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Piston vs Screw Compressor: Exploring the Differences in Air Compressor Technology

Choosing between a screw compressor and piston air compressor: what you need to know

Are you unsure whether a piston or screw compressor is best for your business? Explore the differences between piston and screw compressors to make an informed decision.

what compressor size do I need?

When it comes to selecting an air compressor for your industrial needs, the choice often boils down to two main types: screw compressors and piston air compressors. Each type offers distinct advantages and disadvantages, making the decision critical for optimizing performance, efficiency, and cost-effectiveness. Time to delve into the intricacies, helping you make an informed decision that aligns with your operational requirements.

What is an industrial compressor?

An industrial compressor is a device that increases the pressure of a gas by decreasing its volume. Compressors are essential in various industries, powering tools, machines, and processes by converting power into potential energy stored in pressurized air.

Advantages and disadvantages of piston vs screw compressors:

Piston compressors:

  • Advantages: Cost-effective for small-scale applications, higher pressure ratios, and simplicity in design.

  • Disadvantages: Higher maintenance due to more moving parts, less efficient for continuous use, and can be noisier.

Rotary screw compressors:

  • Advantages: Suitable for continuous operation, lower noise levels, and more energy-efficient for large-scale applications.

  • Disadvantages: Higher initial cost and may require more sophisticated maintenance.

Factors to consider when choosing an industrial compressor

When selecting an industrial compressor, it's essential to consider several factors that align with the main focus areas of energy efficiency, noise level, maintenance, redundancy, and price. Atlas Copco offers a range of products that cater to these concerns, ensuring that you can find a compressor that fits your specific needs.

Energy efficiency

Energy efficiency is critical since air compressors can account for a significant portion of industrial electricity usage. Atlas Copco's 5-37 VSDs is the most energy-efficient compressor on the market, offering an average of 60% reduction in energy consumption compared to traditional fixed-speed models, thanks to its built-in Variable Speed Drive (VSD). This technology adjusts the motor speed to match air demand, minimizing power usage and reducing operating costs.

For those who are not yet ready to invest in VSD technology, Atlas Copco offers the GA 11-30 FLX dual-speed compressors, which can save up to 20% compared to traditional fixed-speed compressors. The GA FLX series delivers double-digit energy savings no traditional fixed-speed compressor can. was developed and built to give you double-digit energy reduction no fixed-speed compressor can. 

Noise level

The noise level is important for workplace comfort and meeting health and safety regulations. Atlas Copco's compressors are designed to be exceptionally quiet, with some models like the VSD+ compressors operating as low as 62 decibels. These compressors are suitable for placement near workspaces without causing disturbance, thanks to their sound-reducing enclosures and innovative cooling fan designs.

Maintenance

Regular service and maintenance are vital for the longevity and efficiency of your compressor. Atlas Copco provides a nationwide network of factory-trained service technicians and genuine parts to ensure your equipment operates at peak efficiency. Regular servicing with OEM parts can prevent downtime and maintain energy efficiency.

Price

While the initial capital expenditure is an important consideration, the total cost of ownership, which includes energy, maintenance, and potential downtime costs, should be evaluated.

Atlas Copco compressors are designed with the lowest total cost of ownership in mind, and we offer various financing options to accommodate different budgetary needs.

Rotary screw compressors are a popular choice for continuous operation and high-volume air needs. They are known for their energy efficiency, reliability, and lower maintenance requirements than piston compressors.

For continuous operation and higher volumes of air, Atlas Copco's rotary screw compressors are more appropriate. The GA series of oil-injected rotary screw compressors is recommended for its reliability and energy efficiency. These compressors can operate at temperatures up to 46 degrees Celsius and maintain efficiency over time.

Here are some specific aspects to consider when choosing a rotary screw compressor:

Energy efficiency

Rotary screw compressors are generally more energy-efficient than piston compressors, especially when equipped with a Variable Speed Drive (VSD). VSDs adjust the motor speed to match air demand, reducing energy wastage

Isentropic efficiency is a measure of a compressor's efficiency, with higher percentages indicating better performance. The highest isentropic efficiency for rotary screw compressors is about 92%, which can lead to significant energy savings

Price and Total Cost of Ownership (TCO)

While the initial cost of a rotary screw compressor may be higher than that of a piston compressor, the TCO is often lower due to increased efficiency and lower maintenance costs. The TCO includes purchase price, energy consumption, maintenance, and any downtime costs

Reliability and durability

Rotary screw compressors are known for their reliability and durability. They have fewer moving parts, which means less wear and tear and more consistent performance over time.

