Journal ArticleDOI
Modeling and measurement of a moving coil oil-free linear compressor performance for refrigeration application using R134a
Amit Jomde,A. Anderson,Virendra Bhojwani,Shreyans Kedia,Nitish Jangale,Kshitij Kolas,Pravin Khedkar +6 more
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In this paper, a prototype of the linear compressor with moving coil type linear motor has been developed and the developed compressor is integrated with test loop using R134a refrigerant to confirm its performance.Abstract:
A prototype of the compressor with moving coil type linear motor has been developed. The developed compressor is integrated with test loop using R134a refrigerant to confirm its performance. The simulation results are validated with the experimental data. The experimental results from the test loop with strokes of 10, 11 and 12 mm for three different pressure ratios of 4, 7, 10 are presented and discussed in this paper. The COP of the system calculated is 1.4 from the test results (for 54 °C condenser temperature and −20 °C evaporator temperature) with the stroke of 10 mm, pressure ratio of 10 and cooling capacity of 134 W. The maximum COP of 2.13 is achieved (for 54 °C condenser temperature and 2 °C evaporator temperature) with the stroke of 12 mm, pressure ratio of 4 and cooling capacity of 325 W. Normal refrigerator compressors utilize lubricant oil but as the refrigerant is changed the oil suitable for particular refrigerant also needs to be changed. The novel linear compressor tested does not utilize lubricant oil. The linear compressor has only one friction point i.e. between the piston and cylinder. The linear compressor utilizes Rulon (low coefficient of friction material) as a special material coated on the piston surface in contact with the cylinder. The oil-free operation of the compressor helps in adapting the refrigerator to different refrigerants without having to consider a change of lubricating oil. Refrigeration system performance with both linear compressor and the conventional reciprocating compressor is measured and compared. System COP with the linear compressor is 18.6% more than with the commercially available reciprocating compressor. The absence of connecting rod and crank mechanism accompanied with oil-free operation due to reduced friction enhance the performance of the linear compressor.read more
Citations
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Optimal refrigerant charge and energy efficiency of an oil-free refrigeration system using R134a
TL;DR: In this paper, the optimal refrigerant charge and energy efficiency of a small oil-free refrigeration system for a wide range of operating conditions using R134a was evaluated and the experimental results showed that at a condenser temperature of 40°C, a pressure ratio of 3.5 and a compressor stroke of 13
Journal ArticleDOI
Design of a high thrust density moving magnet linear actuator with magnetic flux bridge
TL;DR: In this article, the axially magnetized moving magnet linear oscillating actuator (LOA) was proposed for linear refrigerator compressor. And the authors used finite element method (FEM) tools to optimize all the parameters of the actuator.
Journal ArticleDOI
Thermodynamic analysis of linear compressor using R1234yf
TL;DR: In this paper, both modelling and measurements were conducted to study the thermodynamic performance of linear compressor using R1234yf in terms of P-V loop, polytropic index, motor efficiency, piston offset, mass flow rate, cooling capacity and coefficient of performance (CoP).
Journal ArticleDOI
Scrutinizing the sources of inefficiencies in the piston-cylinder clearance of an oil-free linear compressor.
TL;DR: In this article, a thorough study on the inefficiencies associated with leakage and viscous friction brought about by the transient compressible fluid flow in the piston-cylinder clearance of an oil-free linear compressor is presented.
Journal ArticleDOI
Dynamic behavior analysis of a moving coil oil-free linear compressor in refrigeration system
TL;DR: In this paper, a real-time measurement system is established to analyze the dynamic behavior of linear motor, piston and valve movements and the cylinder pressure, and deprived effects of gas force, i.e., piston offset and leakage are also discussed.
References
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Journal ArticleDOI
A novel linear electromagnetic-drive oil-free refrigeration compressor using R134a
TL;DR: In this article, an oil-free moving magnet linear compressor with clearance seals and flexure springs was designed for incorporation into a vapour compression refrigeration system with compact heat exchangers for applications such as electronics cooling.
Journal ArticleDOI
Development of high performance moving-coil linear compressors for space Stirling-type pulse tube cryocoolers
TL;DR: In this article, a review of the recent development of moving-coil linear compressors for space Stirling-type pulse tube cryocoolers in National Laboratory for Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences is presented.