetic fusion device
- Radiation detection and imaging laboratory
- Soft robotics and artificial intelligence laboratory
Becky Meline, Senior Coordinator of Undergraduate Program& Academic Advisor, NPRE
From previous years