EURELITE 2026 Recruitment Plan

CTO — Chief Technology Officer

Job Mission

He is fully responsible for the company's technology roadmap, R&D system, product architecture, and core technology breakthroughs, and is the chief architect of the entire technology system.

Main Responsibilities

• Lead the development of the overall technology roadmap for the reactor (system architecture, module planning, key nodes).
• Leadership in technology decision-making: reactor core, neutronics, thermal engineering, electrical engineering, control systems, safety analysis, etc.
• Ensure that the technical solution meets the requirements of safety, cost, manufacturability, and testability.
• Establish a research and development system: processes, standards, and toolchains (MBSE, simulation, verification, configuration).
• Connect with testing centers, design institutes, and the supply chain to ensure successful technology implementation and verification.
• Responsible for final approval of technical reviews, major security reviews, and critical system designs.
• Building a talent pool of core technical personnel.

Job Requirements

• PhDs in nuclear engineering, thermal hydraulics, reactor engineering, or related fields will be given priority.
• 10+ years of experience in reactor system design, nuclear engineering research and development, or large-scale equipment research and development.
• Familiar with PSA/DSA, simulation toolchain, multiphysics, and licensing requirements.
• It possesses technical architecture and cross-system integration capabilities.

COO — Chief Operating Officer

Job Mission

Ensure the company's success from technology research and development to supply chain, testing and verification, and delivery. Overall operation is stable, efficient and scalable.

Main Responsibilities

• Oversee all company operations: project management, supply chain, testing, quality, and licensing.
• Establish a PMO (Project Management Office) to ensure key milestones are achieved on schedule.
• Promote the construction of production lines / experimental test benches, equipment investment planning, and site selection.
• Managing the supply chain: supplier pool, equipment procurement, quality and schedule.
• Liaise with the Safety and Licensing Department to ensure that operational processes comply with regulatory requirements.
• Establish a risk control system (project risk, delivery risk, budget risk).
• Optimize cross-departmental processes to improve the overall efficiency of R&D, testing, and manufacturing.

Job Requirements

• Engineering management, manufacturing, supply chain, or power / nuclear engineering.
• 8+ years of experience in the operation and management of large-scale projects or hard technology projects.
• Familiar with project management (PMI/PRINCE2), supply chain and quality systems.
• Possesses the ability to optimize organizational processes and coordinate across departments.

1. Core Physics Engineer (3 positions)

Official JD

Job Mission

The job mission is to participate in the physics design of advanced reactor cores and support the research and development of core products through neutron transport and burnup analysis.

Job Responsibilities

• Calculations and analyses were conducted on core power distribution, reactivity, and burnup.
• Use the Monte Carlo toolchain (OpenMC /MCNP, etc.) to verify the design scheme.
• Participate in multiphysics coupling models and collaborate with thermal, structural, and materials groups.
• Proxy Model Based on Data Methods
• Writing technical reports and design documents

Job Requirements

• Master's degree or above in nuclear engineering or neutron physics
• Familiarity with Monte Carlo methods or deterministic analysis
• Possesses rigorous engineering analytical thinking
• Candidates with core design experience will be given priority.

2. Fuel Engineers (2 positions)

Official JD

Job Responsibilities

• Conduct research on the performance of fuel assemblies and coated particulate materials
• Using simulation tools to conduct fuel behavior analysis
• Tracking global trends in advanced fuel technologies
• Participate in fuel design and fuel management strategy research

Job Requirements

• Materials, nuclear fuel, and nuclear engineering related majors
• Familiarity with ceramic materials or coated particle structure
• Capable of modeling and experimental data analysis

3. Control Rod Engineer (2 positions)

Official JD

Job Responsibilities

• Control rod mechanism design and absorbent material analysis
• Modeling the motion characteristics of control rods (e.g., Simulink)
• Participate in system integration and interface design
• Output design documents and test plans

Job Requirements

• Nuclear engineering, mechanical engineering, electrical control and other related majors
• Those with experience in actuators or servo systems will be given priority.

Position 1: Thermal Hydraulics Engineer Engineer ×3

Job Mission

Participate in the thermal-hydraulic design of the primary loop for high-temperature gas cooling to ensure reliable heat transfer and flow performance of the system under critical operating conditions.