This reliability can be crucial in demanding industrial environments where downtime can be costly.

Noise level

Noise levels are an important consideration in the workplace. Rotary screw compressors tend to operate more quietly than piston compressors, allowing them to be placed closer to workspaces without causing significant noise disruption.

Maintenance

Maintenance is simpler for rotary screw compressors due to their design, which has fewer moving parts. This can result in lower maintenance costs and less frequent service needs. However, it's important to consider the availability of service technicians and spare parts for the chosen brand and model.

Rotary screw compressors are a popular choice for continuous operation and high-volume air needs. They are known for their energy efficiency, reliability, and lower maintenance requirements than piston compressors.

For continuous operation and higher volumes of air, Atlas Copco's rotary screw compressors are more appropriate. The GA and GA FLX series of oil-injected rotary screw compressors is recommended for its reliability and energy efficiency. These compressors can operate at temperatures up to 46 degrees Celsius and maintain efficiency over time.

Here are some specific aspects to consider when choosing a rotary screw compressor:

Energy efficiency

Rotary screw compressors are generally more energy-efficient than piston compressors, especially when equipped with a Variable Speed Drive (VSD). VSD compressors, like the third generation of our VSD compressors, the GA VSDs, adjust the motor speed to match air demand, reducing energy wastage. However, when the initial investment cost is too high for these smart VSD compressors, the GA FLX series of dual-speed compressors is the ideal energy-efficient alternative.  

Isentropic efficiency is a measure of a compressor's efficiency, with higher percentages indicating better performance. The highest isentropic efficiency for rotary screw compressors is about 92%, which can lead to significant energy savings

Price and Total Cost of Ownership (TCO)

While the initial cost of a rotary screw compressor may be higher than that of a piston compressor, the TCO is often lower due to increased efficiency and lower maintenance costs. The TCO includes purchase price, energy consumption, maintenance, and any downtime costs

Reliability and durability

Rotary screw compressors are known for their reliability and durability. They have fewer moving parts, which means less wear and tear and more consistent performance over time.

This reliability can be crucial in demanding industrial environments where downtime can be costly.

Noise level

Noise levels are an important consideration in the workplace. Rotary screw compressors tend to operate more quietly than piston compressors, allowing them to be placed closer to workspaces without causing significant noise disruption.

Maintenance

Maintenance is simpler for rotary screw compressors due to their design, which has fewer moving parts. This can result in lower maintenance costs and less frequent service needs. However, it's important to consider the availability of service technicians and spare parts for the chosen brand and model.

When comparing piston and rotary screw compressors, it's important to understand their operational differences and how these relate to their suitability for specific tasks. Piston compressors, also known as reciprocating compressors, are typically used for applications that require short, intense bursts of air. In contrast, rotary screw compressors are designed for applications that need a steady flow of air over extended periods.

Operational differences

Piston compressors work by drawing air into a cylinder and compressing it with a reciprocating piston. They are generally best for lower volume air needs and have a duty cycle of about 60-70%, meaning they need to shut down periodically to prevent overheating.

Rotary screw compressors, on the other hand, use two interlocking rotors to compress air and are fluid cooled, allowing for 100% duty cycle and continuous operation without the risk of overheating.

Energy efficiency

Rotary screw compressors are typically more energy-efficient than piston compressors, delivering more air per unit of input energy. For example, piston compressors generally deliver 3-4 cubic feet per minute (cfm) per horsepower (hp), while rotary screw compressors deliver 4-5 cfm per hp. This efficiency is particularly beneficial where electricity costs are high.

Air quality

The quality of compressed air is another consideration. Piston compressors operate at higher internal temperatures, which can lead to more moisture in the compressed air. This may require additional drying and cleaning components. Rotary screw compressors run at lower temperatures and often come with built-in aftercoolers to reduce the air temperature, resulting in better air quality.

Maintenance and durability

Rotary screw compressors have fewer moving parts than piston compressors, which translates to less wear and tear and lower maintenance requirements. While piston compressors are simpler in design and may be easier to maintain, they typically require more frequent service due to more moving parts.

Noise and space requirements

Rotary screw compressors operate more quietly and require less space compared to piston compressors, making them suitable for closer proximity to workspaces.

Total Cost of Ownership

The initial cost of a rotary screw compressor may be higher, but the total cost of ownership can be lower due to its increased efficiency and lower maintenance costs over time. This includes the purchase price, energy consumption, maintenance and downtime costs.

