Our RAMI and Risk Analysis team (Enric Bargalló, Martin Gorriaran Vicario, Javier Leboreiro Iriarte and Daniel Moya Alonso), has published the paper “A risk analysis for Helium Cooling System (HCS) of HCCP-TBS” in the Fusion Engineering and Design journal. ? The paper is a full explanation of the poster published last September in the #SOFT24 event. A summary of the work carried out together with Youngmin Lee, Chang Shuk Kim, Myungho Kim, Changwook Shin, Seok-Kwon Son and Mu-Young Ahn from the Korea Institute of Fusion Energy (#KFE). ? A #RAMI (Reliability, Availability, Maintainability and Inspectability) and a Risk Assessment (#HAZOP) were performed to enhance safety and reliability of the ancillary systems for HCCP-TBS breeding blanket.
关于我们
Ranked among the top 10 global nuclear engineering firms, IDOM has been involved in the nuclear industry since the development of early nuclear generation projects since the late 70s. With over 40 years of experience, IDOM has remained at the forefront of the industry. IDOM Nuclear Services, a specialized division of the wider IDOM group is currently delivering projects in more than 30 countries.
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https://www.idom.com/en/sector/energy/nuclear-en/
IDOM Nuclear Services的外部链接
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- 201-500 人
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- 1957
IDOM Nuclear Services员工
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Fusion for Energy has published a fascinating success story about our journey beyond ITER Organization. We have been a longstanding partner of F4E, contributing our expertise to various innovative projects in the fusion market. Our collaboration with F4E began in 2008, and since then, we have been involved in numerous groundbreaking fusion initiatives. Beyond ITER, we are expanding our footprint in the global fusion market, collaborating with several start-ups and flagship fusion initiatives like the #STEP prototype plant under the UK Atomic Energy Authority (UKAEA). Our wealth of know-how and experience is unlocking new opportunities and driving innovation in fusion technology. Read more about our journey and our contributions to the fusion market. #Fusion #Innovation #TechnologyTransfer #IDOM #ITER #FusionEnergy https://lnkd.in/dPkn36rU
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Yesterday, at the Escola Tècnica Superior d'Enginyeria Industrial de Barcelona , IDOM Nuclear Services attended the inauguration of the Masters in Nuclear Engineering (#MNE) and the European Master in Nuclear Energy (#EMINE), represented by Daniel Moya Alonso.? ? The directors of both programs, Lluis Batet (#MNE) and jordi freixa (#EMINE), gave an overview, highlighting the technical complexity and effort required to obtain these degrees. Although demanding, these master's degrees offer high quality training and are recognized for their academic excellence. Together with other speakers such as Pilar Lucio (CSN Commissioner) and Gonzalo Carbó de Haya (Head of Nuclear Endesa), they underlined the importance of continuing to train nuclear engineers for the future, taking into account the development of new plants, #AMR and #SMR, and the decommissioning of existing plants. ? At the event, Enric Fossas-Colet (Director of the ETSEIB-UPC) and Climent Molins (Vice-rector for Tech Transfer, Innovation & Entrepreneurship of the Universitat Politècnica de Catalunya) stressed the need for these technologically advanced training programs and acknowledged that their existence would not be possible without the collaboration of entities such as the Consejo de Seguridad Nuclear (CSN) and nuclear industry players such as IDOM NS.? ? At IDOM Consulting, Engineering, Architecture, we are committed to the education and development of young talent. We strongly believe in the importance of supporting new generations of engineers, providing them with opportunities to grow and contribute to technological advancement. Our collaboration with educational institutions and training programs is a sign of our commitment to the future of nuclear engineering and to creating a safer and more sustainable world. #ETSEIB #education #talent
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Remember! Meet Gregorio Moya , P.Eng and David Catalán Conde, P. Eng. today at #FusionXinvest in Silicon Valley.
