Piping System Design
Fluid Dynamics
Material Selection
Fluid Dynamics
Analysis of flow regimes (laminar/turbulent), pressure drops, and velocity profiles.
Pipe Sizing
Material Selection
Fluid Dynamics
Based on flow rate, fluid properties, and allowable pressure drop. Includes selection of nominal pipe sizes and schedules.
Material Selection
Material Selection
Material Selection
Selecting optimal materials for mechanical piping designs, including metals and non-metals guided by corrosion resistance, temperature, pressure, and mechanical strength for reliable performance.
Stress Analysis
Support & Anchoring
Material Selection
Detailed stress analysis to manage thermal expansion, vibration, and pressure-related loads to ensure safety, reliability, and compliance.
Support & Anchoring
Support & Anchoring
Support & Anchoring
Pipe supports, hangers, and expansion loops to manage thermal movement and mechanical loads.
Safety Compliance
Support & Anchoring
Support & Anchoring
Piping system designs with built-in safety features like pressure relief, isolation valves, and emergency shutoffs aligned with safety standards to ensure regulatory compliance and operational safety.
Pumping System Design
Pump Types
Pump Selection Criteria
Hydraulic Design
Pump types based on fluid characteristics and system requirements to ensure efficiency and reliability encompassing centrifugal pumps for high flow, positive displacement pumps for high pressure, and specialty pumps for unique applications.
Hydraulic Design
Pump Selection Criteria
Hydraulic Design
Precise head calculation, including static, dynamic, and frictional losses, to ensure efficient fluid transport. It also includes NPSH (Net Positive Suction Head) analysis to prevent cavitation and safeguard pump performance and longevity.
Pump Selection Criteria
Pump Selection Criteria
Pump Selection Criteria
Matching flow rate, head, and fluid characteristics, such as temperature and viscosity, to ensure optimal performance. Selection is guided by efficiency curves and the Best Efficiency Point (BEP) to maximise reliability, energy efficiency, and operational lifespan.
System Integration
Safety & Reliability
Pump Selection Criteria
Seamless coordination of pipe routing, valve placement, and instrumentation like flow meters and pressure sensors for efficient system performance. Integration of control systems, including VFDs (Variable Frequency Drives), enables real-time monitoring and energy-optimized operation.
Safety & Reliability
Safety & Reliability
Safety & Reliability
Redundancy through parallel pumps, surge protection, and robust seal systems to ensure continuous, safe operation. All designs adhere strictly to industry standards such as API 610, ANSI/HI, and ISO 5199 for compliance and reliability.
Power Plant Engineering
Turbine Systems
Heat Recovery & Exchange
Turbine Systems
Deliver expert turbine system solutions including rotor dynamics analysis, blade design, and thermal efficiency optimisation for steam and gas turbines. Our capabilities extend to advanced governing systems for precise load control and speed regulation.
Boiler Systems
Heat Recovery & Exchange
Turbine Systems
Offering comprehensive boiler system expertise across water-tube and fire-tube designs, with a focus on combustion analysis, heat transfer optimisation, and flue gas treatment. All solutions are engineered for performance, safety, and full compliance with applicable codes
Heat Recovery & Exchange
Heat Recovery & Exchange
Heat Recovery & Exchange
Heat recovery and exchange systems for power plants, including the design and integration of economisers, superheaters, and condensers. Our solutions enhance efficiency through thermodynamic cycle optimisation across Rankine and Brayton configurations.
Auxiliary Systems
Efficiency & Sustainability
Heat Recovery & Exchange
End-to-end solutions for power plant auxiliary systems, including feedwater systems, cooling towers, and lubrication systems. We also deliver advanced instrumentation and control integration using SCADA and DCS platforms to ensure seamless operation and monitoring.
Safety & Compliance
Efficiency & Sustainability
Efficiency & Sustainability
Prioritising safety, compliance, efficiency, and sustainability in all power plant solutions through emergency shutdown systems, fire suppression, and pressure relief mechanisms in adherence to applicable standards.
Efficiency & Sustainability
Efficiency & Sustainability
Efficiency & Sustainability
Our designs maximise efficiency through combined cycle and cogeneration systems while supporting sustainability with advanced emission control technologies like SCR systems, electrostatic precipitators, and carbon capture.