Valar Atomics
Senior Nuclear Instrumentation & Controls Engineer
Valar Atomics, Hawthorne, California, United States, 90250
You will serve as a senior technical authority for nuclear instrumentation and controls (I&C) systems with a focus on neutron detection, detector signal processing electronics, and radiation monitoring equipment. This role supports reactor design, test operations, and safety-significant monitoring systems, ensuring compliance with nuclear industry codes and standards. You will lead design efforts, system integration, vendor oversight, safety evaluations, and commissioning activities for reactor protection and radiation monitoring systems.
Key Responsibilities Instrumentation & Detection Systems
Lead design, specification, selection, and integration of neutron detectors (e.g., fission chambers, boron-lined detectors) and associated signal conditioning electronics (wide-range, source range channels).
Design and validate radiation monitoring systems including area monitors, process radiation monitors, stack monitors, and coolant activity systems.
Oversee detector placement, shielding design, and response characterization (in-core and ex-core).
Perform calibration strategies and uncertainty analyses for neutron flux power range, intermediate range, and startup-range instrumentation.
I&C Engineering
Develop and maintain I&C architectures for safety-related and non-safety systems in accordance with IEEE 603, IEC 61508, and DOE guidance.
Produce and review engineering deliverables: control logic, loop diagrams, instrument datasheets, architecture drawings, control narratives, and functional requirement specifications.
Execute I&C system modeling, failure modes analysis, response time calculations, and SIL/Category/Level classification (per IEC/ISA standards).
Design interfaces to PLCs, safety-significant controllers, distributed I/O, and high-reliability digital platforms.
Guide system integration with reactor protection, and radiation monitoring systems.
Testing, Validation, and Qualification
Lead Factory Acceptance Tests (FAT), Site Acceptance Tests (SAT), environmental qualification (EQ), and seismic qualification for sensitive instrumentation.
Develop calibration, maintenance, and surveillance procedures for neutron and radiation detectors.
Support performance testing, flux mapping, channel operability checks, trip setpoint verification, and acceptance criteria development.
Regulatory & Standards Compliance
Ensure system designs adhere to nuclear regulatory requirements, including DOE Reg Guides, IEEE standards, IAEA SSG-39, and ANS/ANS-related instrumentation standards.
Prepare and review technical documentation for licensing, safety basis, and hazard analysis activities.
Participate in I&C-related inputs and support for deterministic safety analyses.
Leadership & Collaboration
Mentor junior engineers and provide technical guidance across interdisciplinary teams.
Collaborate with reactor physics, thermal-hydraulics, electrical engineering, and operations teams to meet program requirements.
Interface with vendors, labs, and regulatory bodies on detector procurement, radiation monitoring equipment, and safety systems.
Minimum Qualifications
Bachelor’s degree in Nuclear Engineering, Electrical Engineering, Physics, or related discipline.
8–12+ years of experience in nuclear I&C, radiation detection, reactor protection, or related areas.
Hands‑on experience with:
Neutron detectors (fission chambers, B-10 proportional counters)
Signal processing electronics (wide-range, source range channels)
Area/process radiation monitors and environmental monitoring instrumentation
Strong understanding of nuclear standards: IEEE 603, ANSI/ANS-specific radiation monitoring standards
Experience with safety classification, SIL analysis, FMEA, and hazard analysis.
Ability to lead technical projects and cross‑functional engineering efforts.
Preferred Qualifications
Master’s degree or Ph.D. in Nuclear Engineering or related field.
Experience with HTGR, sodium‑cooled, or research reactor designs.
Experience with data acquisition systems, digital I&C platforms, and PLCs (e.g., Allen‑Bradley).
Familiarity with radiation transport modeling and detector response simulations.
Experience with environmental qualification per IEEE 323 and seismic qualification per IEEE 344.
Prior regulatory engagement (NRC, DOE, INL, ORNL, etc.).