Job Responsibilities

1. Thermal analysis of the main loop
   • A primary loop thermal-hydraulic model was established to analyze the flow rate and temperature distribution under different operating conditions.
   • This study investigates the flow characteristics, heat transfer properties, and steady-state / transient behavior of high-temperature helium.
2. Thermal assessment of emergency cooling and safety systems
   • Conduct performance analysis of emergency cooling system under different transient conditions
   • Provide thermal boundary conditions to support the safety analysis team.
3. Thermal matching of equipment and components
   • Supports thermal input/output analysis of key equipment such as IHX, fans, and cooling pipes.
   • Participate in supplier technical exchanges
4. Model Validation and Documentation
   • Output technical reports, modeling documents, and design specifications.
   • Participate in design review

Job Requirements

Essential

• Master's degree or above in thermal engineering, hydraulics, energy and power engineering, nuclear engineering or related fields
• Understanding the fundamental theories of heat transfer and flow
• Capable of engineering simulation or experimental data analysis

Bonus points

• Has CFD experience (OpenFOAM /Fluent, etc.)
• I have participated in the development of fluid and thermal experimental platforms.
• Familiar with high-temperature gases and fluid-structure interaction

Job Highlights

• Participated in the design of the advanced reactor main loop
• The job duties cover modeling, analysis, and interface with equipment technologies.

Position 2: Fluid Engineer Systems Engineer ×2

Job Mission

Responsible for performance evaluation and system interface design of key fluid equipment in the primary loop (such as helium circulators, fans, and valves).

Job Responsibilities

1. Fluid equipment performance analysis
   • Participate in the evaluation of solutions for equipment such as fans, circulators, and valves.
   • Establish fluid-structure interaction or fluid vibration model
2. Fatigue life and vibration reliability study
   • Analyze factors such as vibration and impact caused by high-temperature flow.
   • Provide structural life prediction input
3. Device Interface Management
   • Tracking supplier technical design
   • Participate in the development of equipment verification test plans
4. System modeling support
   • Building or maintaining system fluid models
   • Support fluid condition verification before deployment

Job Requirements

Essential

• Fluid mechanics, mechanical engineering, energy-related majors
• Familiar with rotating machinery, flow vibration analysis, or fluid-structure interaction

Bonus points

• with fans / compressors
• Familiar with fatigue analysis and vibration testing

Job Highlights

• Directly participating in the selection and verification of core equipment is a key role in primary side technology.

Position 3: Equipment Engineer ×1

Job Mission

Responsible for developing engineering solutions for key primary circuit equipment, managing suppliers, and controlling project delivery quality.

Job Responsibilities

1. Equipment Solution Management
   • specifications based on system requirements.
   • Define interface requirements and boundary conditions
2. Supplier technical integration
   • Responsible for communication, drafting, reviewing and accepting technical agreements.
   • Follow up on manufacturing progress and quality control
3. Project delivery management
   • Participate in equipment testing, inspection and testing activities
   • Review equipment documentation (design, materials, quality assurance, etc.).
4. Full lifecycle management
   • Participate in equipment installation and commissioning
   • Supports the accumulation of subsequent operation and maintenance information.

Job Requirements

Essential

• Mechanical, process equipment, energy or related engineering majors
• Familiar with equipment engineering processes

Bonus points

• Experience in large equipment supply chain
• Familiar with pressure vessels, rotating machinery or heat exchangers

Job Highlights

• It combines technical and engineering management attributes, making it a dual-track position of "technology + delivery".

Position 4: System Chief Engineer (Primary Testing) ×1

Job Mission

As the technical lead for the primary side system, I oversee the overall circuit architecture, key parameters, equipment configuration, and cross-departmental interfaces.

Job Responsibilities

1. System Overall Design
   • Leading the primary loop architecture, process scheme, and key parameter definition
   • Responsible for process optimization and operating condition strategy formulation
2. Key technical solutions
   • key components (IHX, circulator, etc.)
   • Provides key operating conditions, boundary conditions, and risk assessments.
3. Cross-system coordination
   • Coordinate design interfaces across multiple disciplines including thermal engineering, fluid dynamics, control, and electrical engineering.
   • Leading review meetings and technical decisions
4. Quality and safety control
   • Ensure the design meets safety, regulatory and engineering practice standards.
   • Controlling design documents and delivery quality

Job Requirements

Essential

• 10+ years of experience in thermal / fluid engineering or primary loop design
• Possesses a system engineering perspective and overall solution control capabilities

Bonus points

• Participated in the design of large-scale thermal fluid systems
• Experience in cross-departmental collaboration

Job Highlights

• The department's chief technical officer directly influences the overall reactor design.

