Compressor Capacity & Efficiency
Capacity
Simply put the compressor has to move refrigerant to move heat. The displacement of the compressor cylinder and the speed of the motor directly controls the amount of refrigerant vapor being pumped. Higher motor speed and larger displacements increases capacity. At the same time the larger the displacement and the higher the speed the more power it takes to turn the compressor. Increasing compressor capacity includes using stronger motors as the displacement increases.
In comparing Danfoss compressors:
The BD 35 displacement is 2.0 cc. Speed is variable between 2,000 to 3500 RPMs.
The BD 50 displacement is 2.5 cc. Speed is variable between 2,000 and 3500 RPMs.
The BD 80 displacement is 3.0 cc. Speed is variable between 2500 and 4400 RPMs.
Efficiency
Efficiency is a measure of refrigerant (or heat) moved by a measured amount of energy such as: BTUs per WATT.
Proper design is essential for energy saving. Slow speeds produce slightly better BTU per WATT ratios.
BD 35 speed: 2000 RPM= 113 BTU/HR 4.5 BTU per WATT.
3500 RPM= 167 BTU/HR
3.7 BTU per WATT
BD 50 speed: 2000 RPM= 146 BTU/HR 4.2 BTU per WATT
3500 RPM= 249 BTU/HR
3.9 BTU per WATT
BD 80 speed: 2500 RPM= 231 BTU/HR 4.2 BTU per WATT
4400 RPM= 365 BTU/HR
4.0 BTU per WATT
Test Points
Refrigerant pressures have a great deal to do with efficiency figures. The data here is from the compressor manufacture’s data sheets using ASHRE (American Society of Heating and Refrigeration Engineers) test points. These are: evaporating at –10 F. condensing at 131 F which is using air cooling at a temperature of 90 F. This puts all the compressors in the same conditions for comparison. Compressors work more efficiently with low cooling temps and higher evaporator temperatures but this my not be practical for tropical conditions and refrigerating and freezing on a yacht.
Other Issues with System Design