Experience writing safety basis documents, technical reports, or licensing submittals.
Key Competencies
Deep technical knowledge of radiation detection principles and nuclear I&C systems
Strong analytical and systems‑engineering mindset
Ability to guide teams and make high‑consequence design decisions
#J-18808-Ljbffr
Key Responsibilities Instrumentation & Detection Systems
Lead design, specification, selection, and integration of neutron detectors (e.g., fission chambers, boron-lined detectors) and associated signal conditioning electronics (wide-range, source range channels).
Design and validate radiation monitoring systems including area monitors, process radiation monitors, stack monitors, and coolant activity systems.
Oversee detector placement, shielding design, and response characterization (in-core and ex-core).
Perform calibration strategies and uncertainty analyses for neutron flux power range, intermediate range, and startup-range instrumentation.
I&C Engineering
Develop and maintain I&C architectures for safety-related and non-safety systems in accordance with IEEE 603, IEC 61508, and DOE guidance.
Produce and review engineering deliverables: control logic, loop diagrams, instrument datasheets, architecture drawings, control narratives, and functional requirement specifications.
Execute I&C system modeling, failure modes analysis, response time calculations, and SIL/Category/Level classification (per IEC/ISA standards).
Design interfaces to PLCs, safety-significant controllers, distributed I/O, and high-reliability digital platforms.
Guide system integration with reactor protection, and radiation monitoring systems.
Testing, Validation, and Qualification
Lead Factory Acceptance Tests (FAT), Site Acceptance Tests (SAT), environmental qualification (EQ), and seismic qualification for sensitive instrumentation.
Develop calibration, maintenance, and surveillance procedures for neutron and radiation detectors.
Support performance testing, flux mapping, channel operability checks, trip setpoint verification, and acceptance criteria development.
Regulatory & Standards Compliance
Ensure system designs adhere to nuclear regulatory requirements, including DOE Reg Guides, IEEE standards, IAEA SSG-39, and ANS/ANS-related instrumentation standards.
Prepare and review technical documentation for licensing, safety basis, and hazard analysis activities.
Participate in I&C-related inputs and support for deterministic safety analyses.
Leadership & Collaboration
Mentor junior engineers and provide technical guidance across interdisciplinary teams.
Collaborate with reactor physics, thermal-hydraulics, electrical engineering, and operations teams to meet program requirements.
Interface with vendors, labs, and regulatory bodies on detector procurement, radiation monitoring equipment, and safety systems.
Minimum Qualifications
Bachelor’s degree in Nuclear Engineering, Electrical Engineering, Physics, or related discipline.
8–12+ years of experience in nuclear I&C, radiation detection, reactor protection, or related areas.
Hands‑on experience with:
Neutron detectors (fission chambers, B-10 proportional counters)
Signal processing electronics (wide-range, source range channels)
Area/process radiation monitors and environmental monitoring instrumentation
Strong understanding of nuclear standards: IEEE 603, ANSI/ANS-specific radiation monitoring standards
Experience with safety classification, SIL analysis, FMEA, and hazard analysis.
Ability to lead technical projects and cross‑functional engineering efforts.
Preferred Qualifications
Master’s degree or Ph.D. in Nuclear Engineering or related field.
Experience with HTGR, sodium‑cooled, or research reactor designs.
Experience with data acquisition systems, digital I&C platforms, and PLCs (e.g., Allen‑Bradley).
Familiarity with radiation transport modeling and detector response simulations.
Experience with environmental qualification per IEEE 323 and seismic qualification per IEEE 344.
Prior regulatory engagement (NRC, DOE, INL, ORNL, etc.).
Experience writing safety basis documents, technical reports, or licensing submittals.
Key Competencies
Deep technical knowledge of radiation detection principles and nuclear I&C systems
Strong analytical and systems‑engineering mindset
Ability to guide teams and make high‑consequence design decisions
#J-18808-Ljbffr