Lightbridge Corporation (NASDAQ:LTBR) Q1 2024 Earnings Call Transcript May 10, 2024
Lightbridge Corporation isn’t one of the 30 most popular stocks among hedge funds at the end of the third quarter (see the details here).
Operator: Thank you for standing by, and welcome to the Lightbridge Corporation Business Update and First Quarter 2024 Conference Call. Please note that today’s call is being recorded. It is now my pleasure to introduce Matthew Abenante, Director of Investor Relations for Lightbridge Corporation.
Matthew Abenante: Thank you, Victor and thanks to all of you for joining us today. The company’s earnings press release was distributed yesterday and can be viewed on the Investor Relations page of the Lightbridge website at www.ltbridge.com. Joining us on the call today is Seth Grae, Chief Executive Officer; along with Andrey Mushakov, Executive Vice President for Nuclear Operations; Scott Holcombe, Vice President of Engineering; James Fornof, Vice President of Program Management, Larry Goldman, Chief Financial Officer; and Sherrie Holloway, Controller. I’d like to remind our listeners that any statements on this call that are not historical facts are forward-looking statements. Today’s presentation includes forward-looking statements about the company’s competitive position and product and service offerings.
During today’s call, words such as expect, anticipate, believe and intend will be used in our discussion of goals or events in the future. This presentation is based on current expectations and involve certain risks and uncertainties that may cause actual results to differ significantly from such estimates. These and other risks are set forth in more detail in Lightbridge’s filings with the Securities and Exchange Commission. Lightbridge does not assume any obligation to update or revise any such forward-looking statements whether as a result of new developments or otherwise. And with that, I’d like to turn over the call to our first speaker, Seth Grae, Chief Executive of Lightbridge. Hello, Seth.
Seth Grae: Hello and thank you, Matt and thank you all for joining us to discuss Lightbridge’s First Quarter 2024 results. In March, we celebrated an important achievement at Idaho National Laboratory. We demonstrated an extrusion process for Lightbridge fuel material using the zirconium, a uranium zirconium alloy a video of the extrusion process is on our website along with photos of the team, the machinery and the rod. I was recently honored to be appointed as the Chair of the American Nuclear Society’s International Council. This role grants me the privilege of working alongside global nuclear experts to enhance international cooperation and advocate for safe, secure and economical use of nuclear science and technology worldwide.
The International Council is vital for fostering global communications and cooperation among nuclear and non-nuclear organizations. And I’m eager to leverage this platform to advance our collective goals. In addition, Jim Fornof, our Vice President of Program Management at Lightbridge you will hear from soon has been appointed to the Board of Directors at the United States Nuclear Industry Council. The US NIC is a leading advocate for nuclear energy in promoting the American nuclear supply chain globally. It represents approximately 80 companies that are integral to various facets of nuclear innovation and supply chain development. Jim’s role on the US NIC Board reflects his expertise and dedication and he is excited to contribute to the industry’s growth supporting initiatives that span from national security to environmental management.
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Q&A Session
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Both of these appointments reflect Lightbridge’s deep involvement and expanding influence in the nuclear power industry and policy both domestically and internationally. We’re committed to playing an important role in shaping the future of nuclear energy, ensuring it remains a key component of a sustainable and secure global energy framework. Now I will turn the call over to Andrey Mushakov, Executive VP for Nuclear Operations to review our fuel development activities. Andrey?
Andrey Mushakov: Thank you Seth. As Seth mentioned Lightbridge achieved a critical milestone in our fuel development efforts. Idaho National Laboratory or INL, extruded a rod sample of Lightbridge fuel material consisting of an alloy of depleted uranium and zirconium. This work was performed on the strategic partnership project and cooperative research and development agreements between Lightbridge and Battelle Energy Alliance LLC, the US Department of Energy’s operating contractor for INL. The ongoing project aims to generate irradiation performance data for Lightbridge’s delta-phase, uranium-zirconium alloy related to various thermophysical properties. The data will support fuel performance modeling and regulatory licensing efforts for the commercial deployment of Lightbridge fuel.
I will now ask Jim Fornof, our Vice President of Program Management, to provide additional details about the extrusion demonstration milestone and our next steps on this project at INL. Jim?
James Fornof: In Idaho, a little over a month ago, we demonstrated the extrusion of a fuel rod sample consisting of an alloy of depleted uranium and zirconium. The extrusion process involves pressing a billet of Lightbridge fuel alloy through a die under pressure to form an elongated fuel sample. Our intention is to align this demonstration process with our eventual manufacturing technique as closely as possible. This extrusion is a major goal that we set for the project for this year and as a prerequisite to ultimately fabricating coupon samples using enriched uranium zirconium alloy for radiation testing in the advanced test reactor at INL. Casting and extruding this demonstration billet of Lightbridge fuel alloy showcases the unique research talent and facilities within INL’s materials and fuels complex.
