AI and 3D printing combine for advanced monitoring of small nuclear reactors

Celebrity Gig
Figure 1. Figure 1. DED sensor embedding and monitoring process. Credit: Virtual and Physical Prototyping (2024). DOI: 10.1080/17452759.2024.2411024

As the demand for electricity rises in the age of artificial intelligence (AI), global tech companies are focusing on small nuclear reactors as a sustainable energy solution. A new remote monitoring technology using advanced AI is capable of detecting potential hazards in these reactors within just two seconds. This innovative system enables real-time monitoring of internal conditions, significantly reducing management costs and enhancing safety.

A research team, jointly led by Professor Im Doo Jung (Department of Mechanical Engineering, UNIST) and Professor Namhun Kim (Department of Mechanical Engineering/AI Graduate School, UNIST), along with Professor Hyungmo Kim from Gyeongsang National University, has introduced a smart component system designed for remote surveillance of small nuclear reactors.

This system incorporates embedded optical fiber sensors that continuously monitor components and alert users to any abnormal conditions. The work is published in the journal Virtual and Physical Prototyping.

READ ALSO:  NNPC price slash fails to end fuel queues

The breakthrough lies in a novel technology that combines 3D printing with AI, enabling the rapid processing of multiple continuous variables from optical fiber sensors. The team successfully manufactured smart nuclear parts using a Directed Energy Deposition (DED) printing method, seamlessly integrating fiber optic sensors within the metal components.

This design ensures stability even in the harsh environments typical of nuclear reactors. The AI system rapidly analyzes data from the optical sensors to monitor thermal deformation in real time, allowing operators to detect irregularities and assess conditions remotely through an augmented reality (AR)-based digital twin interface.

READ ALSO:  A Simple Guide to Software Integration for Startups

In contrast to traditional large-scale nuclear reactors, microreactors (MRs) can provide stable power generation near energy-intensive facilities. However, maintaining safety in these plants is paramount. This new technology is poised to significantly enhance the safety and operational efficiency of next-generation small nuclear reactors by enabling AI to monitor critical thermal deformation signals that are often undetectable by human inspection.

Professor Jung noted, “We tackled the challenges associated with traditional inspection methods through our AI convergence technology, which can greatly enhance the stable and efficient operation of next-generation small nuclear power plants.” He further predicted that “this convergence technology could extend its applications beyond nuclear power, potentially benefiting diverse industries such as autonomous manufacturing systems, aerospace, and advanced defense.”

READ ALSO:  Supreme Court rules in favor of Coinbase in arbitration dispute

More information:
Hayeol Kim et al, Direct energy deposition for smart micro reactor, Virtual and Physical Prototyping (2024). DOI: 10.1080/17452759.2024.2411024

Provided by
Ulsan National Institute of Science and Technology


Citation:
AI and 3D printing combine for advanced monitoring of small nuclear reactors (2024, November 14)
retrieved 16 November 2024
from

This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.

Categories

Share This Article
Leave a comment