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Published byCalvin Rose Modified over 9 years ago
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Warm up! What is the difference between Isothermal and Adiabatic? Describe the difference using the relationship between Internal energy( U), heat(Q), work (W), temperature ( T) U = Q - W
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Isothermal T 1 = T 2 P1V1 = P2V2 Δ T = 0 Δ U = 3/2 nR Δ T Δ U = 0 Q - W = 0 Q = W Heat input = work output ADABIATIC (isentropic) No heat exchange with the environment Q =0 Δ T ≠ 0 P1V1/T1 = P2V2/T2 Δ U = – W 3/2 nRT = - W - 3/2 nr Δ T = W Work output depends on negative change of internal energy
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WHEN IS YOUR TEST? The Test is Next Thursday !!!
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In a cyclical process ΔU=0 Since ΔU=0 0 = Q – W W = Q But not all Q is converted to Work, thus W = Q h – Q c (cyclical process) W net work done by system REVIEW
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Review Engine Heat flows from a HOT reservoir ( or HEAT source) to a COLD reservoir ( or Heat Sink) Q H = remove from, absorbs = hot Q C = exhausts to, expels = cold
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Second Law of Thermodynamics The bottom line: 1)Heat always flows from a hot body to a cold body 2)Nothing is 100% efficient Review Engines
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A 4 stroke gas Engine
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The Diesel Engine "compression ignition" rather than "spark ignition” Air is compressed adiabatically compression raises the temperature of the fuel mixture
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The Diesel Engine a –b ( adiabatic compression) b –c (Isobaric combustion process) c –d (adiabatic expansion a power stoke) d –a ( isochoric, isovolumetric exhaust)
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Diesel cycle W in – done by the piston compression Q in –done by combustion of fuel W out –done by working fluid expanding and pushing the piston ( usable work) Q out –done by venting air W net = Q in – Q out W = Q h – Q c
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Fire syringe, Fire piston, Slam rod fire starter ancient origin
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Heat Pump, Air-conditioner, Refrigerator
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Refrigeration cycle, 1- Compressor constrict the refrigerant vapor, increasing pressure, pushes into coils 2-Hot gas meets cool air in the kitchen, liquefy 3-Liquid at high pressure, refrigerant cools down in. 4- The refrigerant absorbs heat inside fridge, cooling down the air 5 – refrigerant cools down to gas, goes back to the compressor. Cycle repeats.
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Fridge Vapor Compression Cycle – A: hot compartment (kitchen), B: cold compartment (refrigerator box), I: Insulated 1: Condenser, 2: Expansion valve, 3: Evaporator unit, 4: Compressor
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Calculate the total work done in the cyclical process
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The work along path AB W AB = P AB ΔV AB (1.50 x 10 6 N/m 2 ) (5.00x10 - 4 m 3 ) = 750 J
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