A heat pump is used to heat a building. The external temperature is lower than the...

1. Calculate the efficiency of a fossil-fuel power plant that consumes 360 metric tons of coal...

1. Calculate the efficiency of a fossil-fuel power plant that consumes 360 metric tons of coal each hour to produce useful work at the rate of 740 MW. The heat of combustion of coal (the heat due to burning it) is 28 MJ/kg. (2 significant figures) 2. A heat pump is used to heat a building. The external temperature is lower than the internal temperature. The pump's coefficient of performance is 4.20, and the heat pump delivers 4.58 MJ as...

A heat pump will be used to heat a building where the average outside temperature is...

A heat pump will be used to heat a building where the average outside temperature is -1 degrees. There is a constant 80000 kJ / h heat loss from the building and it is desired that the building interior temperature is 20 degrees. The minimum power requirement of the heat pump operating according to the Reverse Carnot cycle is 10 kilowatts. According to this;     a) Find the heating effect coefficient of the heat pump.     b) Since the unit...

A heat pump is used to keep a house warm at 22C. ∘C A. How much...

A heat pump is used to keep a house warm at 22C. ∘C A. How much work is required of the pump to deliver 2500 J of heat into the house if the outdoor temperature is 0∘C . Assume a COP of 3.0 B.How much work is required of the pump to deliver 2500 J of heat into the house if the outdoor temperature is -15∘C ? Assume a COP of 3.0 C. How much work is required of the...

A heat pump is used to keep a house warm at 22∘C. How much work is...

A heat pump is used to keep a house warm at 22∘C. How much work is required of the pump to deliver 3000 J of heat into the house if the outdoor temperature is 0∘C. Assume a COP of 3.0 How much work is required of the pump to deliver 3000 J of heat into the house if the outdoor temperature is -15∘C? Assume a COP of 3.0 How much work is required of the pump to deliver 3000 J...

A heat pump is used to keep a house warm at 22∘C. A) How much work...

A heat pump is used to keep a house warm at 22∘C. A) How much work is required of the pump to deliver 3200 J of heat into the house if the outdoor temperature is 0∘C. Assume a COP of 3.0 B) How much work is required of the pump to deliver 3200 J of heat into the house if the outdoor temperature is -15∘C? Assume a COP of 3.0 Express your answer to two significant figures and include the...

To make ice, a freezer that is a reverse Carnot engine extracts 45 kJ as heat...

To make ice, a freezer that is a reverse Carnot engine extracts 45 kJ as heat at -14°C during each cycle, with coefficient of performance 5.5. The room temperature is 32.9°C. How much (a) energy per cycle is delivered as heat to the room and (b) work per cycle is required to run the freezer?

A Carnot heat engine receives heat at 800 K and rejects heat to the environment at...

A Carnot heat engine receives heat at 800 K and rejects heat to the environment at 325 K. The entire work output from the heat engine is used to drive the Carnot refrigerator that removes heat from the cold space kept at -18 C at a rate of 275 kJ/min and rejects it to the same environment at 325 K. Determine the following: 1. The Carnot Coefficient of Performance for the refrigeration cycle 2. The Carnot efficiency for the Heat...

a A heat pump is used to maintain the inside temperature of a house at 20◦C...

a A heat pump is used to maintain the inside temperature of a house at 20◦C when the outside temper-ature is 30◦C. What is the minimum amount of work necessary to transfer 100 J of heat to the inside of the house? b The heat of combustion of gasoline is approximately 47.0 kJ/mol. If a gasoline engine operates between 1500 K and 750 K, what is the maximum height that 5.0 moles of gasoline can lift a 400 kg aircraft?

Consider two bodies with temperature independent heat capacities C1 and C2, and initial temperatures T1 >...

Consider two bodies with temperature independent heat capacities C1 and C2, and initial temperatures T1 > T2. (a) If the two bodies are brought into contact such that the only heat exchange is between them, what is the final temperature Tfinal , and what is the change in entropy. (b) Suppose instead that the difference in temperature between the two bodies is used to drive an ideal heat engine (Carnot cycle). In one operation of the cycle some amount of...

An ideal heat pump is used to maintain the inside of a house at 22◦C when...

An ideal heat pump is used to maintain the inside of a house at 22◦C when the outside temperature is Tout. Assume the pump does work at the rate of 1500W. The house loses heat by conduction (through walls, windows, etc.) at a rate given by (Tin − Tout) × 650W/ ◦C (a) For what outside temperature would the pump have to operate all the time in order to maintain the house at 22◦C? (b) If the outside temperature is...