Aims and Objectives Aim To be able to recognize the main components within a basic engine fueling system and its function within an internal combustion.

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Presentation transcript:

Aims and Objectives Aim To be able to recognize the main components within a basic engine fueling system and its function within an internal combustion engine Objectives Recognize the main components within an engine’s fueling system Be able to identify the correct air and fuel ratio for an internal combustion engine Be able to list the main components within an engine’s fueling system To list the main differences between diesel and petrol fueling systems Introduction to Fuel Systems

Introduction to fuels Petrol and Diesel are fuels that are particularly suitable for use in internal combustion engines Fuel is mixed with air and introduced into the engines cylinder in order to be burnt within the engines Otto cycle Introduction to Fuel Systems

Mixture strength “The mixture strength is the proportion of air that is mixed with the fuel required to produced the engine’s power” Hiller’s Fundamentals of Motor Vehicle Technology 5 th ed. V.A.W Hiller and Peter Coombes The ideal mixture for a petrol internal combustion engine is 14.7:1 (14.7 air to 1g fuel) Introduction to Fuel Systems

Ideal, rich and lean 14.7:1 (14.7 air to 1g fuel) =ideal (stoichmetric ratio) 10:1 = rich mixture (more fuel than air) 20:1 = lean mixture (more air than fuel) Introduction to Fuel Systems

Question What is stoichmetric ratio ? And what is the ideal fuel to air mixture for a petrol engine ? Introduction to Fuel Systems

Exhaust gas emissions If the engine burns the chemical correct mixture the following gases are produced:- CO2 H2O N2 As an engine will never be 100% efficient harmful gases are produced CO, HC. O2 and NOx A richer mixture produces more CO which is harmful for the environment ( produces a sooty black exhaust gas ) A technician can analyse the vehicles exhaust gases using an exhaust gas analyser Introduction to Fuel Systems

Vaporization and Atomization Vaporization It is important to remember that petrol burns in vapour form so it must be like this before it enters the cylinder Diesel, however must be subjected to heat and compression for it to burn Atomization Helps brake the fuel into vapour form before it goes into the cylinder This is achieved by either subjecting it to turbulent airflow or by pumping the fuel through holes in an injector before it goes into the main air stream of the cylinder Introduction to Fuel Systems

The main fuelling components Fuel tank Introduction to Fuel Systems Fuel lines Fuel filter Carburettor or injectors Fuel gauge

The difference between Petrol and Diesel Introduction to Fuel Systems Petrol Petrol is lighter More volatile Contains hydrocarbons with around 8 carbon atoms per molecule A petrol engine is a spark-ignition engine Utilises a spark to ignite the volatile petrol/air mixture Diesel Diesel oil is heavier Less volatile Greater lubrication qualities, contains hydrocarbons with around 10 carbon atoms per molecule A diesel engine is a compression-ignition engine Utilises high compression to create the high temperatures in which diesel oil will burn

Question Can you list the main differences between diesel and petrol ? Introduction to Fuel Systems

Summary – Have we ? Recognized the main components within an engine’s fueling system ? Been able to identify the correct air and fuel ratio for an internal combustion engine ? Been able to list the main components within an engine’s fueling system ? Listed the main differences between diesel and petrol fueling systems ? Introduction to Fuel Systems

Any questions ? Introduction to Fuel Systems