Introduction

A frequency inverter allows the stepless control of the refrigerating capacity to the cooling demand of the system by speed control. The following guidelines explain the design, operation, application range and special characteristics of

All Bitzer screw compressors are suitable for operation above and below the supply frequency and can thus run over an exceptionally broad capacity range.

Features of the operation with a frequency inverter (FI):

The figure below shows the smaller temperature fluctuations with frequency inverter control:

With frequency inverter operation, the average evaporation temperature can be raised e.g. from -7 to -4.5°C. Rising the evaporation temperature by 1 K increases system efficiency by up to 3%.

Capacity control with frequency inverter (FI) compared to on/off and stepped mechanical regulation

Refrigerating capacity as a function of the load is illustrated in the following graph. The frequency inverter has advantages especially in part load.

Comparison of the capacity control efficiency characteristics of screw compressors with slider control vs. frequency inverter (FI): coefficient of performance COPr/EER (ratio of refrigerating capacity to power absorbed) as a function of the load.Dotted line: CSW with slider control, compressor series is optimized for full load COPr/EER.Solid line: CSVW with FI capacity control, compressor series is optimized for part load COPr/EER (control range: 6.2:1).Operating conditions: R134a, tO: 5°C / tC: 38°C / Δtoh: 5 K. With slider control, optimum COPr/EER is always at 100%, whereas with FI, it is achieved in the part load range and can be adjusted by compressor design and control range. Due to the conflicting goals of high full load COPr/EER and high part load efficiency, a compromise is necessary.
Comparison of the capacity control efficiency characteristics of screw compressors with slider control vs. frequency inverter (FI): coefficient of performance COPr/EER (ratio of refrigerating capacity to power absorbed) as a function of the load.
Dotted line: CSW with slider control, compressor series is optimized for full load COPr/EER.
Solid line: CSVW with FI capacity control, compressor series is optimized for part load COPr/EER (control range: 6.2:1).
Operating conditions: R134a, tO: 5°C / tC: 38°C / Δtoh: 5 K.
With slider control, optimum COPr/EER is always at 100%, whereas with FI, it is achieved in the part load range and can be adjusted by compressor design and control range. Due to the conflicting goals of high full load COPr/EER and high part load efficiency, a compromise is necessary.

Also observe the following technical documents