Differences between reciprocating piston compressor and rotary screw air compressor:
Design:
In the case of rotary screw compressors, they employ a pair of interlocking helical screws (known as rotors) to execute air compression. On the other hand, reciprocating compressors utilize pistons driven by a crankshaft to achieve the same.
Efficiency:
Rotary screw compressors generally surpass reciprocating compressors in both electricity consumption and overall cost effectiveness. The mechanism involving the interlocking helical screws ensures a more continuous and less energy consuming compression process, unlike the back and forth piston motion in reciprocating compressors. Nonetheless, it’s important to acknowledge that the initial investment in rotary screw air compressors tends to be higher due to their greater complexity and employment of advanced technology, as compared to reciprocating compressors.
Noise Level:
Rotary screw compressors are renowned for their subdued acoustic profile, which stands in stark contrast to reciprocating compressors known for their louder operation primarily attributed to piston movement. Typically, rotary screw compressors operate within the noise level range of 70 80 dB(A). In comparison, reciprocating compressors can generate noise levels ranging from 80 90 dB(A), depending on factors such as size, model, and brand.
Nonetheless, it’s important to note that, thanks to technological advancements, certain reciprocating compressors are now equipped with noise reduction features that effectively mitigate their noise levels.
Maintenance:
Rotary screw air compressors typically offer a more straightforward maintenance experience compared to reciprocating compressors. Their advantage lies in having fewer moving parts, resulting in reduced wear and tear and fewer potential points of failure. Additionally, the absence of piston rings in rotary screw compressors diminishes the need for frequent oil changes and minimizes the risk of oil leaks.
In contrast, while reciprocating compressors are relatively more demanding in terms of maintenance, they remain a popular choice for numerous businesses due to their lower initial cost and compact design.
Airflow:
A distinguishing feature of rotary screw air compressors is their capacity to deliver a consistently smooth airflow in comparison to reciprocating air compressors. This is attributed to the synchronized operation of the two interlocking helical screws in rotary screw compressors, which ensures a continuous and uniform flow of compressed air. Conversely, reciprocating compressors rely on the piston’s motion to compress the air, which can lead to pulsations and airflow fluctuations, especially when operating at higher pressures.
Air Pressure:
The choice of air compressor can significantly impact the pressure output. Rotary screw and reciprocating compressors possess distinct capabilities.
Rotary screw compressors are optimized for the steady production of compressed air at specific pressures, typically up to 150psi (10.3 bar), making them well suited for applications like operating pneumatic tools.
Conversely, reciprocating compressors are designed to generate compressed air at higher pressures, often reaching up to 200psi (13.8 bar) or more. They excel in high pressure air applications such as industrial processes and spray painting. Additionally, the pressure produced by reciprocating compressors can fluctuate as the piston moves, resulting in pulsations and pressure variations.
After years of accumulated production, research and development experience, KITO has achieved the best production process standards. Through strict inspection and monitoring throughout the entire process from trial production to finished products, we ensure that the quality of them meets the standards and customers’ requirements.