Is a highly efficient Carnot engine suitable for use as a refrigerator and why?

In summary, a Carnot engine is more efficient than a refrigerator when the two temperatures are between them.
  • #1
Nusc
760
2
Show that the relationship betwee efficiency (n) of a Carnot engine and the coefficient of performance (w) of the same engine when operated as a refrigerator is given by nw= Tc/Th

Is a Carnot engine whose efficiency is very high particularly suited as a refrigerator? Why?

Well we know that for Carnot engines the efficiency is n = [Th-Tc]/Th
and that the coefficieny of performance for a refrigerator is Qh/w = Qh/(Qh-Qc)

nw = (1 - Tc/Th)(Qh-Qc)
= Qh - TcQh/Th - Qc +TcQc/Th
=/= Tc/Th

What is wrong?
 
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  • #2
Nusc said:
Show that the relationship betwee efficiency (n) of a Carnot engine and the coefficient of performance (w) of the same engine when operated as a refrigerator is given by nw= Tc/Th

Is a Carnot engine whose efficiency is very high particularly suited as a refrigerator? Why?

Well we know that for Carnot engines the efficiency is n = [Th-Tc]/Th
and that the coefficieny of performance for a refrigerator is Qh/w = Qh/(Qh-Qc)

nw = (1 - Tc/Th)(Qh-Qc)
= Qh - TcQh/Th - Qc +TcQc/Th
=/= Tc/Th

What is wrong?
The coefficient of performance of a refrigerator is given by [itex]\omega = Q_C/W[/itex] and the efficiency of a heat engine is: [itex]\eta = W/Q_H[/itex]

So [tex]\eta\omega = \frac{Q_C}{Q_H}[/tex]

In a Carnot cycle, [itex]\Delta S = 0[/itex] so:
[tex]\frac{Q_H}{T_H} - \frac{Q_C}{T_C} = 0[/tex]
and:
[tex]\frac{T_C}{T_H} = \frac{Q_C}{Q_H}[/tex]

AM
 
  • #3
Is a Carnot engine whose efficiency is very high particularly suited as a refrigerator? Why?

A high efficiency would imply that Qc >> Qh based on the result Tc/Th for part a).

But what specific justification is necessary to explain that for Carnot engines?
 
  • #4
Nusc said:
Is a Carnot engine whose efficiency is very high particularly suited as a refrigerator? Why?

A high efficiency would imply that Qc >> Qh based on the result Tc/Th for part a).

But what specific justification is necessary to explain that for Carnot engines?
A Carnot engine and a Carnot refrigerator both employ the reversible (Carnot) cycle. The refrigerator just reverses the direction of the heat flow by making an infinitessimal change in the starting conditions.

In the question, the temperatures are fixed. High efficiency does not mean that Qc >> Qh. This can never be the case. Whatever heat is removed from the cold reservoir is transferred to the hot reservoir (along with the added work which is converted to heat as well).

The reversible cycle represents the limit of the efficiency of the ratio of work to heat transfer between two temperatures. In the case of heat moving from hot to cold, the Carnot cycle provides the maximum amount of useable work that can be extracted. In moving heat from cold to hot, the Carnot cycle provides the minimum amount of work that must be added.

Theoretically, you can make a Carnot engine into a Carnot refrigerator by storing all the work output of the engine cycle (say by lifting a weight) and then using that work to reverse the cycle and move the heat from the cold reservoir back to the hot reservoir.

AM
 
  • #5
Is a Carnot engine whose efficiency is very high particularly suited as a refrigerator? Why?

So how's this, if a Carno engine has a lot of efficiency then we can see from n = 1 - T2/T1 that T2<<T1 so it makes a good refrigerator.
 
  • #6
Nusc said:
Is a Carnot engine whose efficiency is very high particularly suited as a refrigerator? Why?

So how's this, if a Carno engine has a lot of efficiency then we can see from n = 1 - T2/T1 that T2<<T1 so it makes a good refrigerator.
A Carnot refrigerator is not very efficient if T2<<T1. But it is more effiient than any other refrigerator between those two temperatures.

Between two given temperatures, the Carnot engine is more efficient than any other and the Carnot refrigerator is more efficient than any other refrigerator.

AM
 
  • #7
Was what I wrote sufficient in answering the question, that's all I ask for. Because you just confused me.
 
Last edited:
  • #8
Nusc said:
Was what I wrote sufficient in answering the question, that's all I ask for. Because you just confused me.
A Carnot engine is highly efficient only if Th>>Tc. With this temperature difference, a refrigerator (Carnot or otherwise) is not going to be very efficient (ie. in the reverse cycle). I think that is the answer they are looking for. But you can add that the Carnot will be more efficient than any other.

AM
 

1. What is the difference between a refrigerator and a heat pump?

A refrigerator and a heat pump both use the same basic principles of thermodynamics to transfer heat from one location to another. However, a refrigerator is designed to remove heat from an enclosed space (such as the inside of the fridge) and transfer it to the outside, while a heat pump is designed to transfer heat from the outside to the inside of a building or other enclosed space.

2. How does a refrigerator keep food cold?

A refrigerator uses a closed system of refrigerant (usually a gas or liquid) that is compressed, causing it to become hot. This hot refrigerant then passes through a series of coils on the outside of the fridge, dissipating the heat into the surrounding air. As the refrigerant cools down, it becomes a liquid and is sent through an expansion valve, causing it to rapidly expand and become cold. This cold refrigerant then passes through a series of coils on the inside of the fridge, absorbing heat from the food and drinks inside and keeping them cool.

3. What is the role of the compressor in a refrigerator or heat pump?

The compressor is a key component of both refrigerators and heat pumps. Its job is to compress the refrigerant, which raises its temperature and pressure, causing it to move through the system and transfer heat. Without the compressor, the refrigerant would not be able to cycle through the system and the device would not be able to function.

4. Can a refrigerator or heat pump work in reverse?

Yes, both refrigerators and heat pumps can work in reverse. By changing the direction of the refrigerant flow, a refrigerator can be turned into a heat pump and vice versa. In other words, a refrigerator can be used to heat a space (by transferring heat from the outside to the inside) and a heat pump can be used to cool a space (by transferring heat from the inside to the outside).

5. How energy efficient are refrigerators and heat pumps?

Modern refrigerators and heat pumps are designed to be highly energy efficient. This is achieved through the use of advanced technologies such as variable speed compressors, improved insulation, and electronic controls. The exact energy efficiency will vary depending on the specific model and usage, but both refrigerators and heat pumps are significantly more efficient than older models.

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