earning Goal: To understand that a heat engine run backward is a heat pump that can be used as a refrigerator....
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earning Goal: To understand that a heat engine run backward is a heat pump that can be used as a refrigerator. By now you should be familiar with heat engines--devices, theoretical or actual, designed to convert heat into work. You should understand the following: Heat engines must be cyclical; that is, they must return to their original state some time after having absorbed some heat and done some work). Heat engines cannot convert heat into work without generating some waste heat in the process. The second characteristic is a rigorous result even for a perfect engine and follows from thermodynamics. A perfect heat engine is reversible, another result of the laws of thermodynamics. If a heat engine is run backward (i.e., with every input and output reversed), it becomes a heat pump (as pictured schematically (Figure 1) ). Work Win must be put into a heat pump, and it then pumps heat from a colder temperature Tc to a hotter temperature Th, that is, against the usual direction of heat flow (which explains why it is called a "heat pump"). The heat coming out the hot side Qh of a heat pump or the heat going in to the cold side Qc of a refrigerator is more than the work put in; in fact it can be many times larger. For this reason, the ratio of the heat to the work in heat pumps and refrigerators is called the coefficient of performance, K. In a refrigerator, this is the ratio of heat removed from the cold side Qc to work put in: Kfrig=QcWin. In a heat pump the coefficient of performance is the ratio of heat exiting the hot side Qh to the work put in:Kpump=QhWin. Take Qh, and Qc to be the magnitudes of the heat emitted and absorbed respectively. |
Part A What is the relationship of Win to the work W done by the system? Express Win in terms of W and other quantities given in the introduction.
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| Win = |
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Part B
Find Qh, the heat pumped out by the ideal heat pump.
Express Qh in terms of Qc and Win.
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Part C
A heat pump is used to heat a house in winter; the inside radiators are at Th and the outside heat exchanger is at Tc. If it is a perfect (i.e., Carnot cycle) heat pump, what is Kpump, its coefficient of performance?
Give your answer in terms of Th and Tc.
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earning Goal: To understand that a heat engine run backward is a heat pump that can be used as a refrigerator....
Learning Goal: To understand what a heat engine is and its theoretical limitations. Ever since Hero...
Learning Goal:
To understand what a heat engine is and its theoretical
limitations.
Ever since Hero demonstrated a crude steam turbine in ancient
Greece, humans have dreamed of converting heat into work. If a fire
can boil a pot and make the lid jump up and down, why can't heat be
made to do useful work?
A heat engine is a device designed to convert heat into work.
The heat engines we will study will be cyclic: The working
substance...
Written Question #1 For the heat engines and the heat pumps below fill in possible values...
Written Question #1 For the heat engines and the heat pumps below fill in possible values for the heat and work values such that the conditions given are met. You Must Explain your answers for full points. (b.) A heat engine that obeys the first law of thermodynamics but violates the second law of thermodynamics without Qc being zero. (a.) A heat engine that viloates the first law of thermodynamics. 500 K Нот 500 K Нот QH W. Wout out...
Part A A heat engine is designed to do work. This is possible only if certain relationships between the heats and temp...
Part A A heat engine is designed to do work. This is possible only if certain relationships between the heats and temperatures at the input and output hold true. Which of the following sets of statements must apply for the heat engine to do work? A) Qh < Qc and Th < Tc B) Qh > Qc and Th < Tc C) Qh < Qc and Th > Tc D) Qh > Qc and Th > Tc Part B Find...
SP3. A Carnot engine operating in reverse as a heat pump moves heat from a cold...
SP3. A Carnot engine operating in reverse as a heat pump moves heat from a cold reservoir at 7°C to a warmer one at 22°C. a) What is the efficiency of a Carnot engine operating between these two temperatures? b) If the Carnot heat pump releases 250 J of heat into the higher-temperature reservoir e co in each cycle, how much work must be provided in each cycle? c) How much heat is removed from the 7°C reservoir in each...
Second Law of Thermodynamics Learning Goal: To understand the implications of the second law of thermodynamics...
