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The Digital Implementation of USNRC Regulatory Guide 1.203

OGMA is a collaborative digital platform that links engineering simulations, test data collection from disparate sources, data analytics, and documentation artifacts at enterprise scale.

The suite enables organizations to maximize the value of their technical data while promoting engineering process efficiency and ensuring data traceability and integrity.

The OGMA suite consists of three modules that share a central database as a single source of truth.

The first module is a commercial grade, lightweight, and highly-scalable document management solution with stringent quality control attributes based on NQA-1.

The second module helps to access accurate and reliable test data essential for engineering organizations, utilities, universities, and government agencies. This module organizes and unifies disparate data sources including numerical data files, reports, and drawings.

The third module provides a browser-based web UI to manage simulation frameworks, with generic compatibility and support for nuclear engineering tools. The included API allows a high degree of automation and organizational collaboration. Users can submit simulations from a laptop, tablet, or mobile device, receive notifications when a simulation completes, and share results, plots, and other visualizations with collaborators.

OGMA

The Digital Implementation of USNRC Regulatory Guide 1.203

OGMA is a collaborative digital platform that links engineering simulations, test data collection from disparate sources, data analytics, and documentation artifacts at enterprise scale.

The suite enables organizations to maximize the value of their technical data while promoting engineering process efficiency and ensuring data traceability and integrity.

  • The OGMA suite consists of three modules that share a central database as a single source of truth.
  • The first module is a commercial grade, lightweight, and highly-scalable document management solution with stringent quality control attributes based on NQA-1.
  • The second module helps to access accurate and reliable test data essential for engineering organizations, utilities, universities, and government agencies. This module organizes and unifies disparate data sources including numerical data files, reports, and drawings.
  • The third module provides a browser-based web UI to manage simulation frameworks, with generic compatibility and support for nuclear engineering tools. The included API allows a high degree of automation and organizational collaboration. Users can submit simulations from a laptop, tablet, or mobile device, receive notifications when a simulation completes, and share results, plots, and other visualizations with collaborators.

A Smart Safety Case Builder for The Design and Licensing of Nuclear Reactors

RISE is a cutting-edge solution created to help advanced reactor developers orchestrate the complexities associated with implementing a risk-informed design process while reducing design cycle and costs like no other generic productivity tool.

This state-of-the-art software helps to:

Create a collaborative environment for engineering teams and stakeholders within their organization as they build the ‘safety case’ for their plant.

Digest large and complex data structures needed to characterize the engineered safety features and relationships with scenarios and events.

Optimize design to satisfy safety and economics goals.

Guide analysts through complex workflows of simulations, data processing and qualification, analyses, and documentation.

Maximize the value of enterprise technical data with enhanced security and process automation.

Automate the creation of documentation and smart procedures for quality, transparency and expedited regulatory review.

Provide a platform for maintaining the safety case throughout the life of the plant.

Fit seamlessly within established processes of the organization.

RISE

A Smart Safety Case Builder for The Design and Licensing of Nuclear Reactors

RISE is a cutting edge solution created to help advanced reactor developers orchestrate the complexities associated with implementing a risk-informed design process while reducing design cycle and costs like no other generic productivity tool.

  • Create a collaborative environment for engineering teams and stakeholders within their organization as they build the ‘safety case’ for their plant.
  • Digest large and complex data structures needed to characterize the engineered safety features and relationships with scenarios and events.
  • Optimize design to satisfy safety and economics goals.
  • Guide analysts through complex workflows of simulations, data processing and qualification, analyses, and documentation.
  • Maximize the value of enterprise technical data with enhanced security and process automation.
  • Automate the creation of documentation and smart procedures for quality, transparency and expedited regulatory review.
  • Provide a platform for maintaining the safety case throughout the life of the plant.
  • Fit seamlessly within established processes of the organization.