Operating costs and energy efficiency

Rotary screw compressors generally have lower operating costs and are more energy-efficient in the long run, especially for continuous use scenarios. However, piston compressors might offer savings for smaller or less frequent applications.

Atlas Copco's GA series with VSD technology is recommended for its energy efficiency. The GA 5-37 VSDˢ model, in particular, can achieve significant energy savings and has a design that minimizes energy consumption.

The duty cycle of an air compressor is a crucial factor to consider when selecting the right compressor for your needs. It refers to the percentage of time a compressor can operate continuously without needing a rest period to cool down. This concept is particularly important when comparing different types of compressors, such as rotary screw and piston compressors, as it directly impacts their suitability for various applications.

Definition and importance

The duty cycle is calculated by dividing the compressor's run time by the total cycle time (run time plus rest time), expressed as a percentage. For example, if a compressor runs for 6 minutes and rests for 4 minutes in a 10-minute cycle, it has a 60% duty cycle. Understanding the duty cycle is essential to avoid overworking the compressor, which can lead to overheating and potential malfunction.

Rotary screw compressors

Rotary screw compressors are known for their ability to operate with a 100% duty cycle, making them ideal for applications requiring continuous airflow. These compressors are designed to run non-stop without overheating, thanks to their cooling mechanisms, such as oil injection. This capability is particularly beneficial for industrial settings where compressed air is needed for prolonged periods, such as in manufacturing processes, food processing, and pharmaceuticals

Piston compressors

Piston compressors, on the other hand, are better suited for applications with a lower duty cycle. They typically have duty cycles ranging from 25% to 75%, meaning they require rest periods to cool down between cycles

These compressors are ideal for tasks that need short, intense bursts of air rather than continuous operation. Applications might include DIY projects, small workshops, or any scenario where the air demand is intermittent.

Choosing the right compressor

When selecting an air compressor, it's crucial to consider the duty cycle in relation to your specific air demand. For continuous or high-volume air needs, a rotary screw compressor with a 100% duty cycle is more suitable. For intermittent use or lower air volume requirements, a piston compressor with a lower duty cycle may be adequate.

When comparing rotary screw and piston (reciprocating) compressors, a key difference lies in the number of moving parts each type possesses. This distinction significantly impacts maintenance requirements, service life, and overall reliability.

Rotary screw compressors: fewer moving parts

Rotary screw compressors are characterized by their two interlocking rotors that compress air as it moves through the compressor. These compressors have fewer moving parts compared to piston compressors, which contributes to several advantages:

  • Reduced Wear and Tear: With fewer parts in motion, there's less opportunity for components to wear out. This leads to a longer service life and potentially lower maintenance costs over time

  • Increased Reliability: The simplicity of the rotary screw design contributes to its reliability. Fewer moving parts mean there are fewer components that can fail, making these compressors a dependable choice for continuous operation

  • Simplified Maintenance: Although maintenance is still necessary, the frequency and complexity of servicing a rotary screw compressor are generally less than that of a piston compressor. This can result in lower long-term maintenance costs.

Piston compressors: more moving parts

Piston compressors operate with a reciprocating piston that compresses air within a cylinder. This design inherently involves more moving parts, including pistons, connecting rods, and valves, which affects their operation in several ways:

  • Increased Wear and Tear: The greater number of moving parts leads to more wear and tear. This can shorten the service life of the compressor and necessitate more frequent maintenance and part replacements.

  • Higher Maintenance Requirements: Due to their design, they often require more frequent maintenance to address the wear and tear on their numerous moving components. While they are generally simpler to maintain due to their design, the overall maintenance demands can be higher.

  • Potential for Greater Reliability in Intermittent Use: Despite these challenges, these compressors can be very reliable in applications that do not require continuous operation. Their design is well-suited for environments where the compressor can rest and cool down between uses.

When evaluating the impact on energy consumption between rotary screw and piston compressors, it's important to consider the efficiency of each type, especially in the context of continuous use.

Rotary screw compressors: higher energy efficiency

Rotary screw compressors are generally more energy-efficient than piston compressors, particularly when used in a continuous operation setting. This efficiency is due to several factors:

  • Variable Speed Drive (VSD): Rotary screw compressors with VSD can adjust their motor speed to match the air demand, which significantly reduces energy wastage.

  • Continuous Operation: Designed for 100% duty cycle, rotary screw compressors can run continuously without the need for rest periods, maintaining efficiency throughout their operation.

