GEOS 24705 / ENST 24705 Preparation for engine lab Copyright E. Moyer 2011.

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Presentation transcript:

GEOS / ENST Preparation for engine lab Copyright E. Moyer 2011

Four-stroke engine driver of most transportation One preparation cycle and one power cycle 1.Intake 2.Compression 3.Combustion 4.Expansion Note need for spark plug to set off combustion Note means of converting linear motion to rotational – looks similar to “sun and planet” gearing from Watt’s steam engine

Four-stroke engine driver of most transportation Advantages: Produces heated, compressed, very dense fuel/air mixture Disadvantages: “off” half the time – half the power-to-mass ratio that it might have Must have at least two cylinders, since when one is “off” the other must be providing the push to keep rotating the shaft

Four-stroke engines: generally have pairs of cylinders In practice, gasoline engines typically have from 4-8 cylinders Out-of-phase cylinders must provide required force to drive pistons through compression phase and yield balanced power Note central crankshaft allowing pistons to turn linear motion into rotational motion and to put work into the same shaft

Some high-power automobile engines have 8 cylinders, hence “V8” BMW M3 V8 Engine: 4.0-litres Four-stroke engines: generally have pairs of cylinders

Two-stroke engine Simpler, cheaper Advantages: Higher power-to-mass since is never “off” – each stroke is power stroke. Smoother power in one- cylinder engine Therefore: engine of choice for cheap or hand-carried applications Disadvantages: Some unburned fuel escapes – very polluting Since fuel fills crankcase, lubricating oil must be mixed into fuel mixture – even more polluting

Two-stroke and four-stroke engine comparison Two Stroke Engine Animation Four Stroke Engine Animation See:

Fast combustion + valve opening -> 2 constant- volume legs. (Sparkplug must ignite quickly and completely). Contrast with isobars of Brayton cycle. Thermodynamic cycles: Otto cycle Efficiency = 1 – 1/r k  -1 where = r k = compression ratio V 1 /V 2

Thermodynamic cycles: Otto cycle Efficiency = 1 – 1/r k  -1 where = r k = compression ratio V 1 /V 2 Since efficiency is a function of compression ratio, engineer for high ratios, typ. ~ 10:1 in cars Figure: web.mit.edu Fast combustion + valve opening -> 2 constant- volume legs. (Sparkplug must ignite quickly and completely). Contrast with isobars of Brayton cycle.