DheyaTech’s Turbomachinery Division delivers comprehensive engineering solutions across the complete product development lifecycle—from conceptual design and advanced simulation through prototype testing and manufacturing support. Our team specializes in turbines, compressors, pumps, turboexpanders, and high-speed rotating machinery for aviation, oil & gas, power generation, and industrial process applications. We combine cutting-edge CFD/FEA analysis capabilities with hands-on testing expertise to deliver optimized, reliable, and cost-effective turbomachinery solutions that meet the most demanding performance and reliability requirements.
Comprehensive expertise across the full spectrum of turbomachinery engineering
Preliminary aerodynamic design using proven 1D mean-line analysis methodologies. We establish optimized velocity triangles, stage loading parameters, work coefficients, and thermodynamic performance predictions while ensuring mechanical feasibility and manufacturability.
Application-engineered compressor systems designed to meet your specific operating requirements— pressure ratios, mass flow rates, temperature limits, altitude conditions, and environmental constraints. We design centrifugal, axial, and mixed-flow configurations optimized for performance and efficiency.
Full three-dimensional aerodynamic flowpath design using advanced CFD tools including ANSYS CFX, ANSYS Fluent, and Turbo Tides. Our analysis includes multistage simulation, secondary flow optimization, tip clearance effects, and off-design performance mapping.
Comprehensive rotordynamic analysis ensuring safe, reliable operation at design speeds. We perform critical speed analysis, unbalance response prediction, lateral and torsional vibration assessment using industry-standard tools with verification against API 684 standards.
In-depth torsional vibration analysis for complete drivetrain systems including couplings, gearboxes, and driver interactions. Our analysis ensures compliance with API 617, API 672, and other relevant standards to prevent resonance-induced failures.
Experimental validation using precision instrumented test facilities. Our testing capabilities support aerodynamic performance mapping, rotor vibration characterization, thermal measurements, acoustic evaluation, and endurance testing under realistic conditions.
Multi-channel vibration monitoring using accelerometers, proximity probes, strain gauges, and laser vibrometry. We provide modal testing, operational deflection shapes (ODS), order tracking analysis, and bearing condition assessment.
Systematic failure analysis combining field operational data review, vibration diagnostics, metallurgical examination, FEA stress reconstruction, and fluid dynamics analysis. We identify root causes of performance degradation, component failures, and operational instabilities then develop corrective actions to eliminate recurrence.
Rapid prototyping from concept through functional hardware. We manage precision 5-axis CNC machining, EDM, dynamic balancing, assembly, and inspection. All manufacturing is supported by AS9100D- compliant quality documentation including material certifications and traceability records.
Multidisciplinary Expertise – Integrated aerodynamics, structures, rotordynamics, and testing capabilities
Proven Methodologies – Industry-standard tools and compliance with API, ASME, and aerospace standards
Rapid Turnaround – Efficient project execution from concept to validated hardware
Cost-Effective Solutions – Optimized designs that balance performance, reliability, and manufacturability
Our turbomachinery experts are ready to help you with your next project. Get in touch to
explore how we can support your engineering needs.