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Oscar Larrosa and Xavier Jardi Cuerda explain the benefits of #SMRs
SMRs (Small Modular Reactors) are a type of nuclear reactor designed to be smaller and more modular than traditional nuclear reactors. These reactors are built in factories and transported to the site, which significantly reduces costs and construction time. Because of their compact and modular design, SMRs can be installed in locations where larger reactors would not be possible. In addition, they can be phased in to meet growing energy demand. ? Proposing SMRs for different applications is becoming more and more common. And Spanish industry does not want to be left behind. ? In this short report, Oscar Larrosa and Xavier Jardi Cuerda explain the advantages of this energy source, highlighting its ability to recycle spent fuel without CO2 emissions and with high availability, which, together with the scalability of SMRs, makes it an ideal energy source to meet the new needs of large technology companies. ? We will have to wait until 2030 before the first SMR starts operating in Europe. --------------------- Los denominados SMR (Small Modular Reactors) son un tipo de reactor nuclear dise?ado para ser más peque?o y modular en comparación con los reactores nucleares tradicionales. Estos reactores se construyen en fábricas y se transportan al sitio de uso, lo que reduce significativamente los costos y los tiempos de construcción. Debido a su dise?o compacto y modular, los SMR pueden instalarse en lugares donde no sería posible ubicar reactores de mayor potencia. Además, permiten un despliegue gradual para ajustarse a una demanda creciente de energía. ? Cada vez es más habitual plantear SMRs para diferentes aplicaciones y la industria espa?ola no quiere quedarse atrás. ? Oscar Larrosa y Xavier Jardí nos cuentan en este breve reportaje los beneficios de esta fuente de energía, destacando su capacidad de reciclar el combustible gastado, libre de emisiones de CO2 y con alta disponibilidad, lo que unido a la escalabilidad de los SMRs, la hace una fuente de energía idónea para abastecer a las nuevas demandas de las grandes empresas tecnológicas. ? En cualquier caso, tendremos que esperar hasta el 2030 para tener el primer SMR en funcionamiento en Europa.
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We are thrilled to announce that we will be attending next week's #FusionXinvest:Global in Silicon Valley.? This event is an amazing opportunity to connect, learn and explore the latest innovations in fusion technology. Don't miss the opportunity to meet our partners Gregorio Moya , P.Eng and David Catalán Conde, P. Eng. and discuss possible collaborations! ? #FusionX #FusionEnergy FusionX Group
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We are pleased to announce that the UK Atomic Energy Authority has awarded us a project under the #LIBRTI programme. The project, ‘Correlation of Scaled Mock-ups to Full-Scale Using Multiphysics’, is a further step to advanced fusion energy development. Stay tuned for more updates as we embark on this innovative journey. More info: https://lnkd.in/dcvarB8U #UKAEA #Fusion #LIBRTI #Multiphysics
The UK Atomic Energy Authority’s £200 million Lithium Breeding Tritium Innovation (LIBRTI) programme has announced a series of significant steps to advance fusion energy development. The announcement aligns with the UK’s Department for Energy Security and Net Zero’s recent support for the nation’s fusion programme and budget plans for 2025/2026. Part of the broader Fusion Futures initiative, LIBRTI focuses on pioneering fusion fuel advancements and stimulating general industry capacity through international collaboration. The programme aims to demonstrate controlled tritium breeding. As part of this effort, UKAEA intends to purchase a neutron source which will form the backbone of a first-of-a-kind testbed facility to be built at Culham Campus. UKAEA will also provide £9 million funding for 12 small-scale tritium breeding and digital simulation experiments. Future fusion power plants will rely on two hydrogen isotopes – deuterium & tritium – to produce energy. Deuterium can be readily extracted from seawater. Tritium, however, is scarce in supply, necessitating the development of methods to produce it sustainably. SHINE Technologies, USA, is expected to deliver a 14 mega electron volt (MeV) deuterium-tritium fusion system to provide the LIBRTI neutron source in 2027. John Norton, LIBRTI Director, “The neutron source selected shall provide neutrons of the same energy as those emitted from a fusion machine, enabling LIBRTI to experiment with a wide range of materials and engineering configurations...” ?????? ???? ??????????