Linear Compressor Discharge Manifold Design For High Thermal Efficiency

In the design of hermetic compressors for household refrigeration, one important part of the overall efficiency of the machine comes from a good thermal efficiency of the discharge manifold. It is desired that the heat generated during the compression process and accumulated by the gas in the discharge chamber does not return to the compression chamber walls. If not, this heat returns to the pump, reducing volumetric efficiency. Current technologies like on/off and variable velocity compressors, normally make use of metallic parts in the discharge chamber, such parts having high thermal conduction coefficients making them less efficient. Linear compressor technology, together with the non-use of oil allows the improvement of the discharge manifold system, increasing the thermal insulation of the heat from discharge chamber to compression chamber, improving efficiency. This article aims to show the development of this improved discharge system, tests performed, and results obtained

Linear Compressor Suction Valve Optimization

Design of hermetic compressors for household refrigeration follows a common sequence that considers an initial concept, normally based on existing families. Those are then upgraded with new features, aiming improvements in efficiency, sound quality or even cost reduction. Common compressors have a cylinder head that carries discharge and suction valve. In a new and compact designs for linear compressor suction valve is placed on the top of the piston, requiring new shapes in order to make it possible to satisfy, gas flow, fatigue and dynamics requirements. This article aims to present the use of optimization procedure used to develop the suction valve design for a linear compressor, the results obtained with the optimization process, and final results in compressor, in terms of performance and noise