船舶柴油机第4章第6节.ppt

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1、 第四章第四章 燃油喷射与燃烧燃油喷射与燃烧 第四章第四章 燃油喷射与燃烧燃油喷射与燃烧l第一节 燃油与燃油添加剂l第二节 燃油的喷射l第三节 喷油泵及喷油器l第四节 混合气的形成和燃烧l第五节 故障与维护管理l第六节 提高柴油机功率和经济性的措施l第七节 柴油机排气污染与净化l第八节 电控喷射第六节第六节 提高柴油机功率和经济性的措施提高柴油机功率和经济性的措施关键：功率不变，则减少损失；关键：功率不变，则减少损失；损失不变，则提高功率。损失不变，则提高功率。一、提高强载度一、提高强载度1、采用增压技术和对增压空气进行中冷采用增压技术和对增压空气进行中冷 2、改善燃油与空气的混合改善燃油与空

2、气的混合 3、改善换气过程，提高改善换气过程，提高 v 二、减少损失二、减少损失第七节第七节 柴油机排气污染与净化柴油机排气污染与净化l一、柴油机排气污染物及其危害一、柴油机排气污染物及其危害l二、柴油机排气污染物生成机理及控制措施二、柴油机排气污染物生成机理及控制措施 一、柴油机排气污染物及其危害一、柴油机排气污染物及其危害l1排放物种类排放物种类l有害：有害：一氧化碳（一氧化碳（CO）、氮氧化物（）、氮氧化物（NOX、碳氢化物（碳氢化物（HC）、二氧化硫（）、二氧化硫（SO2）、臭氧和）、臭氧和微粒物质（如碳烟、油雾等）微粒物质（如碳烟、油雾等）l无害：无害：燃料的完全燃烧产物，如二氧化碳

3、燃料的完全燃烧产物，如二氧化碳（CO2）、水蒸汽（）、水蒸汽（H2O）、过量空气以及残）、过量空气以及残余氮（余氮（N2）等）等 l2有害排放物的危害有害排放物的危害二、柴油机排气污染物生成机理二、柴油机排气污染物生成机理 及控制措施及控制措施l1排气污染物生成机理排气污染物生成机理l燃烧室温度升高、氧气浓度增加、燃气在高燃烧室温度升高、氧气浓度增加、燃气在高温区滞留时间增长均使温区滞留时间增长均使NOX 增加增加lHC、CO排放物是由燃油不完全燃烧形成的排放物是由燃油不完全燃烧形成的 l黑烟、蓝烟（黑烟、蓝烟（0.5微米以下）和白烟（微米以下）和白烟（1微米以微米以上）上）。l2排气污染物控

4、制措施排气污染物控制措施2排气污染物控制措施排气污染物控制措施1）前处理）前处理对燃油或空气在进入气缸前进行预先处理对燃油或空气在进入气缸前进行预先处理.如脱硫、如脱硫、EGR、乳化、乳化2）后处理（除尘、）后处理（除尘、SCR等）等）3）机内处理）机内处理(改进柴油机的缸内过程改进柴油机的缸内过程)（1）推迟喷油并适当提高喷油速率。）推迟喷油并适当提高喷油速率。（2）提高喷射质量，保证良好的混合。）提高喷射质量，保证良好的混合。（3）增压空气中冷。）增压空气中冷。（4）提高压缩比。）提高压缩比。（5）利用有关可变控制机构和微机进行最佳控制。）利用有关可变控制机构和微机进行最佳控制。（6）研制

5、使用低污染的燃烧室。）研制使用低污染的燃烧室。第八节第八节 电控喷射柴油机电控喷射柴油机一、发展概况一、发展概况车用四冲程柴油机的电控喷射，在上个世纪末已经趋于车用四冲程柴油机的电控喷射，在上个世纪末已经趋于成熟，大量装备在重型车辆上。船用中低速机上使用是成熟，大量装备在重型车辆上。船用中低速机上使用是本世纪初的最新技术。本世纪初的最新技术。二、两种主要的电控喷油系统二、两种主要的电控喷油系统RT-flex的共轨控制的共轨控制ME的液压喷射控制的液压喷射控制智能柴油机的优点智能柴油机的优点 P194 六条六条RTflex共轨系统共轨系统S70MECombustion in CI EngineI

6、n a CI engine the fuel is sprayed directly into the cylinder and the fuel-airmixture ignites spontaneously.These photos are taken in a RCM under CI engine conditions with swirl air flow0.4 ms after ignition3.2 ms after ignition3.2 ms after ignitionLate in combustion process1 cmIn Cylinder Measuremen

7、tsThis graph shows the fuel injection flow rate,net heat release rate and cylinder pressure for a direct injection CI engine.Start of injectionStart of combustionEnd of injectionCombustion in CI EngineThe combustion process proceeds by the following stages:Ignition delay(ab)-fuel is injected directl

8、y into the cylinder towards the end of the compression stroke.The liquid fuel atomizes into small drops and penetrates into the combustion chamber.The fuel vaporizes and mixes with the high-temperature high-pressure air.Premixed combustion phase(bc)combustion of the fuel which has mixedwith the air

