The term "3 types of impeller" is common, but impellers can be categorized in several key ways. Here are the three most fundamental and useful classifications:
1. By Flow Direction (Most Common Classification)
This categorizes how the fluid moves through the impeller relative to its axis of rotation.
Centrifugal (Radial Flow):
How it works: Fluid enters axially at the eye (center) and is accelerated outward radially (perpendicular to the shaft) by centrifugal force. It exits the volute casing at high pressure.
Characteristics: High pressure, moderate to high flow. The classic pump impeller.
Applications: Water pumps, industrial process pumps, HVAC systems, automotive coolant pumps.
Axial Flow:
How it works: Fluid enters and exits essentially parallel to the shaft (axially), like a propeller. It pushes the fluid rather than throwing it outward.
Characteristics: Very high flow, low pressure lift.
Applications: Boat propellers, pumps for large volumes of water (irrigation, flood control), wind tunnels, ventilation fans.
Mixed Flow:
How it works: A combination of radial and axial action. Fluid enters axially but exits at an angle (between 0 and 90 degrees) to the shaft.
Characteristics: A balance between flow and pressure. More efficient than radial for certain medium-head applications.
Applications: Large water circulation pumps, some wastewater pumps, irrigation.
2. By Specific Application & Design (Common Real-World Examples)
This classification is based on their dominant use and mechanical features.
Closed Impeller:
Design: Has a front and back shroud (wall) that fully encloses the vanes. This creates efficient, directed flow channels.
Advantages: High efficiency, good for handling clear liquids. Structurally strong.
Disadvantages: Can clog easily with solids. More expensive to manufacture.
Applications: Clean water pumps, chemical processing, high-efficiency HVAC pumps.
Open Impeller:
Design: Vanes are open on both sides, attached only to a central hub.
Advantages: Resists clogging, can handle slurries and stringy solids. Easier to clean and inspect.
Disadvantages: Lower efficiency due to fluid recirculation. Structurally weaker; requires a tighter casing clearance.
Applications: Slurry pumps, wastewater/solids handling, pulp and paper stock.
Semi-Open Impeller:
Design: A compromise. Vanes are attached to a back shroud but open on the front side.
Advantages: Better strength than open impellers, better solids-handling than closed. Adjustable clearance to maintain efficiency.
Applications: Moderately dirty liquids, some chemical processes, viscous fluids.
3. By Suction Type
This refers to how fluid is admitted into the pump.
Single Suction:
Design: Fluid enters the impeller from one side only.
Characteristics: Simpler design. Creates an axial thrust load that must be balanced by bearings or other means.
Applications: The most common type for standard centrifugal pumps.
Double Suction:
Design: Fluid enters the impeller from both sides simultaneously. The impeller is essentially two single-suction impellers back-to-back.
Characteristics: Hydraulically balances axial thrust, reducing bearing load. Allows higher flow rates. Often larger and more expensive.
Applications: Large water supply pumps, high-capacity service pumps.
Quick-Reference Comparison Table
| Type (By Flow) | Best For | Pressure vs. Flow |
|---|---|---|
| Centrifugal (Radial) | High Pressure | High Pressure, Mod. Flow |
| Axial | Very High Volume | Low Pressure, Very High Flow |
| Mixed Flow | Balanced Duty | Medium Pressure, Medium-High Flow |
| Type (By Design) | Best For Liquids With... | Key Trait |
|---|---|---|
| Closed | Clean, non-abrasive liquids | Highest Efficiency |
| Open | Solids, Slurries, Strings | Clog Resistance |
| Semi-Open | Viscous or Moderately Dirty | Balance of Strength & Handling |
In summary, when someone asks for "3 types," they most often mean Centrifugal Impeller, Axial, and Mixed Flow (the flow direction classification). However, knowing the distinctions between Closed, Open, and Semi-Open designs is equally critical for practical selection.
