Prediction Of Spark Ignition Engine Testing Engineering Essay

Prediction Of Spark Ignition Engine Testing railway locomotive room EssayIntroductionInternal electrocution locomotives date back to the 1800s. Since so, they meet improved considerably as the knowledge of the railway locomotive function has evolved. The railway locomotive exploit is seen as a complex unmatched and so, calculating the motley engine parameters is a complicated task. There have been a number of computer programmes with the aim of estimating these parameters OpenWAM is relatively new simulation softw be that int closings to do this. OpenWAM, or bluff wave action model, is a free, open-source statute that has been developed to make for the thermo- and liquid projectiles of compressible mix d hotshot the different components of an engine. The aim of this project to use OpenWAM to gene mark a any-embracing set of engine per make waterance and render economy prediction estimates and to then comp be these with experimental results. The engine in question is that of a BMW-Mini need snapshot Spark Ignition Engine. It go away be tested all all over a range of different operating loads and focal ratios. A palmy interpretation of this softw be, and the results, could optimise the ope proportionalityn of the interior conflagration engine.This Interim delineate details a synopsis of the literary review done to date. It includes the important principles of an internal combustion engine, including the breathing in and beat form as healthy as the in- diver put up appendage. The details of OpenWam softw ar ar mentioned and its applications. The aims of this project ar also described.Literary Review raw material PrinciplesInternal combustion engines have one important purpose, that is the production of mechanical energy from the chemical energy contained in the fuel. The basic principles behind each reciprocating engine ar the same.The cycle has quadruplet stages dream, coalescency, elaborateness, drop. The brainch ild stroke begins with the speculator at the top of the cylinder (TDC) and the intake valve open. As the plunger moves down a vacuum is created and appearance-fuel compartmentalisation is bony into the cylinder. When the piston r individuallyes the bottom (BDC) the inlet valve is closed and the compression stroke begins. This involves the piston moving up and compressing the assembly line-fuel mixture. This is then ignited in the expansion stroke. As the line of business-fuel mixture is rouseed it expands, pushing the piston down, to bottom total (BC). The outlet valve is then opened and the exhaust louse upes argon removed to the atmosphere. The piston moves up to TDC as the exhaust stroke finishes the cycle 1.Figur-1 Basic burning CycleThe engine used in this project is a four-cylinder engine. most engines used for automobiles have four cylinders. The number of cylinders is an important conside proportionalityn for the boilers suit achievement of an engine. each of the cylinders, contain a piston that is committed to the crankshaft. The proceeding of the piston rotates the crankshaft. The crankshaft is what turns the wheels. The more pistons powering the crankshaft mode more power squirt be generated in less time.The engine used in this project is a Direct Injection Spark Ignition Engine. This means that the fuel is injected presently into the cylinder. With regular engines, the fuel and bearing is mixed before introduction the cylinder. This will be discussed in further detail in preceding sections.Basic Componentshttphttps://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEiwgmS0PXmHUnpxV655fcAPv4JV3lt_AZ85wB_BtK77KTzxbEHOkMLAFzm_RgjghdHIBAE2rEONSkoytOqGzEquIsNGLYUdCWdAYwkqy0OMCEl79QvRVeHEhbsaYbcQhp9jQUYKinNF_Lg/s1600/BMW_S1000RR_ENGINE_CUTAWAY_700x462_700.jpgFigure-2 Engine CutawayIntakeThe engine intake process governs many an(prenominal) important aspects of the flow within the cylinder. The might of combustion and the production of pollutants are strongly dependent on the flow of credit line during the intake stroke. nomadic Flow during Intake ProcessThe suck flowing into the cylinder, by dint of the intake valve, behaves as a conical jet. The axial and radial velocity components, of the jet, are up to ten times that of mean piston speed. towering speeds of the unstable lead to turbulence. Turbulence is generated due to the large velocity gradient make when the jet separates from the valve. Turbulent flow undergoes irregular mixing and the speed of the fluid is constantly ever-changing magnitude and direction. By increasing the rate of momentum, heat and mass give of the fluid, turbulent flow encourages mixing within the cylinder. It leads to the organisation of vortices. Vortices are large-scale rotating flow patterns that are unsteady and react with to each one other. These vortices are important governing factors of the boilers suit behaviour of the flow. They endure until the end of the intake stroke, where they become unstable and break up.Turbulence is essential to the impelling operation of an SI engine. It is a go al of any engine to tap the turbulent pitch, however this is complicated by the fact that flow patterns metamorphose during