HomeWHICHWhich Style Of Compressor Uses Belts To Turn The Compressor

Which Style Of Compressor Uses Belts To Turn The Compressor

It’s not always easy to pick the right industrial air compressor for your business. Which is better: a direct-drive or belt-drive air compressor? Learn the differences between belt-driven and direct-drive air compressors and how to choose one that will suit your needs.

What Is a Direct-Drive Air Compressor?

In a direct-drive air compressor, the motor is connected directly to the air pump via a crankshaft. As the motor turns, the crankshaft moves the pistons (for a reciprocating air compressor) through a coupling that turns the rotors (for a rotary-screw air compressor). The speed of the air pump, and thus the airflow (CFM), is directly determined by the speed of the motor (RPM). The mechanism for direct-drive air compressors is very simple with minimal moving parts. Most air compressors over 50 HP are direct-drive.

A direct-drive air compressor can be either geared or ungeared. In an ungeared direct-drive compressor, the direct attachment means that the moving parts of the air end will always move at the exact same speed as the motor. A geared direct-drive compressor can be adjusted by changing the gear configuration (though this is expensive and rarely done in practice). Some manufacturers use gear systems so they can use the same size motor for compressors with different horsepower and CFM ratings.

Advantages of a Direct-Drive Air Compressor

The simplicity of a direct-drive air compressor provides some significant advantages for compressor reliability, efficiency and maintenance. They are also the best choice for use in harsh environments.

  • A direct-drive compressor is likely to have a longer service life and less downtime. Compared to a belt-driven compressor, a direct-drive compressor has fewer moving parts, which means less maintenance, less wear-and-tear, and greater reliability. With no belts to replace, you’ll save time and money on maintenance over the life of the compressor.
  • A direct-drive compressor is also more energy efficient; because there is no belt loss/belt slip, less power is lost between the motor and the air end. That means a direct-drive compressor will use less electricity than a belt-drive compressor with equivalent horsepower. Over time, that can add up to sizable energy savings.
  • The lack of belts also means these compressors are more reliable in harsh environments. If your compressor is exposed to extremely high or low temperatures, a direct drive compressor may be the best choice.
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Disadvantages of a Direct-Drive Air Compressor

Direct-drive compressors do have some disadvantages. One of the primary ones is capital cost: a direct-drive compressor will cost more upfront than a belt-drive compressor. There are a few additional drawbacks as well, including repair costs.

  • While direct-drive compressors have fewer repairs overall, when they do need repairs, the costs may be higher. Because the motor is connected directly to the air end, a direct-drive compressor is harder to disassemble and repair if something goes wrong and is likely to require a highly skilled technician. For this reason, professional maintenance and air compressor repair service are usually recommended for a direct-drive air compressor.
  • An ungeared direct-drive compressor cannot be adjusted to change its CFM and pressure rating. It is theoretically possible to change the horsepower and motor speed (and thus the CFM rating) for a geared compressor, but this is generally not something that can be done by the buyer post-installation.

What Is a Belt-Driven Air Compressor?

A belt-driven air compressor (or belt-drive air compressor) uses a belt and pulley system to power the air end. The belt is attached to the air compressor motor and to the air pump that operates the pistons or rotors. As the air compressor motor turns, it powers the belt, which transfers power to the air end via a pulley system. The pulley size determines the maximum pressure (PSI) and airflow (CFM) capacity for the air compressor. Most piston air compressors are belt driven.

Advantages of a Belt-Drive Air Compressor

The main advantage of a belt-driven air compressor is the flexibility they provide; the CFM and PSI ratings for the machine can be changed by adjusting the belt and pulley configuration. This flexibility can be an advantage for facilities that may need to change their pressure at some time in the future (thus changing the CFM), such as woodworking shops or auto repair shops. A belt-drive compressor is usually cheaper upfront.

The pulley system used to connect the belt to the motor and the air pump determines how the motor RPM is translated into the air pump speed. Consequently, changing the pulley and belt configuration can change the maximum pressure and reduce the airflow for the unit. Remember that these variables are inversely related; as you raise one, the other must necessarily decline. So, you can get more CFM at a lower PSI, or more PSI at a lower CFM, but you can’t raise both at the same time (without changing the horsepower of the motor). For example, you could change a compressor rated for 100 CFM at 125 PSI to one delivering higher CFM at 100 PSI by changing the pulley configuration. (How much higher will depend on other variables in the compressor design).

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Belt-driven compressors offer some other advantages as well. The belts are fairly simple to maintain and change. While service may be more frequent, the facility maintenance team can typically check and change belts.

