Calculating Work and Thermal Efficiency of a Heat Engine

In summary, a heat engine using 5.00 g of helium gas initially at STP goes through a closed cycle involving isothermal compression, isobaric expansion, and isochoric cooling. The total work done per cycle is 869 J and the thermal efficiency is 12.2%.
  • #1
j88k
27
0

Homework Statement



A heat engine using 5.00 g of helium gas is initially at STP. The gas goes through the following closed cycle:
- Isothermal compression until the volume is halved.
- Isobaric expansion until the volume is restored to its initial value.
- Isochoric cooling until the pressure is restored to its initial value.

a)How much work does this engine do per cycle?
b)What is its thermal efficiency?

Homework Equations



thermal efficiency = Wout/QH

(thermal efficiency)Carnot = 1 - TC/TH

The Attempt at a Solution



for part a) I got:

isothermal work = nRTln(V at 2/V at 1) = -1967 J
isobaric work = p(V at 3 - V at 2) = 2836 J
isochoric work = 0

total work done in one cycle = -1967 + 2836 = 869 J

for pat b) i got:

from 1 to 2:
Q = -W = 1967 J

from 2 to 3:
Q = nC_p(deltaT), C_p for a monatomic gas is (5/2)R, this comes from the equipartition theorem
Q = (1.25)(5R/2)(273K) = 7094 J

from 3 to 1:
Q must be negative since there is a work output so therefore Q in this process is irrelevant since we only need the Q that is added to the system

efficiency = (total work done in one cycle)/(heat added in one cycle)
efficiency = (869 J)/(7094 J + 1967 J) = 0.096=9.6% But apparently that's the wrong answer!

I don't know what's wrong. Help!
 
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  • #2
Hi j88k,

j88k said:

Homework Statement



A heat engine using 5.00 g of helium gas is initially at STP. The gas goes through the following closed cycle:
- Isothermal compression until the volume is halved.
- Isobaric expansion until the volume is restored to its initial value.
- Isochoric cooling until the pressure is restored to its initial value.

a)How much work does this engine do per cycle?
b)What is its thermal efficiency?


Homework Equations



thermal efficiency = Wout/QH

(thermal efficiency)Carnot = 1 - TC/TH

The Attempt at a Solution



for part a) I got:

isothermal work = nRTln(V at 2/V at 1) = -1967 J
isobaric work = p(V at 3 - V at 2) = 2836 J
isochoric work = 0

total work done in one cycle = -1967 + 2836 = 869 J

for pat b) i got:

from 1 to 2:
Q = -W = 1967 J

Looking at this part: If the gas is being compressed and the temperature is not changing, is heat entering or leaving the system? (In the efficiency formula you only count heat going into the system.) Does this help?
 
  • #3
so the answer would be (869)/(7094)=0.122=12.2% ?
 
  • #4
Looks good! :smile:
 

1. What is the formula for calculating work in a heat engine?

The formula for calculating work in a heat engine is W = Qh - Qc, where W is the work done, Qh is the heat added to the engine, and Qc is the heat rejected by the engine.

2. How is thermal efficiency defined for a heat engine?

Thermal efficiency is defined as the ratio of the work output to the heat input in a heat engine. It can be calculated using the formula η = W / Qh, where η is the thermal efficiency, W is the work done, and Qh is the heat added to the engine.

3. Can the thermal efficiency of a heat engine be greater than 100%?

No, the thermal efficiency of a heat engine cannot be greater than 100%. This would violate the laws of thermodynamics, which state that energy cannot be created or destroyed, only transformed. Therefore, the work output of a heat engine cannot exceed the heat input.

4. How does the temperature difference between the hot and cold reservoirs affect the thermal efficiency of a heat engine?

The temperature difference between the hot and cold reservoirs is a critical factor in determining the thermal efficiency of a heat engine. The larger the temperature difference, the higher the efficiency. This is because a larger temperature difference allows for more heat to be converted into work.

5. What are some factors that can affect the work and thermal efficiency of a heat engine?

Some factors that can affect the work and thermal efficiency of a heat engine include the type of fuel used, the design and construction of the engine, the temperature difference between the hot and cold reservoirs, and the speed and efficiency of the heat transfer process within the engine.

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