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Browse our Publications
At Advanced Design Technology, we are committed to providing turbomachinery and industry expert technical knowledge by producing a wide range of publications and information. Browse the latest and previous editions of our publications library.
Browse Publications
Redesign of a Compressor Stage for a High-performance Electric Supercharger in a Heavily Downsized Engine
Engine downsizing is a modern solution for the reduction of CO2 emissions from internal combustion engines.
Optimization of a Pump as Turbine Runner Using 3D Inverse Design Methodology
Understanding the trade-offs between pump and turbine efficiency is crucial when designing a runner.
This paper looks at how TURBOdesign Optima was used to run a multi-objective optimization and create guidelines for their design in future.
Multi-objective Optimization of a High Specific Speed Centrifugal Volute Pump using 3D Inverse Design
In this paper three different multi-objective optimization strategies for a high specific speed centrifugal volute pump design are proposed.
Multi-Objective Design Optimization of a Mixed-Flow Pump
In most cases of high specific speed mixed-flow pump applications, it is necessary to satisfy more than one performance characteristic such as deign point efficiency, shutoff power/head and non-stall characteristic (no positive slope in flow-head curve).
Investigation on Flow Characteristics of Pump-Turbine Runners With Large Blade Lean
Pumped storage power stations are experiencing rapid development in China with the increasing development of smart grid and extensive development of nuclear and wind power stations.
Design of a Centrifugal Compressor Stage and a Radial-Inflow Turbine Stage for a Supercritical CO2 Recompression Brayton Cycle by Using 3D Inverse Design Method
It is found that the ideal gas assumption is not proper for the design of turbomachinery blades using supercritical CO2 (SCO2) as working fluid especially near the critical point.
A Compressible 3D Design Method for Radial and Mixed Flow Turbomachinery Blades
A fully 3D inverse design method for the design of radial and mixed flow turbomachines is described.
A Fully Compressible 3D Inverse Design Method Applicable to Radial and Mixed-Flow Turbomachines
A fully 3D compressible inverse design method for the design of radial and mixed flow machines is described.
A Compressible 3D Design Method for Radial and Mixed Flow Turbomachinery Blades
A fully 3D compressive inverse design method for the design of radial and mixed flow turbomachines is described.