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EXHAUST GAS RECIRCULATION IN FOUR STROKE ENGINE

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Title: EXHAUST GAS RECIRCULATION IN FOUR STROKE ENGINE


1
EXHAUST GAS RECIRCULATION IN FOUR STROKE ENGINE
2
INTRODUCTION
  • Major problem faced by todays world is
    environmental pollution.
  • Of these vehicular traffic is a major contributor
    .
  • Exhaust gases from vehicles includes
    CO,CO2,HC,NOx ..
  • Of these NOx is particularly very harmful.
  • These are one of the chief constituents of smog,
    which have an adverse effect on ecological
    systems.
  • They also contribute to the formation of acid
    rain.
  • NOx also cause breathing illness in human beings.

3
FORMATION OF NOx.
  • The factors that cause diesel engines to run more
    efficiently than gasoline engines also cause them
    to run at a higher temperature.
  • This leads to the creation of nitrogen oxides
    (NOx).
  • Fuel in any engine is burned with extra air and
    some of the oxygen is used to burn the fuel.
  • When the peak temperatures are high enough for
    long periods of time, the nitrogen and oxygen in
    the air combines to form Nitrogen oxides.
  • These are normally collectively referred to as
    NOx.

4
HOW CAN NOx BE REDUCED?
  • In order to reduce NOx a engine should run at a
    lower temperature than the normal temperature.
  • Reduced cylinder temperatures can be achieved in
    three ways.
  • Enriching the air fuel mixture
  • 2. Lowering the compression ratio and retarding
    ignition timings
  • 3. Reducing the amount of Oxygen in the cylinder

5
EXHAUST GAS RECIRCULATION
  • Exhaust Gas Recirculation is an efficient method
    to reduce NOx emissions from the engine.
  • It works by recirculating a quantity of exhaust
    gas back to the engine cylinders.
  • Intermixing the recirculated gas with incoming
    air reduces the amount of available O2 to the
    combustion And lowers the peak temperature of
    combustion.
  • Recirculation is usually achieved by piping a
    route from the exhaust manifold to the intake
    manifold.
  • A control valve within the circuit regulates and
    times the gas flow.

6
  • Schematic Diagram of An EGR

7
BASIC PARTS OF EGR
  • There are 3 basic parts of EGR
  • EGR Valve
  • EGR Cooler
  • EGR Transfer Pipe

8
TYPICAL FOUR STROKE DIESEL ENGINE WITH BASIC
PARTS OF EGR
9
(No Transcript)
10
EGR OPERATING CONDITIONS
  • There are three operating conditions for EGR
    flow.
  • High EGR flow
  • Low EGR flow
  • No EGR flow

11
EGR THEORY OF OPERATION
  • The purpose of the EGR system is to precisely
    regulate the flow under different operating
    conditions.
  • By integrating the fuel and spark control with
    the EGR metering system, engine performance and
    the fuel economy can be enhanced
  • For this an ECM (Electronic Control Machine) is
    used to regulate the EGR flow. When EGR is
    required ECM opens the EGR valve.

12
  • The ECM is capable of neutralizing the negative
    aspects of EGR by programming additional spark
    advance and decreased fuel injection duration
    during periods EGR flow

13
EXPERIMENT RESULTS
  • Relationship between EGR rate and NOX

14
  • Relationship between O2 concentration
  • And NOx reduction

15
  • HC and NOx concentration as a function of
  • EGR Level

16
  • Relation of PM accumulation rate
  • And NOx emission with EGR

17
TECHNICAL ISSUES
  • Combustion Contamination
  • Exhaust gas from any combustion process may have
    certain contaminants
  • May lead to serious combustion degradation and
    instability, and shorter component life.
  • Control System Stability
  • Control systems for modern engines have been
    developed over two decades to maintain emissions
    control at varying loads, speeds, and fuel
    conditions.
  • Adding EGR into the combustion process introduces
    further complexity that must be carefully
    integrated into the entire engine control system
    approach for successful operation over a wide
    range of conditions.

18
  • Materials and Durability
  • EGR systems may decrease long-term life of the
    components affected, including the EGR coolers
    and control valves, the pistons and cylinder
    heads, exhaust manifolds and sensors
  • Continuous duty applications may cause materials
    breakdown, shorter component life, and even
    unexpected, catastrophic engine failures.

19
FUTURE OF EGR
  • Current Proposal
  • Require a functional check of the EGR system
    detect a malfunction when the system has reached
    its control limits such that it cannot achieve
    the target EGR flow
  • Require a functional check of the EGR cooling
    system for proper cooling

20
CONCLUSION
  • Using Exhaust Gas Recirculation Technique in
    engines, the emissions are vary much controlled
    due to lesser amounts of NOx entering the
    atmosphere.
  • Exhaust Gas Recirculation is a very simple
    method. It has proven to be very useful and it is
    being modified further to attain better
    standards.
  • This method is very reliable in terms of fuel
    consumption
  • EGR is the most effective method for reducing the
    nitrous oxide emissions from the engine exhaust.

21
  • THANK YOU
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