the engine cycle. They are largely dependent on the object of the intake system and are quite sensitive to small variations in flow. They are largely dependent on the design of the intake system and are quite sensitive to small variations in flow. This go off lead to positive cycle-to-cycle variations. The turbulent flow of air within the combustion chamber is close to exclusively generated during the intake stroke 3Volumetric Efficiency Pg.209Volumetric dexterity is delimitate is the measure of success with which air is inducted into an engine. It is defined as the ratio of the volume flow rate of air into the intake system, to the rate at which the volume is displaced by the engine. More simply, it is the actual rate at which air slip ins the cylinder, over a given period in time, to the theoretical rate at which it should enter, over the same time period 6.CDocuments and SettingsucdMy DocumentsDownloadsCodeCogsEqn.gifWhere v volumetric efficiencyMa mass flow rate of aira, 0 density of airVd displaced cylinder volumeN crankshaft rotational speedVolumetric efficiency is used to measure the overall printingiveness of an engine. It is mainly affected by the density of air move into the cylinder, the design of the intake and exhaust heterogeneouss, and the quantify of the intake and exhaust valves. The just(prenominal) temperatures within the combustion chamber have a limiting effect on the mass flow rate of air into the system, thus trim down volumetric efficiency. To counteract this, air with higher density, i.e. reject temperature and higher gouge, is preferred. This increases the core of air entering the system, improving the volumetric efficiency. The intake and exhaust manifold and valve time have similar limiting effects. The amount of air entering the cylinder is also largely dependent on these parameters. These parameters constrain the upper limit possible engine power. This is why the volumetric efficiency of an engine is real important.Frictional Losses Pg.212Losses due to friction have a major(ip)(ip) impact on the engines performance. During the intake stroke, going awayes due to friction, in every part of the intake system, mean the in-cylinder tweet (pc) is less than the atmospheric pressure (patm). The difference between these two values is dependent on the square of the speed. The total friction loss is the combined losses from each of the components in the intake system air-filter, inlet manifold, inlet valve and inlet port. Each component adds a loss of a few percent, on average, pc can be 10-20% lower than atmospheric 1.RAM effectDuring the intake process the RAM effect needs to be considered when calculating an engines performance. It occurs when the open valve phase is extended beyond that of the intake stroke to improve charging the cylinder and make best use of the inertia of the gases in the intake system. As the piston reaches TDC during the intake stroke, the inlet valve does not close immediately. Instead it form open, as the compression stroke begins. This allows any extra air to be added to the cylinder. The momentum of the air during the intake stroke carries it into the cylinder even aft(prenominal) the piston has reached the bottom of the cylinder. At high speeds, the intake valve can remain open for longer to optimize the RAM effect. The inlet valve isnt closed until a crank angle of approximately 40-60o after BDC to take advantage of this. in time for engines running at lower speeds, the momentum is not high enough, this can cause the air already in the cylinder to be oblige out. Adapting the inlet valve open phase can have a major impact on the engines performance 2.OverlapWhen considering both(prenominal)(prenominal) the RAM effect and the blowdown phase (discussed later), it is clear to see that in that location is a peri od of overlap, when both the inlet and outlet valves are open. If the pressure inlet to outlet ratio is less than one then backflow occurs. This involves a rush of exhaust gases out through the exhaust manifold that aids the intake of air into the cylinder during the intake stroke. This works best at higher speeds, when its main advantage of overlap is the improvement in volumetric efficiency.As with any fluid flowing through a system of intricate pipes, cylinders, valves, there are friction, pressure and inertial forces present. The importance of these forces is dependent on the both the velocity of the fluid and the geometry of the system. These forces along with the effects of changing engine design affect the volumetric efficiency.In-cylinder (NB Pg.372,)Gas drive within the engine cylinder is one of the major factors that control the combustion process. Both the bulk motion of the gas and the turbulence characteristics of the fluid are important.The in-cylinder combustion proc ess can be divided into four distinct phasesSpark-Ignition early(a) Flame organic evolutionFlame PropogationFlame terminationSpark Ignition Pg 585Close to the end of the compression stroke, the discharge between the spark plug electrodes by the spunk system starts the combustion process. The spark develops a self-sustainable and propagating flame. The function of the ignition system is to initiate