Myths, Fables and Facts About Vacuum Systems

Figure 1

Figure 2
Never has any subject in the industry been discussed as much, and understood as little, as vacuum systems and how they affect carpet cleaning. It is no wonder that confusion reigns when you really study the often-misunderstood complexity of vacuum theory. Our industry has spawned many schools of thought co-mingling the facts, myths and legends of what vacuum systems can accomplish. But don't fall into the trap of believing that there is any magic involved, and don't succumb to "vacuum mystique."

Let's talk in terms of conventional wisdom in examining the science of pneumatic conveyance through the use of vacuum: what we are trying to do when we clean a carpet is recover water (and soil, etc.) and convey it pneumatically (through the use of air). There are four basic factors to be concerned with when it comes to vacuum systems, the interrelationships of which are complex, but important:
1. Lift
2. Airflow
3. Velocity
4. Friction Loss.

Lift is one factor of vacuum that is easily seen and measured, as you can simply read it on a gauge. The gauge measures the lift, or vacuum level, in one of two ways: inches of water lift or inches of mercury lift. Mercury (Hg) is heavier than water, so 1 inch of Hg = 13.5 inches of water. In other words, 10 inches of Hg is the same vacuum level as 135 inches of water lift. Since it is the only reading a carpet cleaner typically has available, it tends to be the most misunderstood.

Myth #1: The More Lift a System Has, The Better The Cleaning Will Be
Try the following: Put a marble on a table. Take your vac hose cuff and place it over the marble, sealing the cuff on the table. Now have someone start your machine. The vac gauge will show its highest lift because of the seal, but the marble hasn't moved. Now crack the seal of the cuff and let in some air. Even though the gauge shows a drop in lift, the marble races down the hose due to the airflow.

Airflow takes into account the volume of air being displaced in a vacuum system. Airflow is usually expressed in cubic feet per minute, or CFM. Since the moving air will carry (pneumatically convey) the waste and soil back through the hoses to the recovery tank, airflow is a key factor. There isn't an easy way for the cleaner to measure the CFM of a cleaning system, but the easiest way to compute airflow is to refer to the performance curve of the system, available through the manufacturer of the primary air pump. At any given level of lift you can refer to the curve and read the corresponding CFM. Figure 1 shows a sample performance curve.

Myth #2: The More CFM a System Has, The Drier The Carpet Will Be After Cleaning
The CFM figure can't be evaluated alone any more than the lift figure can. Here's why:

Lift vs. Airflow. These two factors have an inverse relationship: if one goes up, the other goes down. Look at the chart in Figure 1. Let's suppose that, when you look at the vacuum gauge of your truckmount, the reading is a level of 6 inches Hg. Looking at chart, we see that, at this level of lift, the system is capable of moving about 175 CFM. Now, suppose you do something to the system such as add more hose or improve the wand seal. Now your gauge reads a level of 10 inches Hg. From the chart, you can see that you now hit the performance curve at Point B and that the airflow has dropped to about 150 CFM. So, as one factor (lift) went up, another (airflow) came down. They have an inverse relationship. The fact is, the most effective cleaning is accomplished when there is proper balance between lift and airflow.

There is a way to quantify and predict where the "sweet spot" of a vacuum performance curve lies. The computation of air watts takes into account the effects of both factors. This gives you the best combination of lift and airflow:

Air Watts = Lift x CFM divided by 8.5. Using this formula to calculate the values in Figure 1, you will see that Point A yields 123 Air Watts (6 x 175 divided by 8.5) and Point B yields 176 Air Watts (10 x 150 divided by 8.5). Looking at the sample points in Figure 1, you can see that Point B is a better point at which to operate our equipment because the available "work energy," measured in air watts, is greater.

Velocity is an expression of the speed at which air is moving at any given point in the vacuum system, expressed in feet per minute, or FPM. The airflow factor already told us how much air is moving, but the velocity will depend on the size of the tube the air is moving through.