📘 Chief System Engineer ×1

Job responsibilities

• Responsible for the overall system plan, technical route, and architecture design of the energy conversion and secondary circuit section.
• It leads the cross-system integration of thermodynamic cycles, turbines, condensers, energy storage, and power electronics.
• Lead the coordination of interfaces with departments such as primary side, I&C, electrical, and safety permitting.
• Leading system-level security analysis, FMEA, HAZOP, and critical technology reviews.
• Control the supply chain and technology cooperation routes, and participate in technical negotiations for major equipment.
• Guide the team's technical growth and develop R&D plans and project milestones.

Job Requirements

• or doctoral degree in thermal engineering, power engineering, mechanical engineering or related fields.
• 8 years of experience in energy systems, conventional island of nuclear power plants or large-scale unit integration.
• Has a comprehensive understanding of the Brayton cycle, steam cycle, turbines, and energy storage systems.
• Experience in systems engineering (MBSE, model-based design, V&V).
• Possesses the ability to make cross-departmental technical decisions.

Bonus points

• leading or being the technical lead for more than one power plant / unit system general contracting or project.
• Familiar with nuclear power licensing procedures or safety analysis.

Typical background

Chief Engineer of Conventional Island in Nuclear Power Plants, Head of Combined Cycle Power Plant Systems, Chief Engineer of Large Turbine Projects, and Senior Engineer at the Energy Research Institute.

📘 1. Instrumentation & Control Engineer (I&C) ×3

Main responsibilities

• Responsible for the scheme design and hierarchical architecture planning of nuclear-grade instrumentation and control systems (protection systems, control systems, and monitoring systems).
• Develop and maintain PLC/DCS/SCADA programs and protection logic (including safety-grade software).
• Responsible for the design and selection of sensors, actuators, and signal chains for the entire plant.
• Construct device-level, subsystem-level, and system-level communication networks (such as...) EtherCAT, Profibus, CAN, OPC UA).
• Participate in the model building and joint debugging of digital twin control systems.
• Supports debugging, HIL/SIL testing, V&V verification, and on-site fault diagnosis.

Job Requirements

• or Master's degree or above in Automation, Control Engineering, Measurement and Control, or Instrumentation.
• Familiar with nuclear-grade or industrial-grade control systems (DCS/PCS/PLC-SIS).
• Familiar with security-level software standards such as IEC 61508 / IEC 60880 / IEEE 7-4.3.2.
• It can perform control logic design, loop calculation, signal processing and system debugging.
• Proficient in at least one PLC (Triconex, HIMA, ABB, Siemens, Schneider, etc.).

Bonus points

• should have backgrounds in nuclear power plant I&C, petrochemical SIS, or power control.
• Has experience with HIL/SIL simulation (MATLAB/Simulink or...) dSPACE).
• Possesses experience in digital twins, industrial communication buses, and embedded development.

Typical background

Nuclear Power Instrumentation Engineer | Petrochemical Instrumentation Engineer | DCS/PLC Integration Engineer | Control Algorithm Engineer

📘 2. Electrical Engineer Engineer ×2

Main responsibilities

• Responsible for the overall design of the factory's electrical system, including: medium / low voltage power distribution, UPS, batteries, emergency diesel engines, inverters, etc.
• Complete the design of the primary system, secondary system, protection and relay systems.
• Participate in the selection of electrical equipment, the preparation of specifications, the negotiation of technical agreements, and the FAT/SAT.
• Establish an electrical system simulation model (short-circuit current, power flow analysis, transient stability).
• Design the grounding system, cable laying plan, fire protection rating and explosion-proof requirements.
• Work with the instrumentation and control department to complete the overall linkage design of I&C and electrical systems.

Job Requirements

• Bachelor's degree or above in Electrical Engineering, Power Systems or Automation.
• Familiar with IEC/IEEE electrical standards, power electronics fundamentals, and electrical protection systems.
• Be familiar with one power system analysis tool (ETAP, DIgSILENT, PSCAD).
• Understand the structure and testing methods of equipment such as UPS/ batteries, distribution cabinets, transformers, and circuit breakers.