A Digital-Twin Enterprise Infrastructure for Plant Asset Monitoring and Predictive Maintenance

ADALIX (under development) is intended to be a light-weight agile Digital-Twin and AI platform tailored for the nuclear industry.

ADALIX is architected to provide a unique enterprise-level framework for the nuclear industry to deploy advanced predictive maintenance infrastructures to characterize health of systems and components in power plants at scale.

This state-of-the-art software helps to:

Accurately simulate power plant industrial assets and systems degradation mechanisms, forecast asset failures, and estimate residual life.

Perform pattern recognition on sensor data but triage with physics-based modeling to add explainability and transparency in predictions.

Perform automated diagnostics.

Interact/connect with existing condition monitoring platforms and data historians.

Respond to regulatory demands unique in the nuclear industry.

ADALIX

A Digital-Twin Enterprise Infrastructure for Plant Asset Monitoring and Predictive Maintenance

ADALIX (under development) is intended to be a light-weight agile Digital-Twin and AI platform tailored for the nuclear industry.

ADALIX is architected to provide a unique enterprise-level framework for the nuclear industry to deploy advanced predictive maintenance infrastructures to characterize health of systems and components in power plants at scale.

  • Accurately simulate power plant industrial assets and systems degradation mechanisms, forecast asset failures, and estimate residual life.
  • Perform pattern recognition on sensor data but triage with physics-based modeling to add explainability and transparency in predictions.
  • Perform automated diagnostics.
  • Interact/connect with existing condition monitoring platforms and data historians.
  • Respond to regulatory demands unique in the nuclear industry.

Intelligent Dispatch and Optimization of Multi- Commodity Energy Systems

GAIA (under development) is a web-based techno-economic analysis report.

GAIA allows energy systems stakeholders to rapidly explore options and feasibility of large-scale infrastructure to respond to future energy demand on a variety of market scenarios which includes or not nuclear energy within a mixed portfolio.

The energy transition has been dominated by the expansion of variable renewables energy (VREs) capacity. These energy sources are not directly dispatchable and require large energy storage infrastructures to efficiently meet energy demand. As the VREs make up a significant fraction of the energy portfolio in a market, complications arise in the grid infrastructures. Nuclear energy can play a key role in addressing these issues, but it must demonstrate to be more flexible and competitive than in the past. Access a large database of market scenarios and assumptions to identify.

GAIA provide access to a large database of market scenarios (energy demand, energy commodities and prices, system costs), assumptions, sensitivity studies and advanced analytics to assess technical feasibility of large energy infrastructures considering the entire project lifecycle, optimize dispatch capacity requirements and return of investment, assess grid issues.

GAIA

Intelligent Dispatch and Optimization of Multi- Commodity Energy Systems

GAIA (under development) is a web-based techno-economic analysis report.

GAIA allows energy systems stakeholders to rapidly explore options and feasibility of large-scale infrastructure to respond to future energy demand on a variety of market scenarios which includes or not nuclear energy within a mixed portfolio.

  • The energy transition has been dominated by the expansion of variable renewables energy (VREs) capacity. These energy sources are not directly dispatchable and require large energy storage infrastructures to efficiently meet energy demand. As the VREs make up a significant fraction of the energy portfolio in a market, complications arise in the grid infrastructures. Nuclear energy can play a key role in addressing these issues, but it must demonstrate to be more flexible and competitive than in the past. Access a large database of market scenarios and assumptions to identify.
  • GAIA provides access to a large database of market scenarios (energy demand, energy commodities and prices, system costs), assumptions, sensitivity studies and advanced analytics to assess technical feasibility of large energy infrastructures considering the entire project lifecycle, optimize dispatch capacity requirements and return of investment, assess grid issues.

TRIBOS is an agile solution for mechanical seal engineering. With a rigorous theoretical foundation, verified accuracy, and a user-friendly interface, TRIBOS is an engineering software package specialized for simulating mechanical seals.