-?????????? ??????????????????????: Each of the 12 experimental and digital projects is expected to run to March 2026. ?????????????? ???????? & ????????????????????????: ? Development of a Liquid Lithium Digital Twin - Amentum ? Studying the adequacy of 6LiD as a solid breeder material - Astral Systems ? TRIMAX (Tritium Reactor Integrated Analysis Experiment, Multiphysics Code) - Bangor University - Nuclear Futures Institute ? Correlation of scaled mock-ups to full-scale using multiphysics - IDOM Nuclear Services ? TRI-PRISM (Tritium Permeation Real-Time In-Line Sensor for Monitoring) - Kyoto Fusioneering ? TriBreed (Using High Flux Neutron Source Facility at the University of Birmingham) - Lancaster University ? Breeder Agnostic Tritium Inventory Digital Twin System - Materials, The University of Manchester ? Develop openTBB (Tritium Breeding Blanket) - Multiphysics Transport Simulation - US University ? VICE (Quantification of Uncertainties in Tritium Breeding in Ceramics, Manufacturing, and Testing) - Oxford Sigma ? Experimental Programme Including Lithium Impurity Control, Diagnostics, and Irradiation Testing - Tokamak Energy ? Develop a Small Solid Lithium Ceramic Breeder with In-Line Tritium Detection Capability for Calibrated Neutron Sources - University of Birmingham ? Tritium Breeding in FLiBe - The University of Edinburgh Full story: https://lnkd.in/eJ363dtc *4th Image: NDAS Venus - SHINE Technologies
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The Fusion Futures Industry Capability (FFIC) programme aims to create a strong UK industrial sector that will be a global leader in the design, development, and build of components for future fusion powerplants. As part of FFIC, the Fusionics project is led by the Computing Division of UK Atomic Energy Authority and aims to forge an ecosystem of interoperable components with standardised interfaces and protocols, enabling the industry to support multiple fusion projects at scale through a new supply chain. The term Fusionics was coined by Adam Stephen, Head of Advanced Control in the #UKAEA Computing Division, and addresses the unique challenges of controlling fusion reactors, including complex dynamics and multi-scale processes. IDOM Nuclear Services and Cosylab are one of the appointed Fusionics suppliers and have already made an impression, working closely to support UKAEA in bringing state-of-the-art approaches to control systems for MAST-U and the Nimbus platform. Dr. Stephen underlines: "The IDOM - Cosylab team are highly capable and hugely cooperative engineers. Working with them has been a great experience and is really energising the team. They've already showcased some early Fusionics work with a successful poster at the recent Computing Division Research Showcase 2024!" #Fusionics #FusionEnergy #NuclearEnergy IDOM Nuclear Services and Cosylab, #FIA members and #ITER suppliers of engineering services for more than 15 years.
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We are proud to contribute to this pioneering effort towards a sustainable future in the maritime industry! #NuProShip #NuclearInnovation #MaritimeTransport #Sustainability #SmallModularReactor #SMR Norges forskningsr?d, Norwegian University of Science and Technology (NTNU), Blykalla, Kairos Power, Ultra Safe Nuclear, VARD
SMRs selected for NuProShip initiative We are pleased to share that the NuProShip project, funded by the Research Council of Norway (Norges forskningsr?d), has selected three promising Generation IV small modular reactor (#SMR) technologies for further evaluation in its next phase: 1. Kairos Power's fluoride high-temperature molten salt reactor (USA) 2. Ultra Safe Nuclear Corporation's helium-cooled gas reactor (USA) 3. Blykalla's lead-cooled reactor (Sweden) The goal is to develop a commercially viable zero-emission technology for deep-sea ships. IDOM, along with partners like VARD and the Norwegian University of Science and Technology (Norges teknisk-naturvitenskapelige universitet (NTNU)), is working to integrate these reactors into various vessel types and assess the technical challenges. We are proud to contribute to this pioneering effort towards a sustainable future in the maritime industry! Read more:?https://lnkd.in/dXKeps93 #IDOM #NuProShip #NuclearInnovation #MaritimeTransport #Sustainability #SmallModularReactor