Bonus points

• EPC electrical design for nuclear power conventional islands, power grids, and power plants.
• Has experience in the research and development of emergency power supply systems and safety control power supplies.
• Familiar with three-level load power supply schemes or nuclear-grade power systems.

Typical background

EPC Electrical Design | Power Research Institutes | Power Plant Operation and Maintenance Electrical | UPS/ Energy Storage / Inverter Engineers

📘 3. Cybersecurity Engineer (Industrial) Cybersecurity Engineer ×1

Main responsibilities

• Responsible for planning the industrial cybersecurity system for nuclear facilities: zoning, hierarchical management, interface management, whitelisting, and zero-trust architecture.
• Build an industrial control network security protection system (IDS/IPS, bastion host, firewall, log platform).
• Responsible for ICS network risk analysis, vulnerability assessment, threat modeling, and attack and defense verification.
• Participated in the security design of network communication protocols (OPC UA, Modbus, IEC 61850).
• It supports emergency response, forensic analysis, security hardening, and penetration testing.
• Collaborate with instrumentation and control and electrical departments to ensure that the control system meets nuclear safety level requirements.

Job Requirements

• Master's degree or above in cybersecurity, computer science, information security or automation-related fields.
• Familiar with industrial control system safety standards: IEC 62443, GB/T 30976 series, NIST SP800 series.
• Understand the control system architecture (PLC/DCS/RTU) in an OT environment.
• Possesses network attack and defense capabilities: penetration testing, security scanning, asset identification, log analysis, etc.

Bonus points

• Experience in nuclear facilities, energy, electricity, and petrochemical safety systems.
• Familiar with industrial protocol security and whitelisting strategies.
• It has certifications such as CISSP, CISP, CEH, and ISA/IEC 62443.

Typical background

Industrial Control System Security Engineer | Cybersecurity Consultant | Critical Infrastructure Security Positions | Attack and Defense Lab Engineer

📘 4. Chief System Engineer (I&C & Electrical) ×1

Main responsibilities

• Responsible for the overall architecture, technical roadmap, and interface standards of the plant's instrumentation, control, and electrical systems.
• the main control room / main control system, security-grade I&C, electrical system, and network security system.
• Perform system-level security analysis (FMEA/HAZOP/SIL) and license logic design.
• Coordinate the technical decisions, delivery quality, and milestone execution of the I&C, electrical, and cybersecurity teams.
• The representative department coordinates with departments such as the Safety Permit Department, Core Systems, and Thermal Systems across departments.
• Leading supply chain reviews, bidding for major equipment, and reviews of key technologies.

Job Requirements

• Master's degree or above in Automation, Electrical Engineering, Nuclear Engineering, or Control Engineering.
• 8 years of experience in nuclear power plant instrumentation / electrical or large-scale industrial control systems.
• of nuclear power I&C architecture, power redundancy strategies, protection systems, safety-grade software, and industrial control security systems.
• Proficient in systems engineering methodologies (MBSE/V&V/ requirements management).
• Possesses cross-departmental technical coordination and project management capabilities.

Bonus points

• Previously served as the overall manager / chief engineer for nuclear power plant I&C or control room projects.
• Familiar with nuclear safety regulatory frameworks: HAF series, IAEA SSG series.
• Has experience in building large-scale smart power plants or digital control rooms.

Typical background

Nuclear Power I&C Chief Engineer | Industrial Control System Chief Architect | Power Plant or Petrochemical Control Room Manager | Safety-Grade Software / Power Supply Expert

📘 1. PSA Engineer (Probabilistic) Safety Analysis Engineer) ×2

Main responsibilities

• Responsible for performing PSA Level 1, Level 2, and Level 3 analyses (accident sequence, source term, and critical incident analysis).
• Establish and maintain a plant-wide PRA model (event tree / fault tree, leakage path analysis).
• Assess the impact of design changes on risk metrics (CDF/LERF).
• Participate in reliability analysis and sensitivity assessment of passive safety systems, emergency cooling systems, etc.
• Participate in the preparation of safety review materials, including risk warnings and safety technical support documents.
• PSA chapters to regulatory agencies.