Second Law of Thermodynamics Learning Goal: To understand the implications of the second law of thermodynamics. The second law of thermodynamics explains the direction in which the thermodynamic processes tend to go. That is, it limits the types of final states of the system that naturally evolve from a given initial state. The second law has many practical applications. For example it explains the limits of efficiency for heat engines and refrigerators. To develop a better understanding of this law,...
(a)Draw the schematic diagram of the working mechanism of a heat engine, heat pump and refrigerator and state the therm...
(a)Draw the schematic diagram of the working mechanism of a heat engine, heat pump and refrigerator and state the thermal efficiency of each system (b) Figure Q1(b) shows the schematic diagram of a double cascade cycle. Assuming the flow rates in these two separate cascades are the same and the value of the refrigeration effect in the second cascade is equal to the heat rejected in the condenser of the first cascade (QcondenserAQr Qinter), determine (i) the coefficients of performance...
Can someone help pls!!! Question 1 (3.5 marks) A heat engine is a mechanism that transfers...
Can someone help pls!!!
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Problem 15. A heat pump is used to maintain a warm area at 30 degC by transferring heat from surroundings at-20 degC. The heat pump is assumed to operate as an Ideal Vapor Compression Cycle Cycle Conditions TH= 30-degC TL--20-degC T1 30-degC h- 241.8 kJ-kg T2 T3-20degC h 386.8 kJ-kg S 1.7422 kJ.kg K h 423.1.kJ.kg T,-37.8-degC A. Determine that heat rejected (in kJ/kg) by the refrigerant in the condenser Condenser Compressor Expansion Valve Evaporator COMP Assume p4 - p1...
Learning Goal:
To understand what a heat engine is and its theoretical
limitations.
Ever since Hero demonstrated a crude steam turbine in ancient
Greece, humans have dreamed of converting heat into work. If a fire
can boil a pot and make the lid jump up and down, why can't heat be
made to do useful work?
A heat engine is a device designed to convert heat into work.
The heat engines we will study will be cyclic: The working
substance...
Written Question #1 For the heat engines and the heat pumps below fill in possible values for the heat and work values such that the conditions given are met. You Must Explain your answers for full points. (b.) A heat engine that obeys the first law of thermodynamics but violates the second law of thermodynamics without Qc being zero. (a.) A heat engine that viloates the first law of thermodynamics. 500 K Нот 500 K Нот QH W. Wout out...
SP3. A Carnot engine operating in reverse as a heat pump moves heat from a cold reservoir at 7°C to a warmer one at 22°C. a) What is the efficiency of a Carnot engine operating between these two temperatures? b) If the Carnot heat pump releases 250 J of heat into the higher-temperature reservoir e co in each cycle, how much work must be provided in each cycle? c) How much heat is removed from the 7°C reservoir in each...
(a)Draw the schematic diagram of the working mechanism of a heat engine, heat pump and refrigerator and state the thermal efficiency of each system (b) Figure Q1(b) shows the schematic diagram of a double cascade cycle. Assuming the flow rates in these two separate cascades are the same and the value of the refrigeration effect in the second cascade is equal to the heat rejected in the condenser of the first cascade (QcondenserAQr Qinter), determine (i) the coefficients of performance...
Can someone help pls!!!
Question 1 (3.5 marks) A heat engine is a mechanism that transfers energy from a warm to a cool region, converting some of that energy into mechanical work. The following equation describes the process analytically W n(1) TH' where: W is the work done by the heat engine is the coefficient of maximum efficiency Tc is the absolute temperature of the cool region TH is the absolute temperature of the warm region (a) Derive the linearised...
Problem 15. A heat pump is used to maintain a warm area at 30 degC by transferring heat from surroundings at-20 degC. The heat pump is assumed to operate as an Ideal Vapor Compression Cycle Cycle Conditions TH= 30-degC TL--20-degC T1 30-degC h- 241.8 kJ-kg T2 T3-20degC h 386.8 kJ-kg S 1.7422 kJ.kg K h 423.1.kJ.kg T,-37.8-degC A. Determine that heat rejected (in kJ/kg) by the refrigerant in the condenser Condenser Compressor Expansion Valve Evaporator COMP Assume p4 - p1...
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