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Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion (~constant volume) occurs and product gases expand doing work Stroke 4: Product gases pushed out of the cylinder through the exhaust valve Compressio n Stroke Power Stroke Exhaus t Stroke A I R Combustio n Products Ignition Intake Stroke FUEL Fuel/ Air Mixtur e

Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

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Page 1: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Four Stroke SI Engine

Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressedStroke 3: Combustion (~constant volume) occurs and product gases expand doing workStroke 4: Product gases pushed out of the cylinder through the exhaust valve

CompressionStroke

PowerStroke

ExhaustStroke

A I R

CombustionProducts

Ignition

IntakeStroke

FUEL

Fuel/AirMixture

Page 2: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Crank shaft

90o

180o

BC

TC0o

270o

Spark plug for SI engineFuel injector for CI engine

Top Center(TC)

BottomCenter(BC)

Valves

Clearancevolume

Cylinder wall

Piston

Stroke

CylinderComponents

Page 3: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

IVO - intake valve opens, IVC – intake valve closesEVO – exhaust valve opens, EVC – exhaust valve opensXb – burned gas mole fraction

Four-Stroke SI Engine

Exhaust gas residual

Page 4: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Two Stroke SI Engine

Intake (“Scavenging”)

Compression Ignition

ExhaustExpansion

Fuel-air-oilmixture

Fuel-air-oilmixture compressed

Crankshaft

Checkvalve

Exhaustport

Page 5: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Cross Loop Uniflow

Two-Stroke Scavenging

Page 6: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

EPO – exhaust port open EPC – exhaust port closedIPO – intake port openIPC – intake port closed

Exhaust area

Intake area

Two-Stroke SI Engine

scavenging

Page 7: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Cylinder Arrangement

Single-cylinder engine gives one power stroke per crank revolution (2 stroke) or two revolutions (4 stroke). The torque pulses are widely spaced, and engine vibration and smoothness are significant problems.Used in small engine applications where engine size is more important Multi-cylinder engines spread out the displacement volume amongst multiple smaller cylinders. Increased frequency of power strokes produces smoother torque characteristics. Engine balance (inertia forcesassociated with accelerating and decelerating piston) better than singlecylinder.

Most common cylinder arrangements:- In-line 4-cylinder- In-line 6-cylinder- V-6 and V-8

Page 8: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Power Regulation (Throttling)

An IC engine is basically an air engine, the more air you get into thecylinder, the more fuel you can burn, the more power you get out.The initial pressure in the cylinder is roughly equal to the pressurein the intake manifold.

Pressure in the intake manifold is varied by opening and closing thethrottle plate to change the pressure drop. Maximum air flow (andpower) achieved at wide-open-throttle (WOT). Minimum air flow at idle

PatmPint < Patm

Intake manifold

Fuel

WOT

Idle

Page 9: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Basic Carburetor Design

Venturi

Throttle

Air Flow

Mixture to manifold

Fuel

Page 10: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Fuel Injection System

Throttle

Fuel tank

Air intakemanifold

During start-up the components are cold so fuel evaporation is very slow, as a resultadditional fuel is added through a second injecting valve

Page 11: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Superchargers are compressors that are mechanically driven by theengine crankshaft and thus represent a parasitic load.

Compressor

Patm

Pint > Patm

Page 12: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

Turbochargers couple a compressor with a turbine driven by the exhaust gas. The compressor pressure is proportional to the engine speed

Page 13: Four Stroke SI Engine Stroke 1: Fuel-air mixture introduced into cylinder through intake valve Stroke 2: Fuel-air mixture compressed Stroke 3: Combustion

The peak pressure in the exhaust system is only slightly greater than atmospheric – small P across turbine.

In order to produce enough power to run compressor the turbine speed must be very fast (100k-200k rev/min). It takes time for the turbine toget up to speed so when the throttle is opened suddenly there is a delayin achieving peak power - Turbo lag.

Waste gate valve controls the exhaust gas flow rate to the turbine.It is controlled by the intake manifold pressure

INTAKEAIR

EXHAUSTFLOW