Job Requirements

• Master's degree or above in nuclear engineering, safety engineering, systems engineering or energy-related majors.
• Familiar with PSA methodology, FMEA, HAZOP, LOPA, risk matrix and other tools.
• Proficient in using risk analysis software (such as RiskSpectrum, CAFTA, SAPHIRE).
• Understand the reactor system structure, emergency system, and thermal-hydraulic fundamentals.

Bonus points

• Has experience in nuclear power plant or research reactor PSA projects.
• Understand Severe Incident Management (SAMG) or Incident Source Item Calculation (MELCOR).
• Be familiar with the regulatory requirements for PSA review.

Typical background

Nuclear Power PSA Engineer | Reliability Engineer | Master / PhD in Safety Analysis | Safety Talent in Systems Engineering

📘 2. Radiation Protection Engineer ×1

Main responsibilities

• Responsible for establishing a plant-wide radiation protection system: shielding design, radiation zone division, and personal dose management.
• Calculations and optimizations were performed on radiation source terms, activation, shielding thickness, dose rate, etc.
• Select and deploy a plant-wide online radiation monitoring system (air / water / components).
• Prepare radiation protection related documents: ALARA strategy, radiation work permits, and emergency response plans.
• Responsible for radiation-related training, calibration of monitoring equipment, and regulatory compliance checks.
• Supports licensed engineers in connecting to the HP (Health and Physical) section of regulatory agencies.

Job Requirements

• Bachelor's degree or above in radiation protection, nuclear technology, nuclear physics, medical physics or related fields.
• Familiar with radiation monitoring, activation analysis, dosimetry fundamentals, and shielding calculations.
• can use MCNP/FLUKA/GEANT4 or other radiation tools will be given priority.
• Understand the radiation protection regulations for nuclear power plants (HAF, GB, IAEA).

Bonus points

• Has practical experience in radiation protection (nuclear power, hospital radiotherapy, research reactors).
• Has experience with ALARA projects or HP system certification.

Typical background

Nuclear Power Radiation Protection Engineer | Scientific Research Radiation Protection Officer | Medical Physicist | Shielding and Dosimetry Calculation Specialization

📘 3. Licensing Engineer Engineer ×2

Main responsibilities

• Responsible for the entire process of nuclear facility licensing strategy planning: preliminary communication, licensing pathway, and technical requirements analysis.
• Write and maintain multiple types of license files:
  • Preliminary Security Analysis Report (PSAR)
  • Final Security Analysis Report (FSAR)
  • Design change permit
  • Regulatory compliance matrix
• Liaise with regulatory agencies (such as the National Nuclear Safety Administration), prepare meeting materials, and respond to review comments.
• Conduct regulatory compliance reviews of the design outputs of each internal system.
• Leading the identification of licensing risks and tracking of regulations (domestic and international standards).
• Support emergency drills, safety culture development, and regulatory communication.

Job Requirements

• or Master's degree or above in nuclear engineering, energy engineering, safety engineering, law / engineering management, or related fields.
• Familiar with the nuclear safety regulatory system (HAF series, GB series, IAEA SSR/SSG series).
• It has the ability to understand and break down the technical processes of each physical system (core, I&C, thermal, etc.).
• Possesses strong document drafting, cross-departmental coordination, and regulatory communication skills.

Bonus points

• Involved in nuclear facility licensing (nuclear power plants, research reactors, small modular reactors, nuclear fuel plants).
• Familiarity with PRA/PSA basics, and experience in systems engineering or MBSE is a plus.
• Has a legal background or translation skills (English to Chinese, or Chinese to English).

Typical background

Nuclear Power Licensing / Safety Assessment Engineer | Master's Degree in Engineering Management / Safety Engineering | International Standards and Compliance Engineer

📘 Chief System Engineer (BOP & Fuel Handling) ×1

Main responsibilities

• Responsible for the overall architecture and technical roadmap of the plant auxiliary systems, fuel loading and unloading systems, waste fuel treatment, and robot maintenance systems.
• Lead the definition of functional requirements, interface management, and system debugging strategies for key systems.
• Define the performance indicators, reliability targets, and design specifications of the plant-wide BOP system.
• System interfaces and security boundaries for connecting to various main systems (core, primary loop, secondary loop, instrumentation and control).
• Participate in the drafting of licensing documents (BOP-related sections) to ensure regulatory compliance.
• Leading major technical reviews, hazard analysis (FMEA/HAZOP), and supply chain decisions.
• Guide BOP engineers and robotics teams in the development and delivery of technologies.