9、to within the flammability limits(air at high-temperature and high-pressure)during the ignition delay period occurs rapidly in a few crank angles.Mixing controlled combustion phase(cd)after premixed gas consumed,the burning rate is controlled by the rate at which mixture becomes available for burnin

10、g.The rate of burning is controlled in this phase primarily by the fuel-air mixing process.Late combustion phase(de)heat release may proceed at a lower rate well into the expansion stroke(no additional fuel injected during this phase).Combustion of any unburned liquid fuel and soot is responsible fo

11、r this.Four Stages of Combustion in CI EnginesStart ofinjectionEnd ofinjecction-10TC-20102030CI Engine TypesTwo basic categories of CI engines:i)Direct-injection have a single open combustion chamber into which fuel is injected directlyii)Indirect-injection chamber is divided into two regions and th

12、e fuel isinjected into the“prechamber”which is connected to the main chamber via anozzle,or one or more orifices.For very-large engines(stationary power generation)which operate at low engine speeds the time available for mixing is long so a direct injection quiescent chamber type is used(open or sh

13、allow bowl in piston).As engine size decreases and engine speed increases,increasing amounts of swirl are used to achieve fuel-air mixing(deep bowl in piston)For small high-speed engines used in automobiles chamber swirl is not sufficient,indirect injection is used where high swirl or turbulence is

14、generated in the pre-chamber during compression and products/fuel blowdown and mix with main chamber air.Combustion CharacteristicCombustion occurs throughout the chamber over a range of equivalenceratios dictated by the fuel-air mixing before and during the combustion phase.In general most of the c

15、ombustion occurs under very rich conditions within the head of the jet,this produces a considerable amount of solid carbon(soot).Ignition DelayIgnition delay is defined as the time(or crank angle interval)from when the fuel injection starts to the onset of combustion.Both physical and chemical proce

16、sses must take place before a significantfraction of the chemical energy of the injected liquid is released.Physical processes are fuel spray atomization,evaporation and mixing of fuelvapour with cylinder air.Good atomization requires high fuel-injection pressure,small injector hole diam.,optimum fu

17、el viscosity,high cylinder pressure(large divergence angle).Rate of vaporization of the fuel droplets depends on droplet diameter,velocity,fuel volatility,pressure and temperature of the air.Chemical processes similar to that described for autoignition phenomenonin premixed fuel-air,only more comple

18、x since heterogeneous reactions(reactions occurring on the liquid fuel drop surface)also occur.Fuel Ignition QualityThe ignition characteristics of the fuel affect the ignition delay.The ignition quality of a fuel is defined by its cetane number CN.For low cetane fuels the ignition delay is long and

19、 most of the fuel is injected before autoignition and rapidly burns,under extreme cases this produces anaudible knocking sound referred to as“diesel knock”.For high cetane fuels the ignition delay is short and very little fuel is injected before autoignition,the heat release rate is controlled by th

20、e rate of fuel injection and fuel-air mixing smoother engine operation.Cetane NumberThe method used to determine the ignition quality in terms of CN is analogousto that used for determining the antiknock quality using the ON.The cetane number scale is defined by blends of two pure hydrocarbonreferen

21、ce fuels.By definition,isocetane(heptamethylnonane,HMN)has a cetane number of 15 and cetane(n-hexadecane,C16H34)has a value of 100.In the original procedures a-methylnaphtalene(C11H10)with a cetane number of zero represented the bottom of the scale.This has since been replaced by HMN which is a more

22、 stable compound.The higher the CN the better the ignition quality,i.e.,shorter ignition delay.The cetane number is given by:CN=(%hexadecane)+0.15(%HMN)The method developed to measure CN uses a standardized single-cylinder engine with variable compression ratioThe operating condition is:Inlet temper

23、ature(oC)65.6Speed(rpm)900Spark advance(oBTC)13Coolant temperature(oC)100Injection pressure(MPa)10.3With the engine running at these conditions on the test fuel,the compression ratio is varied until combustion starts at TC,ignition delay period of 13o.The above procedure is repeated using blends of

24、cetane and HMN.The blendthat gives a 13o ignition delay with the same compression ratio is used tocalculate the test fuel cetane number.Cetane Number MeasurementCetane vs Octane NumberThe octane number and cetane number of a fuel are inversely correlated.Gasoline is a poor diesel fuel and vice versa

25、.Cetane numberCetane motor method octane numberFactors Affecting Ignition DelayInjection timing At normal engine conditions the minimum delay occurs with the start of injection at about 10-15 BTC.The increase in the delay time with earlier or later injection timing occurs because of the air temperat

26、ure and pressure during the delay period.Injection quantity For a CI engine the air is not throttled so the load is variedby changing the amount of fuel injected.Increasing the load(bmep)increases the residual gas and wall temperature which results in a higher charge temperature at injection which translates to a decrease in the ignition delay.Intake air temperature and pressure an increase in ether will result in a decrease in the ignition delay,an increase in the compression ratio has thesame effect.(gauge)Factors Affecting Ignition DelaySCR catalyst installation