TURBOdesign Pumps & Fans
TURBOdesign Suite provides tools to designers to put them in direct control of aerodynamic design to streamline every step of the design process for turbomachinery components.
Our Pumps & Fans packages
TURBOdesign Compressors & Turbines
TURBOdesign Suite provides tools to designers to put them in direct control of aerodynamic design to streamline every step of the design process for turbomachinery components.
Our Compressors and Turbines packages...
TURBOdesign Optima
TURBOdesign Suite provides tools to designers to put them in direct control of aerodynamic design to streamline every step of the design process for turbomachinery components.
TURBOdesign Optima is our automatic optimization package
3D Blade Design
Our turbomachinery design toolkits include one on 3D blade design...
Meanline Design
TURBOdesign Suite provides tools to designers to put them in direct control of aerodynamic design to streamline every step of the design process for turbomachinery components.
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Volute/Scroll Geometries
TURBOdesign Suite provides tools to designers to put them in direct control of aerodynamic design to streamline every step of the design process for turbomachinery components.
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Multi-Objective Optimization
TURBOdesign Suite provides tools to designers to put them in direct control of aerodynamic design to streamline every step of the design process for turbomachinery components.
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Compressors
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Fans and Blowers
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Pumps and Hydraulic Turbines
Test
High Speed Turbines
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Academia
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Design Consultancy
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Research and Development
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Training
Blog
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Case Studies
Read our success stories from companies of all sizes who are transforming the way they design turbomachinery components.
Consultancy Summaries
Read our success stories from companies of all sizes who are transforming the way they design turbomachinery components.
Publication
Browse the latest and previous editions of our publications library
On-Demand Webinar Library
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White Paper
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逆解法設計により、遷音速ファン・圧縮機・タービンに生じる衝撃波強度を直接制御できます。
逆解法設計により、高効率の遷音速軸流ファン、遷音速圧縮機、遷音速タービンを
設計することができます。
既存形状とTURBOdesign1により設計された形状に対するCFD計算結果の比較
この図では、遷音速軸流圧縮機ローターの翼負圧面の静圧分布と流線を、従来設計と逆解法設計について比較しています。濃い青色の領域は低い静圧を示し、緑色の等高線の急激な変化は、翼負圧面に衝撃波生じていることを示唆しています。従来設計では、衝撃波は25%スパンから先端まで広がります。逆解法設計では、衝撃波の強度は60%スパンから先端まで大幅に減少しています。この衝撃波強度の低下は、従来設計のローターで観察される強い衝撃波によって引き起こされる強いスパン方向の二次流れも低下させます。
TDSを使用可能なさまざまな事例の概要を簡単に紹介します。