the flame propagation process, to repeat this for each cycle, over the lavish range of load and speed of the engine, at the appropriate time.Spark- quantify is an important musing during the engine process. It can have a number of affects on the efficiency, musical theme of pollutants and other parameters of the engine. Advancing the timing, so that combustion occurs earlier in the cycle, increases the spot cylinder pressure (compression stroke work move, which is work form piston to gases in the cylinder, also increases). This is because more fuel is burned before TDC and the rus h pressure moves closer to TDC where the cylinder volume is smaller. Delaying the timing means the aggrandisement pressure occurs later in the cycle and is also decreased in magnitude. This is because more of the fuel is burnt after TDC. Higher peak cylinder pressure result in higher peak burned gas temperatures, and therefore higher dark formation results.Maximum Brake tortuousness (MBT) is the use of optimal ignition timing to take advantage of internal combustion engines max power and efficiency. It occurs when the compression stroke work transfer (which is from the piston to the cylinder gases) is change magnitude and the expansion stroke (which is from cylinder gases to the piston) is reduced. The MBT timing occurs when the magnitude of these two opposing trends just offset each other. fastener the timing from MBT lowers the torque 4.Generally, spark timing is delayed so as to avoid abnormal combustion. Abnormal combustion refers to each knock or surface ignition. crash is the name given to the noise transmitted through an engine when a spontaneous ignition of a portion of the end-gas occurs. End-gas is the mixture of fuel, air and residual gas ahead of the propagating flames. The spark plug ignites one flame front, however an uncontrolled combustion then occurs and an extremely speedy release of most of the chemical energy in the end-gas leads to the initiation of tenfold flame fronts. When these multiple flame fronts collide, the cylinder pressure increases and causes the piston, connecting rods and bearings to resonate 5. Knock has a direct impact on efficiency because it limits the maximum compression ratio that can be used in any cylinder.Surface-ignition is some other type of abnormal combustion. It occurs when ignition is initiated by a local hot-spot primed(p) on the walls of the cylinder.Direct Injection Spark IgnitionDirect Injection (DI) engines deliver the fuel directly into the combustion chamber. The traditional method pre-mixes ai r and fuel in the intake manifold and then delivers it to the cylinder. However with DI engines, air enters through the intake manifold, where a specific amount of fuel is sprayed into the cylinder.Early Flame Development Pg.846-850During the in-cylinder process of compression and combustion, the increasing cylinder pressure forces some of the gas in the cylinder into the corners or narrow volumes connected to the combustion chamber, e.g. the volumes between the piston, rings and cylinder wall. Most of this gas corpse unburned in the primary combustion process as the flame cannot enter these narrow regions.Spark-Timing Pg 585There is always an optimal spark timing for all operating conditions of an engine. MBT is most ideal at WOT however is not in demand(p) when the engine is at idle. Although MBT is desired at WOT it is wise to retard timing fairly to prevent knock that may occur and to create a small safety margin. It is possible to calculate the MBT of an engine by victorious into account of all the operating conditions of an engine through its sensors. Operating conditions are defined by the engine parameters lambda, engine load, internal exhaust gas recirculation, engine speed, and of course spark advance.Magnusson, J. 2007 An Investigation of Maximum Brake torsion Timing based on Ionization Current FeedbackExhaust ( Pg. 626,570,)The aim of sulfate sparks depends on the fuel sulfur content. Unleaded gasoline contains cl to 600 ppm by weight sulfur, which is then oxidized during the combustion process to form SOx.The emission of particles is increased when the engine is cold, i.e. following start-up. The exhaust temperature has a substantial effect on pollutant formation. Particles form in the exhaust manifold and either are emitted immediately or deposit on the walls of the exhaust. Many of these are removed when the engine is suddenly accelerated.The exhaust geometry, specifically the diameter, determines the amount of particles emitted. neither c ombustion due to bulk quenching of the flame in that share of the engine cycle where combustion is relatively slow, is a source of hydrocarbons in engines. Such conditions are most likely to occur during fleeting engine operation when the air/fuel ratio, spark timing, and the fraction of the exhaust recycled for emission control may not be properly matched.Engine jutThe major combustion chamber design objectives which relate to engine performance and emissions are Pg. 845-A fast combustion process, with low cycle-by-cycle variability, over the full operating engine rangeA high volumetric efficiency at wide open throttleMinimum heat loss to the combustion