Structural Integrity: Focus on the structural integrity and functionality of civil components.
Rigorous Assessments: Perform thorough calculations to assess load-bearing capacities, stress distribution, and material strengths.
Reliable Infrastructure: Ensure foundations, supports, and structural elements meet safety standards and design requirements, creating stable and reliable infrastructure.
Expert Evaluation: Conduct detailed Structural Design Calculation & Analysis for Fiber-Reinforced Polymer (FRP) framing systems.
Strength & Durability: Assess strength, stability, and durability, including bracing and connection details.
Optimized Performance: Ensure FRP frameworks are optimized for performance, environmental resistance, and industry compliance, providing a robust and lightweight solution.
Flexibility & Stress Tolerance: Analyse the flexibility and stress tolerance of piping systems.
Optimal Routing: Evaluate pipe routing, support configurations, and thermal expansion to accommodate movement without excessive stress or damage.
Extended Lifespan: Prevent operational issues, extend piping system lifespan, and maintain overall system integrity.
Impact Assessment: Evaluate the impact of piping and other systems on equipment nozzles.
Load Distribution: Determine load and stress distribution at nozzle connections to ensure adequate support and protection.
Structural Integrity: Maintain the structural integrity and operational efficiency of equipment with comprehensive nozzle loading analysis.
Dual Approach: Perform both static and transient hydraulic analyses.
Steady-State & Dynamic: Evaluate steady-state flow and pressure, and examine effects of sudden changes or disturbances.
Optimal Performance: Ensure hydraulic systems are designed for reliability and performance under both normal and dynamic conditions.
Advanced Simulation: Utilize Finite Element Method (FEM) and Computational Fluid Dynamics (CFD) for complex physical phenomena.
Structural & Fluid Analysis: Conduct structural analysis for stress, strain, and deformation with FEM; simulate fluid flow, heat transfer, and dynamic processes with CFD.
Precision Solutions: Optimize designs, predict performance, and solve engineering challenges with high precision.