Top Six Misconceptions About Industrial Blowers

1. Despite the fact that many in the industry use the terms interchangeably, technically there’s a difference between compressors, fans and blowers.

In short, compressors pressurize gases within controlled volumes to ultimately facilitate some type of work. Fans move large gas volumes with slight pressure increase. Blowers move large gas volumes with moderate pressure increase. Further differentiation is made between blower subtypes, as regenerative blowers are generally applied in designs needing high-pressure movement of low airflow, and centrifugal blowers are generally for low-pressure movement of large airflow.

2. Most blowers use one of four motor types that largely dictate performance. These include:

silver Lamb motor

Brushed ac and dc motors come in the form of PMDC motors, shunt-wound motors, series-wound motors (also called universal motors) and compound-wound motors. These motors are cost effective and simple to control, so they are particularly common in blender, grinder and home-appliance applications.

Switched-reluctance motors. These blower motors are most common in HVAC blowers, vacuum and cleaning appliances — and industrial material-handling applications that need clean and reliable blower operation.

Brushless motors that incorporate permanent magnets — also called EC motors for the way in which they’re electronically commutated. These blower motors excel, for example where designs need high efficiency, long life and airflow adjustability to optimize turn down for top blower performance. Brushless blower motors first became common in transportation applications; the fans, pumps and motors on heavy-duty transports and other commercial vehicles. Now they’re finding use in food and beverage, business machines and even medical designs.

47 frame

Induction motors, or in the context of blowers in particular, often called by the more "playful" squirrel-cage motors to avoid confusion with inducer-blower products. In fact, these motors are the most commonly used in blowers today, as they excel in high-horsepower blower and cooling-fan applications.

3. As in other industries, permanent-magnet brushless motors are on the rise in an array of fan, blower and other fluid systems.

That’s because these brushless blower motors are increasingly large; they're no longer limited to fractional-horsepower applications. In addition, because the current-carrying coils are on the stator, heat dissipation is also simpler. Most importantly though, the availability of today’s cost-effective electronics means that permanent-magnet brushless blower motors are in many cases cost-competitive with comparable brushed motor blowers — especially when long-term cost of ownership is taken into account.

4. VFDs, variable frequently drives paired with ac motors greatly improve efficiency — as well as fan and blower performance.

Blowers incorporating squirrel-cage motors are sized for peak demand — so are by definition oversized for average blower operating conditions. That means the motors run inefficiently unless there is some speed control to optimize flow for actual application conditions. This is where VFDs can control blower-motor speed to most efficiently satisfy airflow requirements. In fact, this core VFD function relates to a concept applicable to all blower motors, no matter which motor type they employ; the concept of turn down.

Turndown is the operating range of a blower or blower system — an expression of its ability to reduce airflow rate. Most often it’s expressed as a ratio of the blower’s minimum airflow to its maximum. Sometimes it’s calculated as the difference between maximum and minimum airflow rates, then divided by maximum airflow rate.

turndown for optimizing performance graph

5. Regenerative blowers are for very specific applications. 

Recall that unlike centrifugal blowers, in regenerative blowers, the fluid inlet is parallel to the outlet, with both the inlet and outlet perpendicular to impeller rotation. Vanes push air along arcs parallel to the blower-body circumference — even as centrifugal forces push air between impeller vanes outward. Airflow then progresses to the next vane’s root for more re-circulation — ultimately for a spiral airflow path subject.

6. Mufflers, valves, and diverters are core to blower system design. 

blower mufflers: engineered devices graphicRather than afterthoughts, these subcomponents are essential and often quite sophisticated. Just consider diverter valves that can automatically change piping from suction to pressure (and vice versa) to impart blower versatility. They’re especially useful for replacing two blowers with one on installations having intricate piping — as in vacuum-based material and part handling, air tables and pneumatic tube systems.t to constant acceleration (and pressure buildup). 

At AMETEK Dynamic Fluid Solutions, we understand you’re looking for more than just an off-the-shelf part or one-time solution. You need a true technology partner who understands your engineering challenge that is focused on you, providing customized, collaborative solutions. We’ll also provide you with excellent customer service for a great total experience.

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