In an axial flow pump, the impeller pushes the liquid in a direction parallel to the pump shaft and adds momentum to the fluid flow through the unit by transfer of energy between the fluid and the rotating propeller blades.
WhatsApp: +86 18221755073This paper presents a design optimization process for an axial-flow pump impeller; in which geometrical parameters are optimized to increase the efficiency (η) and reduce the net positive...
WhatsApp: +86 18221755073This study adopts a multi-disciplinary optimization design method based on an approximation model to improve the comprehensive performance of axial-flow pump impellers and fully consider the interaction and mutual …
WhatsApp: +86 18221755073This article presents a hydraulic design procedure for axial-flow pump impellers, followed by their manufacturing documentations, all in one easy-to-use software named AXPHD V2.0 (AXial …
WhatsApp: +86 18221755073This article presents a hydraulic design procedure for axial-flow pump impellers, followed by their manufacturing documentations, all in one easy-to-use software named AXPHD V2.0 (AXial...
WhatsApp: +86 18221755073In this paper, an innovative approach for design and optimization of pump impellers is presented which is based on so-called inverse design. This means that an optimal blade shape is …
WhatsApp: +86 18221755073The design of a pump's impeller can be divided into two parts. The first is the selection of proper velocities and vane angles needed to obtain the desired performance with the best possible efficiency.
WhatsApp: +86 18221755073This study relates to the impeller design of axial flow pump that can develop a head of 3 m and deliver 0.3 m 3 /s of water at the speed of 1000 rpm. In the design impeller, outlet diameter is 350 mm, entrance vane angle
WhatsApp: +86 18221755073This paper presents a design optimization process for an axial-flow pump impeller; in which geometrical parameters are optimized to increase the efficiency (η) and reduce the net positive...
WhatsApp: +86 18221755073This study adopts a multi-disciplinary optimization design method based on an approximation model to improve the comprehensive performance of axial-flow pump impellers and fully consider the interaction and mutual influences of the hydraulic and structural designs.
WhatsApp: +86 18221755073This article presents a hydraulic design procedure for axial-flow pump impellers, followed by their manufacturing documentations, all in one easy-to-use software named AXPHD V2.0 (AXial Pump Hydraulic Design) developed by one of the authors (Kalmár).
WhatsApp: +86 18221755073In this paper, an innovative approach for design and optimization of pump impellers is presented which is based on so-called inverse design. This means that an optimal blade shape is determined by providing objective flow properties in terms of blade loading.
WhatsApp: +86 18221755073The design of a pump's impeller can be divided into two parts. The first is the selection of proper velocities and vane angles needed to obtain the desired performance with the best possible efficiency.
WhatsApp: +86 18221755073In this article, we will discuss the details of impeller design, its challenges, and their solutions. We will also examine how engineering simulation, especially cloud-native simulation, enables engineers to create more efficient …
WhatsApp: +86 18221755073This article presents a hydraulic design procedure for axial-flow pump impellers, followed by their manufacturing documentations, all in one easy-to-use software named AXPHD V2.0 (AXial...
WhatsApp: +86 18221755073This study relates to the impeller design of axial flow pump that can develop a head of 3 m and deliver 0.3 m 3 /s of water at the speed of 1000 rpm. In the design impeller, outlet diameter is …
WhatsApp: +86 18221755073This article presents a hydraulic design procedure for axial-flow pump impellers, followed by their manufacturing documentations, all in one easy-to-use software named AXPHD V2.0 (AXial...
WhatsApp: +86 18221755073In this article, we will discuss the details of impeller design, its challenges, and their solutions. We will also examine how engineering simulation, especially cloud-native simulation, enables engineers to create more efficient and reliable impellers.
WhatsApp: +86 18221755073