Solving Refrigerator Problem: Calculating COP and Work

  • Thread starter Thread starter sportsrules
  • Start date Start date
  • Tags Tags
    Refrigerator
AI Thread Summary
The discussion focuses on calculating the coefficient of performance (COP) for a Carnot refrigerator operating between 25°C and 40°C, resulting in a COP of 19.9. The user seeks clarification on the work done by the refrigerator engine, questioning if the heat transfer (Qc) is 1 joule and whether the work is negative. It is clarified that the COP for a heat pump is defined differently than for a refrigerator, with the relevant formula being W = Qh/COP. Additional considerations for selecting an appropriate heat pump for a building do not include size but rather the heat requirements and efficiency metrics. Understanding these distinctions is crucial for effective heat pump application.
sportsrules
Messages
9
Reaction score
0
The question reads...
A heat pump is a refrigerator that uses the inside of a building as a hot-temp reservoir in the winter and the outside of the building as a hot-temp reservoir in the summer. So...
For a carnot refrigerator engine operating between 25C and 40C in the summer, what is the coefficient of performance?And, for each joule of heat trasnfer from the cooler reservoir per cycle, how many joules of work are done by the refrigerator engine? Is this work positive or negative...and, what additional information is needed to determine an appropriate heat pump for a building?

Ok, so I figured out the COP...

COP=1/ [(Th/Tc)-1]

COP=1/ [(313k/298K)-1]

COP=19.9

But thenn I get confused on the second part
I know that

COP=Qc/W
W=Qc/COP
so is the value for Qc just 1 J? THat is the part i am having trouble with, and the work is negative correct? because it is work done by the system?

And, any thouhts on the last part?
 
Physics news on Phys.org
yes it was...but how about the last part...what else would I need to know? Just the size of the building?
 
sportsrules said:
yes it was...but how about the last part...what else would I need to know? Just the size of the building?
First of all, the co-efficient of performance for a heat pump is defined a little differently from the co-efficient of performance for a refrigerator. For a refrigerator:

cop = \frac{Q_c}{W}

For a heat pump,

cop = \frac{Q_h}{W}

So for a heat pump:

W = \frac{Q_h}{cop}

That is all you need to determine how much work you consume in delivering 1 joule of heat. It has nothing to do with building size.

AM
 

Thread 'Errors and significant figures'

I multiplied the values first without the error limit. Got 19.38. rounded it off to 2 significant figures since the given data has 2 significant figures. So = 19. For error I used the above formula. It comes out about 1.48. Now my question is. Should I write the answer as 19±1.5 (rounding 1.48 to 2 significant figures) OR should I write it as 19±1. So in short, should the error have same number of significant figures as the mean value or should it have the same number of decimal places as...
View full post »
Thread 'Calculation of Tensile Forces in Piston-Type Water-Lifting Devices at Elevated Locations'

Thread 'Calculation of Tensile Forces in Piston-Type Water-Lifting Devices at Elevated Locations'

Figure 1 Overall Structure Diagram Figure 2: Top view of the piston when it is cylindrical A circular opening is created at a height of 5 meters above the water surface. Inside this opening is a sleeve-type piston with a cross-sectional area of 1 square meter. The piston is pulled to the right at a constant speed. The pulling force is(Figure 2): F = ρshg = 1000 × 1 × 5 × 10 = 50,000 N. Figure 3: Modifying the structure to incorporate a fixed internal piston When I modify the piston...
View full post »
Thread 'A cylinder connected to a hanging mass'

Thread 'A cylinder connected to a hanging mass'

Let's declare that for the cylinder, mass = M = 10 kg Radius = R = 4 m For the wall and the floor, Friction coeff = ##\mu## = 0.5 For the hanging mass, mass = m = 11 kg First, we divide the force according to their respective plane (x and y thing, correct me if I'm wrong) and according to which, cylinder or the hanging mass, they're working on. Force on the hanging mass $$mg - T = ma$$ Force(Cylinder) on y $$N_f + f_w - Mg = 0$$ Force(Cylinder) on x $$T + f_f - N_w = Ma$$ There's also...
View full post »

Similar threads

Simple reversed heat engine problem
Replies
2
Views
1K
B Thermal physics, COP upper bound for heat driven heat pumps
Replies
1
Views
3K
Compute work in Carnot Refrigerator
Replies
3
Views
3K
Solving Heat Engine & Refrigerator Problems
Replies
2
Views
2K
Energy consumption of Fridge with faulty light
Replies
9
Views
2K
Carnot refrigerator cost problem
Replies
1
Views
6K
Calculate minimum work input of refrigeration cycle
Replies
6
Views
6K
B HFC-134a Refrigerant & 2nd Law of Thermodynamics
Replies
20
Views
2K
Refrigerator power rating and heat absorption
Replies
4
Views
7K
Chemistry Work done by heat engine that uses exhaust from heat pump
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top