Client: Available on Request
Description:FEA Analysis
Client: ELCO
Description: PDMS Modelling, Iso preparation, Electrical Design
Client: AMRAN CPSS
Description:Adnode Bracket design
Client: Available on Request
Description:Design Load calculation
Client: Available on Request
Description: Pipeline Inspection
Client: Shell N Tube India
Description: Piping stress Analysis
Client: ADNOC
Description: Piping stress Analysis
Client: Poovendam
Description: Piping stress Analysis
Client: Aramco
Description: Piping stress Analysis, Plant 3D Modelling & Structural Analysis
Client: HELIOVIS
Description: Primary support drawings, Secondary Support drawing, Piping Stress markup with support markings
Client: STS
Description: FIV & AIV Detail Study & Piping Stress Analysis
Client: ADNOC
Description: Pipeline Stress Analysis
Client: Available on Request
Description:The problem numerically simulates the performance of single-phase immersion cooling using ANSYS Fluent software.
Client: Available on Request
Description:The problem numerically simulates the Cavitation in a Radial Flow Pump using ANSYS Fluent software.
Client: Available on Request
Description:Axial Compressor Projects,Centrifugal Systems,Specialized Applications,Advanced Optimization
Client: Available on Request
Description:This specialized training package bridges traditional cooling wisdom with modern HVAC applications, focusing on energy-efficient and sustainable cooling strategies. The course emphasizes practical implementation while exploring both natural and mechanical cooling systems.
Client: Available on Request
Description:This specialized training package explores advanced cooling techniques for turbine blades and airfoils, focusing on critical aerospace applications. The course emphasizes practical implementation of complex cooling strategies while maintaining engineering precision.
Client: Available on Request
Description:The main objective of this study is to analyze the behavior of the reacting spray The study combines the finite-rate chemistry and eddy dissipation models to capture kinetic-controlled and turbulence-driven reaction dynamics
Client: Available on Request
Description:The problem numerically simulates Diesel Fuel in a Gas Turbine Combustion Chamber using ANSYS Fluent software.
Client: Available on Request
Description:In this project, a two-phase flow of vapor and liquid ammonia in a two-phase ejector has been simulated by ANSYS Fluent software.
Client: Available on Request
Description:The present problem simulates the water flow inside a Francis water turbine by ANSYS Fluent software.
Client: Available on Request
Description:The present study investigates the water flow around a vertical water turbine considering unsteady CFD simulation.
Client: Available on Request
Description:In this project, an industrial generator room ventilation has been simulated, and the results of this simulation have been investigated.
Client: Available on Request
Description:Numerical Investigation of Heat and Mass Transfer in a Heat Pump Dryer for Efficient Drying of Wet Wood Plates Using CFD and UDF for Mass Transfer Modeling
Client: Available on Request
Description:The problem numerically simulates an Injector using ANSYS Fluent software. We design the 3-D model by the Design Modeler software.
Client: Available on Request
Description:The problem numerically simulates a printed circuit board (PCB) cooling using ANSYS Fluent software.
Client: Available on Request
Description:The problem simulates heat transfer inside a shell and tube heat exchanger with a spiral buffer.
Client: Available on Request
Description:Electronic components such as CPU, chips and microprocessors generate heat, making thermal management essential for their longevity and performance. As these components become smaller, the design of heat sinks plays a crucial role in dissipating heat.
Client: Available on Request
Description:The problem numerically simulates Storage Container Room Ventilation using ANSYS Fluent software.
Client: Available on Request
Description:Advanced Vortex Combustor (AVC), a variant of Trapped Vortex Combustor (TVC) technology, have emerged as a promising solution by utilizing specially designed flow vanes and blunt bodies to create controlled vortex patterns that enhance fuel-air mixing and combustion stability.
Client: Available on Request
Description:Elevate Your Turbine Simulation Expertise with Advanced Techniques
Client: Available on Request
Description:Master-Level Turbine Analysis: Research Validation and Industrial Applications
