NANO Nuclear Energy Collaborates on Innovative Microreactor Project
NANO Nuclear Energy Collaborates on Innovative Microreactor Project
Project Will Focus on Safety Enhancements for Microreactor Transport
NANO Nuclear Energy Inc. (NASDAQ: NNE), a pioneering leader in advanced nuclear technology, is thrilled to announce its partnership with the City University of New York (CUNY) and Advanced Engineering Solutions LLC to apply for a Small Business Innovation Research (SBIR) Phase I project with the U.S. Department of Energy (DOE). The aim of this project is to innovate and improve the safety of microreactor transportation through effective decay heat management and smart monitoring systems.
Under the title, "Investigation of Microreactor Cooling and Smart Alarming System for Reactor Pressure Vessel Temperature Monitoring," this initiative aligns with DOE’s strategic objectives for enhanced microreactor safety. The focus is to develop cutting-edge cooling techniques and monitoring solutions that can significantly mitigate the risks associated with microreactor transport.
If the SBIR Phase I application is successful and receives funding, the team will explore advanced technology options such as Heat Pipes (HPs) and Thermoelectric Cooling Modules. These innovative solutions will provide an efficient way to manage decay heat, ensuring that NANO Nuclear’s microreactors can be transported safely according to the U.S. Department of Transportation's stringent regulations.
“This collaboration marks a critical milestone in our mission to address the challenges of microreactor deployment,” said James Walker, CEO of NANO Nuclear Energy. “By leveraging advanced technologies to manage decay heat and incorporate smart monitoring systems, we are committed to developing a transport system that enhances safety and regulatory compliance. As the demand for microreactors grows, resolving transportation challenges becomes vital to facilitating their widespread adoption.”
Project Goals and Innovations
The proposed research project encompasses several innovative objectives:
- Establishing a Thermal Management System equipped with advanced Heat Pipes and Thermoelectric Cooling Modules to passively and actively ensure effective decay heat removal during transport.
- Designing a Smart Alarming System that utilizes real-time sensors and computer vision technology, offering immediate detection of anomalies in temperature and pressure, thus enabling rapid response from operators.
- Conducting detailed design and performance testing of a scaled-down prototype system at CCNY’s Thermal-Hydraulics Laboratory to validate its efficacy and ensure compliance with regulatory standards.
“This project perfectly aligns with our vision to lead in the development of next-generation nuclear energy technologies, particularly in the realm of reactor transport,” expressed Jay Yu, Founder and Chairman of NANO Nuclear Energy. “Creating a robust transport system that meets regulatory requirements is essential for realizing the full potential of microreactors, enabling us to deliver on our promise of sustainable energy solutions.”
The Future of Microreactors
Microreactors represent a revolutionary stride in clean energy, designed to deliver reliable power to remote areas, military installations, data centers, and disaster relief efforts. They play a crucial role in the emerging energy landscape, but their transport poses unique challenges due to the decay heat generated post-operation. By advancing thermal management and monitoring systems, this project intends to bridge existing gaps in microreactor deployment, ultimately paving the way for Phase II and more extensive field testing in collaboration with AES and CUNY.
“Our joint efforts with NANO Nuclear, CCNY, and AES unite premier research and industry knowledge to address significant challenges faced by the microreactor market,” commented Dr. Carlos O. Maidana, NANO Nuclear’s Head of Thermal Hydraulics and Space Program. “We are implementing a dual strategy of passive and active cooling technologies to ensure that our microreactors comply with the highest transportation safety standards while preserving operational integrity.”
NANO Nuclear Energy stands at the forefront of innovative energy solutions, driving advancements across several domains. The company’s commitment to domestic High-Assay Low-Enriched Uranium (HALEU) fuel development through its subsidiary ensures a reliable and sustainable fuel supply for its microreactors. The team is actively building partnerships with government agencies and industry leaders to foster an environment of innovation in nuclear energy technologies.
About NANO Nuclear Energy, Inc.
NANO Nuclear Energy Inc. (NASDAQ: NNE) is a forward-thinking nuclear energy company aiming to revolutionize the energy sector with its range of microreactor technologies and applications. NANO Nuclear's innovative approach encompasses nuclear fuel fabrication, transportation, space technology, and consulting services within the nuclear industry. With advanced products like the "ZEUS" solid core battery reactor and the "ODIN" low-pressure coolant reactor, NANO emphasizes clean, portable energy solutions.
The company leads a comprehensive effort in HALEU fuel supply through its subsidiary, HALEU Energy Fuel Inc., to secure a domestic source that benefits both its microreactors and the broader industry. NANO Nuclear Space Inc. also explores the commercial potential of microreactor technology for future missions in space, focusing on sustainable energy solutions for extraterrestrial applications.
For more information about NANO Nuclear Energy, visit: NanoNuclearEnergy.com
For further NANO Nuclear information, please contact:
Email: IR@NANONuclearEnergy.com
Business Tel: (212) 634-9206
Frequently Asked Questions
What is the purpose of NANO Nuclear's new project with CUNY?
The project aims to enhance transportation safety for microreactors by developing advanced cooling and monitoring technologies.
Which technologies are being explored for managing decay heat?
The project will evaluate Heat Pipes, Thermoelectric Cooling Modules, and Smart Alarming Systems for effective decay heat management during transport.
Who is leading the project and what is their background?
The project is led by Dr. Dinesh Kalaga from Advanced Engineering Solutions, an expert in chemical engineering with experience in DOE initiatives.
What benefits do microreactors offer?
Microreactors provide clean power solutions, especially in remote areas, and support resilience in disaster relief operations.
How does NANO Nuclear ensure the supply of HALEU fuel?
NANO Nuclear leads domestic HALEU fuel development through its subsidiary, HALEU Energy Fuel Inc., ensuring a sustainable and reliable fuel source.
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