The key ingredients of excellent product design are vision, experience, a good sense of spatial relationships and proportion, and sound engineering. The design process is one of conceptualization and synthesis based on an understanding of the:
functional requirements and conditions of service
governing physical principles
fluid and materials properties
manufacturing processes
economies of product manufacture and ownership
There is a purpose or rationale for every design feature and attribute. The boundaries, limitations and risks associated with new products are not neglected for expediency. Rather, these serve to evoke creative and deliberate efforts to broaden understanding and to pursue improvements in performance and reliability.
Product design and product development
Development and review of:
technical specifications
installation and alignment procedures
operation and maintenance procedures
Do you need a pump design and development consultant? Contact us nowto discuss your project and the engineering services we can provide.
당사는 펌프관련 설계용역을 함께하고 있읍니다.
귀사에서 필요한 펌프의 설계(DESIGN)및 설계도면(DESIGN & DRAWING)이 필요하시거나 개발 펌프의 특허 및 설계가
필요하신경우 연락 주시면 적정 가격에 필요한 일정내에 설계,개발 및 도면 작성까지 해 드릴수 있아오니 연락주시길 바랍니다
설계경력 29년
성능보장
Turn to the experts. PD3 Pump Design and Diagnostic Services.
We work with pump companies to create new pump designs or make existing designs more efficient.
Product Design & Development, Engineering Test Services, Hydraulic Testing, Mechanical Testing, Condition Monitoring & Field Testing, Energy Efficiency Audits, Custom Pumps
Learn from the experts. PD3 Pump Design .
Our staff includes one of the three people in the world qualified to teach both the Department of Energy's (DOE) Pump System Assessment (PSAT) course and the Hydraulic Institute's Pump Systems Matter, Pumping System Optimization (PSM PSO) course—the two premier pump energy optimization courses available today.
API610 10Edition process pump all items.
ANSI PUMP ALL ITEMS
DOUBLE SUCTION VOLUTE PUMP ALL ITEMS
SELF-PRIMING PUMP NON-CLOGGING TYPE ALL ITEMS
FRP VOLUTE ALL ITEMS
SPECIAL PATENT PUMP ALL ITEMS
VERTICAL MIXED & AXAIL FLOW PUMP
VERTICAL SUMP PUMP
VERTICAL CAN TYPE ALL ITEMS
CHEMICAL VOLUTE ALL ITEMS
IMPORT PUMP MODIFICATION ALL ITEMS
PROSUMER SPECIAL PUMPS
기타 개발펌프 등
MULTISTAGE PUMP
Multistage Pump Design:
A multistage pump includes multiple impellers on a common shaft with in the same casing to achieve higher pressure head.
PumpLinx: Solve Flows, Pressures, Cavitation, and Loads:
Discriminators:
Models cavitation
Accurate tip leakage
Superior treatment of rotating-stationary interfaces
Ease-of-use
Fast turn-around
Design Issues/Benefits:
Impeller design
Inlet/exit duct design
Tip leakage reduction
Reduce blade loads
Reduce Cavitation effects on efficiency and pump life
EXAMPLE: A 6 Stage Centrifugal Pump
Simulating flow, perfomance, and cavitation.
CENTRIFUGAL PUMP
Centrifugal Pump Design:
Centrifugal pump use a rotating impeller to swirl and increase the energy of the incoming fluid and then discharged it radially, at the outer radius of the impeller.
Advantages:
Ability to pump large volumes of fluid.
Application:
Fluid transfer and pumping.
PumpLinx: Solve Flows, Pressures, Cavitation, and Loads:
Discriminators:
Models cavitation
Accurate tip leakage
Superior treatment of rotating-stationary interfaces
Ease-of-use
Fast turn-around
Design Issues/Benefits:
Impeller design
Inlet/exit duct design
Tip leakage reduction
Reduce blade loads
Reduce Cavitation effects on efficiency and pump life
EXAMPLE: Centrifugal Water Pump
Optimization of volumetric efficiency for a centrifugal water pump.
DOUBLE INLET PUMP
Double Inlet Pump Design:
A double inlet (or double suction) pump is a centrifugal pump that receives suction liquid in both sides of the rotating impeller. This is a more desired type of mechanical design because it effectively balances the thrust effect of the rotating impeller. Also because of two suction pipes it reduces losses at the inlet and therefore has better cavitation resistance.
Advantages:
Ability to pump large volumes of fluid.
Application:
Large capacity water/Fluid transfer and pumping.
PumpLinx: Solve Flows, Pressures, Cavitation, and Loads:
Discriminators:
Models cavitation
Accurate tip leakage
Superior treatment of rotating-stationary interfaces
Ease-of-use
Fast turn-around
Design Issues/Benefits:
Impeller design
Inlet/exit duct design
Tip leakage reduction
Reduce blade loads
Reduce Cavitation effects on efficiency and pump life
EXAMPLE: Double Inlet Water Pump
Prediction of performance of a double inlet water pump.
INDUCER PUMP
Inducer Pump Design:
An inducer is an axial pump with blades that wrap in a helix around a central core. It is often used as a boost pump to raise the pressure for a subsequent impeller.
Advantages:
Good suction performance, relatively low power requirements.
Application:
High volume fluid transfer, High performance aerospace pumps.
PumpLinx: Solve Flows, Pressures, Cavitation, and Loads:
Discriminators:
Models cavitation, including vaporization for cryogenics
Accurate tip leakage
Superior treatment of rotating-stationary interfaces
Ease-of-use
Fast turn-around
Design Issues/Benefits:
Impeller design
Duct / volute design
Tip leakage reduction
Analysis of off-design conditions
Reduce cavitation effects on efficiency and pump life
Reduce pressure surges and noise
EXAMPLE: Water Pump With Inducer
Simulation shows inducer effectively reduces impeller cavitation at very low inlet pressure.
EXAMPLE: A 6 Stage Centrifugal Pump
Simulating flow, perfomance, and cavitation.
AXIAL PUMP
Axial Pump Design:
Rotating pump blades are used to increase the velocity of the fluid along the direction of the axis of the rotation. The increase of kinetic energy may be used directly for propulsion or else converted to pressure rise using downstream stators.
Advantages:
Ability to pump large volumes of fluid.
Application:
Fluid transfer, Propulsion.
PumpLinx: Solve Flows, Pressures, Cavitation, and Loads:
Discriminators:
Models cavitation
Accurate tip leakage
Superior treatment of rotating-stationary interfaces
Ease-of-use
Fast turn-around
Design Issues/Benefits:
Stator and rotor design
Inlet/exit duct design
Tip/seal leakage analysis
Optimize performance
Reduce blade loads
Reduce cavitation effects on efficiency and pump life
EXAMPLE: Axial Pump
Simulation of cavitation effects for a high flowrate axial pump.
Learn from the experts. PD3 Pump Design .