Job Requirements

• Doctoral degrees in Power Engineering, Thermal Engineering, Nuclear Engineering, and Mechanical Engineering.
• 8 years of system integration experience in nuclear power, chemical industry, and energy systems.
• Familiar with any area such as water treatment, gas systems, waste management, or fuel loading and unloading systems.
• Possesses systems engineering methodologies (MBSE, requirements management, V&V).
• Has experience in cross-departmental coordination and project management.

Bonus points

• nuclear power plant BOP or fuel processing projects.
• Familiar with nuclear power licensing and safety analysis systems.
• experience as chief engineer of large-scale chemical / energy plant systems.

Typical background

Nuclear Power Plant BOP Chief Engineer | Nuclear Waste and Fuel Treatment Expert | EPC System Lead Engineer | Energy / Chemical Systems Chief Engineer

📘 1. System Architect (MBSE/PLM Architect) ×1

Main responsibilities

• Leading the MBSE model system, parametric modeling specifications, and plant-wide PLM configuration management framework.
• Responsible for the construction of the Digital Thread: data integration from requirements to design, simulation, testing, and operation.
• Design the system engineering process: requirements management, interface governance, V&V process, and change control.
• Lead the development of the system architecture for the digital twin platform and formulate modeling methodologies.
• Connect with various professional departments to define a unified data structure, model interface, and version management strategy.
• Coordinate the platform toolchain: Cameo / Rhapsody / Teamcenter / Windchill / GitLab.

Job Requirements

• in Systems Engineering, Software Engineering, Nuclear Engineering, Aerospace / Mechanical Information Technology, or related fields.
• Gain a deep understanding of MBSE, SysML, requirements management, and architecture modeling.
• Familiar with at least one PLM/ALM system (Teamcenter, Windchill, Polarion).
• Has systems engineering experience with complex equipment (nuclear power / aerospace / aviation / energy).

Bonus points

• I have participated in the construction of digital twins or digital mainlines.
• V&V/QA/SQA of nuclear power or high-reliability systems.

Typical background

Systems Engineer | PLM Architect | Aerospace / Nuclear Power Digitalization Lead | Senior Software Architect (Engineering Software)

📘 2. Multiphysics Simulation Engineer ×3

Main responsibilities

• Responsible for establishing a multiphysics simulation system:
  • Neutronics (OpenMC /MCNP)
  • Thermal Hydraulics /CFD (OpenFOAM /FLUENT)
  • Structural Mechanics (CalculiX / Abaqus)
  • Radiation and source term analysis (MELCOR/MCNP)
• Perform coupled simulations: full reactor coupling analysis including neutron - thermal - structural aspects.
• Develop an automated simulation pipeline (workflow + parametric model).
• Write simulation verification documents (V&V report), material models, and boundary condition libraries.
• Supports the chief system engineer and key design verification for various professional departments.

Job Requirements

• Doctoral degrees in nuclear engineering, thermal engineering, hydraulics, fluid mechanics, computational mechanics, applied mathematics, etc.
• Master at least two types of simulation tools (CFD/ neutronics / structural mechanics).
• Familiar with the fundamentals of mesh generation, turbulence models, fuel consumption calculation, or heat transfer calculation.
• Familiar with Linux, HPC, and script automation (Python/ Bash).

Bonus points

• There is experience with multiphysics coupling (OpenFOAM + MCNP, etc.).
• Has experience in high-performance computing and batch task management (Slurm).

Typical background

Simulation Engineer at Nuclear Power Design Institute | CFD Engineer | PhD in Computational Physics from Research Institutions | CAE Simulation Expert

📘 3. Machine Learning Engineer ×2

Main responsibilities

• Develop models for core design, thermal systems, and material aging. (surrogate models)
• Develop reduced-order models (ROM), performance prediction models, and optimization algorithms.
• Supports digital twin systems: online prediction, fault diagnosis, and intelligent parameter tuning.
• Establish a data augmentation method: Simulation data → Machine learning model → Rapid prediction.
• Develop a design space exploration and automatic optimization tool based on machine learning.

