Cold Cylinder Compression Cycle for Rotor Type Compressor
In existing compressor for air conditioning,steam compression process is nearly close to the adiabatic compression.The discharge temperature is far higher than the condensing temperature,may reach 150℃.Most electrical energy is transformed into the superheat discharge and wasted.But the Po~Pk pressure difference load required for cycle is small.In addition,compression exotherm is accumulated in the cylinder wall,which causes the expansion of suction and loses the displacement.The cold cylinder compression cycle is that has the high-pressure discharge with the cylinder be cooled and the top and down cover of the cylinder carried on the gas phase and the adiabatic separation.The rotor surface is covered the adiabatic porcelain,and the compression exotherm is pushed to the cooled cylinder wall.In this paper,a mechanism and the realizing ways are discussed on a cold cylinder compression cycle for rotary compressor.Using Qingan YZG-48RCT1 and YZG-43RA as the prototype,through improving the running parameters of design,researching on effective restraint and elimination the formation of superheat discharge in the compression process,obtaining the temperature control region of the maximum displacement for the cold cylinder,and utilizing the motor exotherm,the paper shows the developing feasibility and necessity for heat pump rotor type two-cylinder and two-stage compressor COP≥15W/W.
compression exotherm motor exotherm cold cylinder hot cylinder cold harm gas phase separation adiabatic separation absorbent working substance pair surface partial pressure minus entropy compression
Aming Ji
Shanghai Qinchen Institute of Air-energy Thermodynamics,P.R.China
国际会议
第六届压缩机与制冷国际会议(The 6th International Conference on Compressor and Refrigeration(ICCR))
西安
英文
41-45
2008-09-25(万方平台首次上网日期,不代表论文的发表时间)