We very much appreciate the collaborative input that we’ve received from our INL colleagues during this work, as well as the ongoing support and recognition of DOE. INL and Lightbridge will work together to analyze the extruded rod in order to confirm the extrusion process parameters and the resulting material characteristics while performing additional castings and extrusions during the remainder of this year. Next year, we plan to produce a radiation coupon samples of Lightbridge fuel material using enriched uranium and zirconium for insertion into the ATR. Thanks and back to you, Andrey.
Andrey Mushakov: Thank you, Jim. In addition to our ongoing project at INL, we are working with RATEN ICN on an engineering study to assess the compatibility and suitability of Lightbridge fuel for using CANDU reactors. Expect this initial engineering study to be completed later this year. In collaboration with Centrus Energy we also conducting a front-end engineering and design study or FEED study to assess feasibility for deployment of a Lightbridge pilot fuel fabrication facility at the Piketon, Ohio site. We are currently working on constant schedule estimates to assess commercial feasibility of moving forward with this project. We expect this study to be completed in the coming months. Finally, my Lightbridge colleagues and I recently returned from a trip to Texas A&M University where we visited the fuel cycle and materials laboratory and thermal hydraulic facilities that have state-of-the-art experimental and modeling capabilities to discuss our ongoing projects and future collaboration opportunities.
The fuel cycle and materials laboratories currently performing under a contract with Lightbridge cladding characterization work on the trial of surrogate rod samples that we extruded in May 2021. The work will inform our future plans with respect to cladding development and co-extrusion process demonstration efforts. Separately, we toured the thermal hydraulic facility and discussed Texas A&M University’s computer modeling capabilities in that area. They are currently working under a DOE funded Nuclear Energy University program awards on a flow test experiment setup under NuScale SMR’s coolant flow operating conditions. It will use six-foot long acrylic rods mimic Lightbridge fuels, multi-log geometry and helical to this. Now I’ll ask Scott Holcombe, our Vice President of Engineering, to give us an update on several other ongoing projects and initiatives.
Scott?
Scott Holcombe : Thank you, Andrey. First with the ongoing progress of our fuel development work we’ve expanded and strengthened our fuel development team with the hiring of additional R&D personnel expertise in computer modeling and simulation, experiment design and execution and fuel qualification and regulatory licensing activities. Their additions aimed to bolster Lightbridge’s capabilities in Nutronics, thermal hydraulics, fuel performance and transient analysis, all critical components to support fuel qualification, regulatory licensing and commercial deployment of Lightbridge fuel. The newly appointed R&D staff will support Lightbridge’s ongoing collaborative projects, including our SPP and CRADA collaboration with Idaho National Laboratory in the US, our engineering study with RATEN ICN in Romania and two important projects under the Nuclear Energy University Programs with Massachusetts Institute of Technology and Texas A&M University.
These experts will lead the development of Lightbridge specific codes and methods, utilizing industry standard modelling tools to simulate Lightbridge fuel across various types of water cooled reactors. We believe these new hires will support advancement through TRL levels four to nine as it underpins our ability to model and simulate our fuels behavior under various operating conditions, an essential aspect of our development process. As we project further into the future, our road map towards full commercial deployment encompasses a series of intricate and scientifically rigorous steps. These includes the extensive radiation of nuclear material samples and prototype fuel rods within test reactors followed by thorough postradiation examinations to validate material characteristics and performance metrics.
Our comprehensive testing regimen will also involve advanced thermal-hydraulic experiments and additional out-of-reactor tests designed to rigorously evaluate our fuel safety and functionality. Advanced computational modeling and simulations will support the qualification process, ensuring that our fuel meets stringent industry standards. The combination of these efforts will involve the design of lead test rods and ultimately lead test assemblies and subsequent collaborations, commercial reactors and potential fuel vendor partners through the deployment of lead test rods and assemblies. Once successful operation of lead test assemblies of Lightbridge fuel has been demonstrated in commercial reactors, we would seek regulatory approval for battery loads of Lightbridge fuel in those host reactors.
With that, I’ll turn the call back over to Seth.
Seth Grae: Thanks, Scott. Globally, we are witnessing an expansion of the nuclear sector. New nuclear plants are under construction and many existing plants are having their operating licenses extended well beyond their original lifetimes. Remarkably, some facilities that had shut down are now being revitalized and brought back online. In a groundbreaking development last December at COP 28, the UN Climate Conference in Dubai, the United States along with other nations, committed to tripling the world’s nuclear power capacity by the year 2050. This ambitious goal was reinforced at the recent Nuclear Energy Summit in Brussels which convened leaders at the head of state level to transform this vision into tangible action. The focus was clear, move from ambition to real action with specific emphasis on establishing robust financing mechanisms to achieve this tripling of global nuclear power.