There is a linear relationship between airflow and velocity. As one goes up, the other goes up directly. If you know the airflow CFM and the size of the opening it is passing through, you can compute the velocity as follows: Velocity (FPM) = Air Flow (CFM) divided by tube area (square feet).

In order to do good cleaning, we need a certain minimum velocity to suspend water and keep it moving after it is suspended. Too little velocity at any point in the system will cause the water to fall out of the air stream. Figure 2 shows air velocity, computed for various air handling locations in a cleaning system.

Note that the chart is broken down into two areas:

  • The conveyance points, or the hoses and tubes
  • The pickup point, or the wand slot.

    Conventional wisdom in engineering calls for a velocity of at least 5,000 FPM to convey water efficiently. You can see on the chart that this speed is easily achieved in the hoses if we move enough air. But why is the air velocity so much higher at the wand slot (pickup point)?

    The slot velocity must be higher so that water is picked up even at some distance from the slot. To accomplish this, an "aura" of air movement is created around the wand slot to improve water recovery. If the velocity were lower, water would have to be right in the slot in order to be picked up. As such, depending on how much air we are moving, the necessary water pickup velocity is achieved at further and further distances from the slot, and water is recovered more aggressively.

    Myth #3: The More Air Velocity a Vacuum System Has, the "Better" the System
    At some point the law of diminishing returns comes in, and it takes massive increases in power to achieve any small benefit. We also begin to encounter more and more friction loss.

    All the numbers we've discussed thus far assume ideal conditions, with the vacuum pump not subject to any restrictions. That's not how it happens in the real world. When we put a silencer on, we get back-pressure. When we run the air through pipes and elbows and long vacuum lines, it produces restriction. If the vac tank air filter is too small or clogged, it restricts greatly. All these losses are due to friction along the walls.

    The friction loss in any tube has a linear relationship with velocity: as the velocity increases, your friction loss increases. A practical example of this is the vacuum hose. Note in Figure 2 that the air in a 1.5-inch hose travels at a velocity roughly twice as fast as the air travels once it reaches a 2-inch hose. Since friction loss goes up with velocity, it follows that there is roughly twice the vacuum loss in the small hose than in the 2-inch hose. These losses rob available vacuum power from your cleaning.

    So what is the conclusion? It's all just good theory so far, and the practical effect it has on the design of effective cleaning systems is the subject of another presentation. Hopefully, one thing is clear: vacuum science is complex, interrelated, and must be considered as a dynamic whole. To simply ask how much lift or CFM a cleaning unit has in only the tip of a gigantic iceberg.

  • Did you enjoy this article? Click here to subscribe to i Cleaning Specialist Magazine.

    You must login or register in order to post a comment.



    Image Galleries

    The 2014 Experience Conference and Exhibition

    A look in photos at the 2014 Experience Conference and Exhibition, which was held from April 24-26 at the Embassy Suites Convention Center and Spa in Frisco, Texas.


    Beginning April 21, Google will start judging websites based on their mobile friendliness. What exactly does this mean to you cleaning website? Find out in the latest edition of The Hitman Advertising Show, which will also cover tips and suggestions on getting mobile compliant.
    More Podcasts

    ICS Cleaning Specialist Magazine


    2015 April

    The April ICS issue features content on concrete polishing, green cleaning, air duct cleaning, injection sprayers and new products.

    Table Of Contents Subscribe

    Janitorial Work

    In addition to residential and commercial carpet cleaning, do you do any janitorial work on the side?
    View Results Poll Archive


    The Carpet Cleaner's Book of Unlimited Success! (ebook)

    Don’t worry about the recession or about your competition.  Now you can be the owner of over 400 ways for carpet cleaning professionals to make more money and get more jobs!

    More Products


    Director_Buyer.jpgThe premier resource and reference guide for the cleaning and restoration industries.

    Click here to view


    facebook_40.png twitter_40px.png youtube_40px.png


    Truckmount.jpgEquipment listings and specifications from the leading industry manufacturers.

    Click here to view