chamber wallsA low fuel octane requirement express burn process is more robust and results in the engine cosmos able to operate satisfactorily with a lot more EGR, or much leaner, without a deterioration in combustion quality. Faster burning chamber designs exhibit much less cycle variation, this permits better control of NOx w ithin the engine. This is achieved in a number of ways. twisting is used to speed up the combustion process in some spark-ignition engines. Swirl is defined as the organized rotation of the charge about the cylinder axis. Swirl is created by designing the intake system such that the flow enters the cylinder with an initial angular momentum. This is done in two ways, either the flow is discharged into the cylinder tangentially towards the cylinder wall. or intake?High volumetric efficiency is required to obtain the highest possible power density. trenchant vvalve open area, which depends on valve diameter and lift, directly affects volumetic efficiency. Swirl speeds up process and achieves greater combustion stability.Heat transfer to chamber walls has a major impact on efficiency.Blowdown amount of time/distance/degrees between exhaust port opening and the transfer port opening Muller. P, 2009, Muller Machine, http//www.muller.net/mullermachine/index.htmlThe blowdown process is s imilar to that of the RAM effect.It is necessary to open the exhaust valve before the piston reaches the bottom of the stroke, as this allows any excess pressure, pressure left over from the last cycle, to be released from cylinder. This ensures there will be no pressure acting against the piston on the compression stroke. Accurate exhaust valve timing is essential. At higher speeds, the valve will have to be opened sooner, whereas for lower speeds if the valve is opened to soon means pressure is lowered and losses are incurred.AutoWare, 1998, Valve Timing Performance, http//www.auto-ware.com/combust_bytes/valvetiming.htmlThe exhaust manifold operates at pressures significantly higher up atmospheric.Pollutants (pg.626, 570, CO-Pg. 593, summary Pg.618,)Theoretically, the combustion process of hydrocarbon fuels, such as petrol, completely oxidizes the fuel and the only by-products are carbon dioxide and water. However, under actual conditions this is rarely, if ever the case. The pr oducts of combustion from an internal combustion engine produce pollutants. This is due to the varied composition of the fuel for each cycle. Impurities in the fuel itself mean complete combustion is not possible. Poor control of the air-fuel ratio and variations in the combustions temperature also leave to the formation of pollutants. The main pollutants formed are sulfur oxides (SOx), nitride oxides (NOx), carbon monoxide (CO) and particulate matter (PM). These pollutants have detrimental health effects. The presence of a catalytic convertor reduces the amount of harmful emissions entering the atmosphere by changing the composition of the pollutants.One of the most important variables in determining spark-ignition engine emissions is the fuel/air equivalence ration. GRAPH OF EMISSIONSTo ensure smooth and dependable operation, SI engines are typically run close to stoichiometric, or slightly fuel-rich. From graph (ABOVE), lean mixtures give lower emissions until the quality beco mes poor and back-fire occurs.In a cold engine, fuel vaporization is slow, the fuel flow is increased to provide an easily combustible fuel-rich mixture in the cylinder. Until the engine warms up and the enrichment is removed, the CO and HC emissions are highOpenWAM Simulation SoftwareOpenWAM is a 1-dimensional gas-dynamics engine thermodynamic cycle simulation code. It was developed by the CMT- Motores Trmicos of the Universidad Politcnica de Valencia, Spain.openWAM clay sculpture is an important technique for the optimization of internal combustion engines (ICE). The use of tally models together with experimental tests is producing unquestionable successes due to the fact that both techniques co-occurrence each other.1D wave action models simplify the engine by means of ducts, where only one dimension is considered, and volumes where mass accumulation is considered and the gas properties are uniform in the entire element. Finally, non dimensional models are used to solve connect ions between 1D and 0D elements.Thanks to more than 20 years, more than 10 PhD dissertation and many research projects and publications, CMT-Motores Trmicos has developed an own 1D gas dynamic tool called WAM which gathers an important know-how on air management, compressible flow, turbocharging, chemical species tracking, numeral analysis and many other aspects of engine modelinghttp//www.cmt.upv.es/WAM_02_02.aspx1 dimensional modeling can reproduce the behavior of the engine under transient conditions when the injected fuel and the engine speed change during the simulation. For these applications, a heat transfer model is very important to take into account the heating process that the different parts of the engine undergoes during the transient.http//www.cmt.upv.es/img/WWam04.pnghttp//giantmaw.com/Photo%20Album/Image%20Library/Cars/BMW/MWerks%20Forums%20the%20BMW%20Engine%20FAQ_files/4981_832.jpg