Disadvantages of a Belt-Drive Air Compressor

The main disadvantage of a belt-drive air compressor is maintenance. Belts must be frequently checked to ensure that they are not worn, are in proper alignment, and are maintaining proper tension. If the belt and pulley system is not properly aligned, the compressor will not operate efficiently and may not deliver the expected airflows and pressures. And frequent belt changes or adjustments mean more downtime.

Belts for a belt-drive compressor wear out over time. If the belt looks “shiny” or is hardened, cracked or stretched out, it is time to replace the belt. While changing a belt isn’t a difficult operation, part and labor costs add up over the life of the compressor.

Belt problems can be especially problematic in a harsh environment. Frequent temperature changes or temperature extremes (either very hot or very cold) put added stress on the belt, causing them to wear out prematurely. A belt-drive compressor is not the best choice if your compressor will be stored outdoors or subjected to temperature extremes. Exposure to salt or chemical vapors can also damage the belt.

Things to Consider When Choosing a Direct-Drive or Belt-Drive Air Compressor

There are several factors to consider when choosing between a direct-drive vs. belt-drive compressor, including your usage patterns, available budget, energy costs, the usage environment and your maintenance capabilities. Keep in mind that rotary screw compressors are more likely to be direct drive (especially at higher horsepowers), while most piston compressors are belt-driven.

Air Usage

How much will you use the compressor? Is use continuous, or will there be frequent starts and stops? What are your peak CFM requirements? How much air do you use in total over the course of a shift or day? What PSI do you need to maintain at that CFM? Are your PSI and CFM requirements variable?

For high-CFM applications and continuous use, a direct-drive rotary screw compressor is almost always the right choice. Larger air compressors (50 HP and larger) are typically only available as a direct drive. A direct-drive compressor is more durable and reliable, which gives it a big advantage for continuous operation and high-CFM requirements.

On the other hand, if your CFM needs are more modest and you think you might need to change the PSI and CFM ratings for your compressor at some point in the future, a belt-driven compressor may be for you.

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Available Budget

When evaluating cost differences for direct-drive vs. belt-drive compressors, you need to consider two factors: up-front costs and lifetime costs.

  • Belt-drive compressors are usually less expensive than direct-drive compressors of comparable horsepower and CFM. If you are trying to limit capital expenditures, this may be the way to go.
  • However, a direct-drive compressor is likely to have lower total lifetime costs due to lower maintenance costs and a longer expected service life. If you take care of your direct-drive compressor, it is likely to provide reliable service for many years. Direct-drive compressors also have lower energy costs due to their superior efficiency (see below).

Air Compressor Efficiency

In the efficiency department, direct-drive wins hands down. This is because power is transferred more efficiently through the drive mechanism than with a belt and pulley system. Even when a belt-drive compressor is calibrated perfectly, some energy is lost to friction, heat and “belt slip”. Higher efficiency translates to lower energy costs for a direct-drive compressor.

Environment of Usage

If your compressor will be operating in a harsh environment, think direct drive. Belts in a belt-driven compressor are highly sensitive to temperature extremes and fluctuations and to exposure to salt or corrosive chemicals. Operating a belt-drive compressor outdoors or in unfavorable indoor conditions will reduce the life of the belt and lead to more downtime and maintenance. Excess wear-and-tear will also reduce the overall service life of the machine. The simpler mechanism in a direct-drive compressor does a much better job of withstanding harsh conditions.

Maintenance

In terms of maintenance time and frequency, direct drive wins again. A direct-drive compressor does not require as much hands-on maintenance since there are no belts to inspect and change. However, keep in mind that when maintenance is required for a direct drive, it is likely to be more expensive and require specialized service. Consider: do you prefer to do your maintenance in-house, or are you planning to outsource air compressor preventative maintenance? Does your maintenance team have the time and know-how to perform frequent belt changes and inspections? How much does maintenance downtime cost your facility – is it a big deal to shut down the compressor, or does the compressor often sit idle anyway? The answers to these questions will help you understand the maintenance implications of your compressor choice.

Conclusion: Choosing Between Direct-Drive and Belt-Drive Compressors

Sometimes, the choice between belt-drive and direct-drive compressors is clear: if you need a machine of 50 HP or above, or are operating your compressor in a harsh environment, direct drive may be your best (or only) choice. A direct-drive air compressor offers significant advantages in terms of efficiency, reliability and longevity. However, if flexibility and up-front cost-savings are your priorities, a belt drive may be the right choice for your facility.

Not sure which type of air compressor is right for you? Fluid-Aire Dynamics can help you choose between direct-drive and belt-drive compressors and find the right equipment for your facility. Contact us for an evaluation.

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