新版孙建太阳能喷射式制冷系统

Click to edit Master title style,Click to edit Master text stylesgood1,Second levelgood2,Third levelgood3,Fourth levelgood4,Fifth levelgood5,*,Click to edit Master title style,Click to edit Master text stylesgood1,Second levelgood2,Third levelgood3,Fourth levelgood4,Fifth levelgood5,1,Speaker:Sun jian,Solar cooling technologies using,ejector,（喷射器）,refrigeration system,(运用喷射制冷系统旳太阳能冷却技术),2,Part,Nomenclature,COP coefficient of performance,ERS ejector refrigeration system,BERS binary ejector refrigeration system,(,二元流体,),SCERS stage cascade ejector refrigeration,system,（复叠）,SCBERS stage cascade binary ejector refrigeration,system,（复叠二元流体）,SRS sorption refrigeration system,4,Part,2,Abstract,The continuous search for the effective cold generation methods resulted in the creation of thermally driven ejector refrigeration systems(ERS).Producing cold at various temperatures,the ERS serves to save electric energy and reduce greenhouse gas emissions.The theoretical analysis of the ejector cycles carried out for various ERS has proved its capability to generate the cold at+12 to 40,reaching the COP values at 0.7 to 0.1 respectively.The bined cycles of water conversion,heat and cold production appear to be especially effective.,Part,3,Introduction,Gradual decrease of fossil fuels use for space heating and hot,water supply became possible nowadays.the COP of solar thermal cooling system is less than 1.The COP of the latest solar collectors reaches 0,9 and the COP of the cold generators is still on a level of 0.4-0.6.In order to keep the paces of civilization development and avoid its negative consequences,the global conception of the effective energy consumption should be significantly reviewed with a focus on renewable energy.,The analysis of the renewables availability and particularities of transformation of the energy flows proved its optimal areas of application.PV panels are to be mainly applied for the low-power consuming system,wind turbines for power accumulation,while solar thermal for heat/cold generation and for the steam-power cycles,Part,4,Analysis of solar,cooling ejector based systems,The thermally driven refrigeration systems,especially ERS,are suitable for air-conditioning and refrigeration.They have several known advantages and increased effectiveness thanking to to the latest research results.The cold production occurs by direct transformation of solar thermal energy,avoiding electricity production required for the vapour pression refrigeration system 1.,As a result of the recent researches it became possible to bring the COP of ERS closer to the COP of the sorption refrigeration system(SRS)that make ERS petitive with SRS especially for refrigeration units of small capacity.,The single-stage ERS using pure refrigerant as a working media can be used for air-conditioning with the COP on a level of 0.25-0.45 at tgen=85C,tcond=35C,teva=12C.,The two-stage ERS can be used to generate cold at negative temperature(-15C)provided that the cold generation rate is 1 to 10-15 parably to air-conditioning mode at+12C.In that case maximum achievable integral COP will be 0.25-0.34.,The binary fluid ejector refrigeration system(BERS)can be used to expand the condensation and the evaporation temperature ranges.BERS operates on the specially selected refrigerants mixtures 5,6,7.The selection criteria are:the difference in molecular mass,critical speeds of sound,heat of vaporization and pressibility ratio.In the BERS,condensation temperature may increase up to 55-60C providing same amount of the generated cold and the on a level of 0.5-0.7.The COP of the BERS is often higher than of single fluid ERS.The BERS cycle is shown on Fig.1.,Cascade systems can also be applied to generate low temperature cold from the low-grade heat sources.They can use single,binary or multi-ponent fluids,allowing the cold generation at-45C,suitable for the deep freezing and food/drugs storage.The COP of such system is calculated in a range of 0.1-0.15,that still makes around 23-28%of the COP of the equivalent Carnot cycle 8.,图1为增压喷射式制冷系统示意图。在换热器2中,制冷剂吸热气化、增压,产生饱和蒸汽。蒸汽进入喷射器4,经喷嘴高速喷出膨胀,在喷嘴附近产生真空,从而将蒸发器 9 中旳低压闪蒸蒸汽通过回热器7、增压器10吸入喷射器(使用回热器7和增压器 10 可以提高喷射器以及系统工作效率,选择部件)。这两股气体在喷射器中混合、升压。喷射器 4出来旳混合气体进入冷凝器 5,进行放热、凝结。然后,冷凝液分为两股,一股通过回热器 7、通过节流阀8降压后进入蒸发器 9,在那里吸热、气化,完毕制冷负荷;另一股则通过循环泵6升压后 再进入换热器2中。,Part,5,Selection of,the solar collectors for ERS,The ERS consumes low and medium grade heat,which can be supplied by various types of solar collectors or concentrators.The optimal generation temperature of 90-100C,produced by the standard flat-plate solar collectors,corresponds to the highest efficiency of solar cooling systems.the application of the evacuated tube collectors leads to the overall COP increase when the heat potential of 150-200C is utilized(Fig.2).That fact supports the evacuated tube solar technology,especialy at the significant difference between interior and ambient temperatures.,The efficiency of the solar cold generators also depends on the mult