Job Requirements

• Master's degree or above in computer science, artificial intelligence, applied mathematics, statistics, or engineering.
• familiar TensorFlow / PyTorch, SciPy, Sklearn.
• understand surrogate Modeling: GPR, RBF, neural networks, physical guidance model (PINN).
• It can process simulation data (CFD, FEM, neutronics) and build data pipelines.

Bonus points

• Has a background in physical modeling (fluid dynamics, materials science, nuclear engineering, etc.).
• Familiar with optimization algorithms (GA, Bayesian Optimization).

Typical background

AI Engineer (Scientific Computing) | Interdisciplinary Researcher in Physics and AI | Engineering ML Development

📘 4. DevOps Engineer (DevOps / Platform Engineer) ×1

Main responsibilities

• Build a digital engineering platform with CI/CD, containerization, and environment management.
• Manage HPC clusters and task scheduling systems (Slurm /PBS).
• Build an internal software repository, mirror repository, and toolchain distribution system.
• the deployment and permissions of simulation tools, MBSE tools, and data platforms.
• To automate the testing, compilation, version control, and delivery processes.

Job Requirements

• Bachelor's degree or above in Computer Science, Software Engineering, or Operations and Maintenance.
• Familiar with Docker/Singularity, Kubernetes, GitLab CI.
• Familiar with Linux, Shell, Python, and basic network security.
• with experience in HPC environment maintenance will be given priority.

Bonus points

• Familiar with the installation and license management of engineering simulation software (CFD/FEM).
• Large-scale computing platforms DevOps experience.

Typical background

DevOps Engineer | HPC Management Engineer | Engineering Software Platform Operations and Maintenance

📘 5. Data Engineer ×1

Main responsibilities

• Build a plant-wide data lake, data governance system, and metadata management system.
• Responsible for the collection, cleaning, organization, indexing, and access control of simulation, power plant operation, and test data.
• Build large-scale data storage (time-series databases, object storage, HDFS).
• Build data access APIs to provide efficient data flow for ML engineers and multiphysics teams.
• Establish a data quality (DQ), data security, auditing, and backup system.

Job Requirements

• or Master's degree in Data Engineering, Computer Science, Software Engineering, or a related field.
• Familiar with SQL/ NoSQL, distributed storage, ETL pipeline, and data governance frameworks.
• Familiar with at least one big data component (Spark, Hive, Kafka).
• Familiarity with Python or Java for data processing and interface development.

Bonus points

• Has experience in processing industrial data, simulation data, or time-series data.
• Familiar with data lifecycle management or data security systems.

Typical background

Data Engineer | Big Data Platform Engineer | Industrial Data Analytics Engineer

📘 Center Director ×1

Main responsibilities

• Coordinate the overall planning, testing capacity building, and equipment investment of the testing and verification center.
• Oversee the research and development, construction, debugging, and operation of all test benches.
• Liaise with the chief engineers of each system to develop test requirements, priorities, and annual test plans.
• Responsible for the quality of experimental data and the safety of experimental procedures.
• Establish experimental methodology (V&V system), data management system, and QA/QC mechanism.
• Organize supply chain assessments, sensor / equipment selection, and equipment procurement.
• Responsible for departmental team building, talent development, and cross-departmental collaboration.
• Connect with the licensing team to provide experimental evidence and review support for security analysis.

Job Requirements

• or doctoral degree in nuclear engineering, power engineering, mechanical engineering, materials science, or a related field.
• 8 years of experience in energy equipment, nuclear power, aero engines or scientific experimental platforms.
• Familiar with the testing system P&ID, control system, safety procedures, and QA processes.
• Has the ability to lead a multidisciplinary experimental team (thermal / mechanical / measurement / control, etc.).
• Solid project management skills (schedule, risk, supply chain).

Bonus points

• He was responsible for the construction of large-scale test platforms (thermal test benches, materials laboratories, nozzles / wind tunnels, gas turbine tests, etc.).
• Familiar with nuclear safety regulations and test review procedures.
• Possesses cross-departmental communication and strategic planning skills.

Typical background

Test Center Director | Research Laboratory Head | Aviation / Nuclear Power Test Supervisor | Large Equipment Test Project Leader

Email: hr@eurelite.com

Subject Format: [Apply] Direction + Name
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