EXCEL

TRICONEX SYSTEMS

Introduction

Triconex is a brand of safety and critical control systems, particularly known for its solutions in the field of industrial process control and safety. The Triconex system, developed by Schneider Electric, is widely used in industries such as oil and gas, petrochemical, power generation, and other process industries where safety and reliability are of utmost importance. 

SIS Project

We possess expertise in variety of SIS projects:

  • Review Project Specifications . 
  • Prepare / Review System Architecture, Hardware Selection, Bill Of Material.
  •  Prepare / Review G.A. Drawing, System Manual,  Test Report, Commission & Validation Report.
  •  We have safety professionals to ensure that the system is effectively designed, implemented, and maintained.  

Triconex Configuration

We implement Tristation Program  to ensure the safety and reliability of your critical processes. 

  •  Project Setup: Create a new project within the TriStation software. Define project-specific settings, such as project name, location, and other relevant details.
  • Hardware Configuration: Specify the hardware components of the Triconex system, including the configuration of controllers, input/output (I/O) modules, and communication interfaces. Assign addresses to various hardware components for proper communication.
  • Functional Design: Define the safety functions that the Triconex system will perform. This involves identifying critical process parameters and determining the logic required to ensure safe operation. Use graphical programming tools within TriStation to create the logic for each safety function.
  • Logic Configuration: Develop the control logic for the safety instrumented functions using graphical programming languages like Function Block Diagram (FBD) or Sequential Function Chart (SFC). Implement interlocks, alarms, and other safety features to ensure the desired safety integrity level (SIL) is achieved.
  • Point Configuration: Configure individual points, representing inputs and outputs, associated with the safety functions. Define alarm limits, setpoints, and other parameters for each point.

 

Triconex FAT Commissioning & Start-Up

We Support and participate in software FAT, Commissioning and Start-up

  • Simulation and Testing: Use simulation features within TriStation to test the configured logic in a virtual environment before deploying it to the actual Triconex system. Conduct thorough testing to ensure that the safety functions operate as intended and meet safety requirements.
  • Documentation: Generate documentation for the configured project, including safety requirement specifications, logic diagrams, and other relevant documentation. Document any changes or updates made during the configuration process.
  • Verification and Validation: Perform verification and validation activities to ensure that the configured Triconex system meets the safety standards and requirements. Involve relevant stakeholders, including process engineers and safety professionals, in the validation process.
  • Commissioning: Implement the configured Triconex system in the actual industrial environment during commissioning. Monitor and verify system performance, addressing any issues that may arise during the commissioning phase.
  •  Operational Readiness: Assess the operational readiness of the Triconex system, considering factors such as operator training, documentation availability, and emergency response procedures. Confirm that the system is ready for deployment and use in the industrial environment.

 

Triconex Safety Validation (TSV)

 We help you validate your safety system and stay pass your compliance audits.

  • Failure Mode and Effect Analysis (FMEA): Conduct an FMEA to identify potential failure modes and assess the impact of those failures on the safety functions. Verify that the Triconex system is designed to handle and respond to identified failure modes in a manner that maintains or increases safety.
  • Proof Testing: Implement proof testing procedures to verify the functionality of critical components within the Triconex system. This may involve physically testing sensors, actuators, and other elements to ensure they respond correctly to simulated demands.
  • Regulatory Compliance: Ensure that the Triconex system complies with relevant safety standards and regulations, such as IEC 61511. Document and report the results of safety validation activities to regulatory authorities, if required.