  • Lower Internal Temperatures: Rotary screw compressors operate at lower temperatures, which can reduce the energy required for cooling and air treatment processes.

Piston compressors: less efficient for continuous use

Piston compressors, while suitable for intermittent use, become less energy-efficient when required to run continuously. This is due to:

  • Intermittent Duty Cycle: Designed for shorter run times with rest periods, which can lead to inefficiencies during continuous use.

  • Higher Operating Temperatures: Higher internal temperatures can lead to increased energy consumption for cooling and air treatment.

Energy consumption reduction techniques

To reduce energy consumption, it's recommended to:

  • Avoid Leakages: Avoid any leakages in the compressed air system and reduce the running pressures as much as possible. For every bar that you lower the pressure of your system, your energy consumption will go down by about 7%.
  • Pre-cool Air Intake: Lowering the suction temperature can decrease energy consumption, with a 0.65% reduction for every 1°C drop in temperature.

  • Regular Maintenance: Changing filters and maintaining the compressor according to the recommended schedule can help maintain energy efficiency.

  • Optimize Filtration: Efficient filtration components in rotary screw compressors can contribute to overall system efficiency and energy savings.

Atlas Copco's energy-efficient solutions

Atlas Copco's GA 5-37 VSDˢ rotary screw compressor stands out as a leading example of energy efficiency in the market. This model is capable of achieving energy savings of up to 60% compared to fixed-speed models. The key to its efficiency lies in its Variable Speed Drive (VSD) technology, which allows the compressor to automatically adjust its motor speed to match the air demand, significantly reducing energy wastage.

Atlas Copco’s GA FLX is the most efficient non-VSD compressor, as it can save up to 20% energy compared to traditional fixed-speed models. 

Features contributing to energy efficiency

  • Variable Speed Drive (VSD): The VSD technology is a hallmark of Atlas Copco's rotary screw compressors, enabling them to closely match energy use with air demand, resulting in substantial energy savings.

  • Low Oil-Carryover: Atlas Copco's oil-lubricated machines boast low oil-carryover rates (as little as 3 ppm), ensuring that less energy is wasted on oil separation processes.

  • Compact Design: The small footprint of these compressors, especially in "full-feature" variants with integrated refrigerant dryers, reduces the installation space and, by extension, the energy required for operation.

  • Advanced Motor and Drive Systems: The use of interior permanent magnet motor drive and inverter systems in some Atlas Copco compressors can lead to energy savings of up to 50% over conventional fixed-speed designs.

When it comes to selecting air compressors, noise levels and air quality are significant considerations, especially for indoor environments. Atlas Copco's rotary screw compressors are engineered to address these concerns effectively.

Noise levels

Atlas Copco's rotary screw compressors are designed to operate quietly, making them suitable for indoor use where noise is a concern. For instance, Atlas Copco's VSD+ compressors can operate at noise levels as low as 62 decibels, which is quieter than the average conversation.

This low noise level is achieved through several design features:

  • Innovative VSD+ Technology: The VSD+ compressors are equipped with a full or partial enclosure that absorbs sound, reducing noise levels to below 60 dB, and can be placed next to production lines without disturbing operators.

  • Reduced Mechanical Noise: The absence of coupling or gears between the motor and screw element in these compressors contributes to their quiet operation.

Air quality

Atlas Copco compressors are not only quiet but also ensure high air quality, which is crucial for many applications. The GA range of oil-injected rotary screw compressors offers various versions to meet different air quality standards, including fixed-speed, dual-speed, and variable speed drive versions

Key features that contribute to air quality include:

  • Oil Injection: The oil-injected screw compressors require oil for several functions, including cooling, lubrication, and noise dissipation, which contributes to the overall air quality

  • Advanced Air Treatment: Atlas Copco offers advanced air treatment technologies, such as refrigeration drying for low dew point needs and desiccant drying for even lower dew points, ensuring the air meets specific purity classes.

Benefits for indoor environments

The combination of low noise levels and high air quality makes Atlas Copco's rotary screw compressors particularly beneficial for indoor environments. They can be placed closer to workspaces without causing noise disruption or compromising air purity, which is essential for applications in medical facilities, laboratories, and food processing industries.

Specific noise levels

Atlas Copco provides detailed information about the noise levels of their compressors, allowing customers to make informed decisions based on their specific requirements. For example, the G/GX range offers a quieter alternative to piston compressors, with up to a 13% reduction in noise levels.