TRIBOS uses finite element method and computational fluid dynamics techniques to perform realistic calculations of seal behavior, leading to better quality and lower cost.

TRIBOS is generalized and flexible, allowing the user to build and configure models that are tailored to the problem of interest via the Desktop GUI, which in the near future will be also available via a web-based user interface. TRIBOS features a Simulation Manager and the Dynamic Wear Module (DWM).

TRIBOS Desktop: An interactive platform allowing a seal designer to model and analyze seal designs.

TRIBOS Simulation Manager: A command-line-based application which allows users to perform large arrays of simulation cases with automated sampling of many inputs including geometric dimensions, operating conditions, and face topography details.

TRIBOS Dynamic Wear Module (DWM): A specialized solver within the TRIBOS Simulation Manager that is used to simulate abrasive wear of the seal faces during operation.

TRIBOS employs numerical, analytical, and empirical models within a cohesive framework to estimate many aspects of mechanical seal behavior including: fluid dynamics, structural mechanics, heat transfer, tribology, and wear dynamics.

The modeling capabilities provided by TRIBOS allow a seal designer to estimate common performance parameters such as: torque, leakage rate, heat generation, film thickness, and more.

Performance parameters are estimated as a function of design inputs such as: component geometry, material properties, face topography, and operating conditions.

TRIBOS

TRIBOS is an agile solution for mechanical seal engineering. With a rigorous theoretical foundation, verified accuracy, and a user-friendly interface, TRIBOS is an engineering software package specialized for simulating mechanical seals.

TRIBOS uses finite element method and computational fluid dynamics techniques to perform realistic calculations of seal behavior, leading to better quality and lower cost.

  • TRIBOS is generalized and flexible, allowing the user to build and configure models that are tailored to the problem of interest via the Desktop GUI, which in the near future will be also available via a web-based user interface. TRIBOS features a Simulation Manager and the Dynamic Wear Module (DWM).
  • TRIBOS Desktop: An interactive platform allowing a seal designer to model and analyze seal designs.
  • TRIBOS Simulation Manager: A command-line-based application which allows users to perform large arrays of simulation cases with automated sampling of many inputs including geometric dimensions, operating conditions, and face topography details.
  • TRIBOS Dynamic Wear Module (DWM): A specialized solver within the TRIBOS Simulation Manager that is used to simulate abrasive wear of the seal faces during operation.
  • TRIBOS employs numerical, analytical, and empirical models within a cohesive framework to estimate many aspects of mechanical seal behavior including: fluid dynamics, structural mechanics, heat transfer, tribology, and wear dynamics.
  • The modeling capabilities provided by TRIBOS allow a seal designer to estimate common performance parameters such as: torque, leakage rate, heat generation, film thickness, and more.
  • Performance parameters are estimated as a function of design inputs such as: component geometry, material properties, face topography, and operating conditions.

FPoliSolutions has developed its own proprietary multipurpose service-oriented software platform called FPoliAAP (FPoli Agile Application Platform). FPoliAAP is a highly collaborative digital platform that links engineering simulations, data analytics, risk-informed system engineering, and documentation artifacts at enterprise scale.

From the platform, a suite of custom process automation, productivity tools. machine learning, AI algorithms, and specialized software solutions and APIs are now commercial ready.

Among those, OGMA and RISE are our two signature digital services that encapsulate FPoli multi-decade experience and know-how.

FPoliSolutions has developed its own proprietary multipurpose service-oriented software platform called FPoliAAP (FPoli Agile Application Platform). FPoliAAP is a highly collaborative digital platform that links engineering simulations, data analytics, risk-informed system engineering, and documentation artifacts at enterprise scale.

The platform provides a suite of custom process automation, productivity tools, machine learning, AI algorithms, and specialized software solutions and APIs that are now commercially ready.

Among those, OGMA and RISE are our two signature digital services that encapsulate FPoli's multi-decade experience and know-how.