Monday, 1 August 2016

INTRODUCTION AND CLASSIFICATION OF INTERNAL COMBUSTION ENGINE

The internal combustion engines are the engines in which the combustion of a fuel occurs with an oxidizer (usually air) in a combustion chamber
that is an integral part of the working fluid flow circuit. In an internal combustion engine the expansion of the high temperature and high pressure gases produced by combustion apply direct force to some component of the engine. The force is applied typically to pistons, turbine blades or a nozzle.



Principle of operation:

Air-fuel mixture in the combustion chamber is ignited, either by a spark plug (in case of SI Engines) or by compression (in case of CI engines). This ignition produces tremendous amount of heat energy and pressure inside the cylinder. This induces reciprocating motion in the piston.
Power of the piston is transmitted to a crankshaft which undergoes rotary motion. The rotary motion is ultimately transmitted to the wheels of the vehicle, via a transmission system, to produce propulsion in the vehicle.
As the combustion takes place internally inside the cylinder (a part of working fluid circuit) the engine is called internal combustion engine.

Classification of Internal Combustion Engines:

Today’s IC engines can be classified in several ways. Some of the ways of classification of Internal Combustion (IC) engines is listed below:
1. Based on application
  • Automobile Engine
  • Aircraft Engine
  • Locomotive Engine
  • Marine Engine
  • Stationary Engine
2. Based on basic engine design
  • Reciprocating: Single cylinder, Multi-cylinder In-line, V, radial, opposed cylinder, Opposed Piston.
  • Rotatory: Single motor, Multi motor
3. Based on operating cycle
  • Atkinson (For complete expansion SI Engine)
  • Diesel (For the Ideal Diesel Engine)
  • Dual (For the Actual Diesel Engine)
  • Miller (For Early/Late Inlet valve closing type SI Engine)
  • Otto (For the Convectional SI Engine)
4. Based on working cycle
  • Four stroke cycle
  • Two stroke cycle
    • Scavenging ; direct/crankcase/cross flow; back flow/loop; Uni flow
    • Naturally aspirated or turbocharged
5. Based on Valve/port design and location
  • Design of valve/port
    • Poppet valve
    • Rotatory valve
  • Location of valve/port
    • T-head
    • L-head
    • F-head
    • L-head
6.Based on Fuel
  • Convectional
    • Crude oil derivatives; Petrol, diesel
    • Other sources; coal, bio-mass, tar stands, shale
  • Alternative
    • Petroleum derived: CNG, LPG
    • Bio-mass derived: alcohols, vegetable oils, producer gas, biogas and hydrogen
  • Blending
  • Bi-fuel and dual fuel
7. Based on mixture preparation
  • Carburetion
  • Fuel injection
8. Based on ignition
  • Spark ignition
  • Compression Ignition
9. Based on stratification of charge
  • Homogeneous Charge
  • Stratified charge
    • With carburetion
    • With fuel injection
10. Based on combustion chamber design
  • Open chamber: Disc, wedge, hemispherical, bowl-in-piston, bath tub.
  • Divided chamber:
    • (For CI) 1. Swirl chamber, 2. Pre-chamber
    • (for SI) 1. CVCC, 2. Other designs
11. Based on cooling system

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