Energuide is the official government of canada mark associated with the labelling and rating of the. Aerothermodynamics thermodynamics laboratory report heat pump. Heat pump a heat pump transfers heat from a cold environment to the system to a warm environment. Unlike the situation with steam power plants it is common practice to begin the design and analysis of refrigeration and heat pump systems by first plotting the cycle on the ph diagram. Heat pump a heat pump is a thermodynamic system operating in a thermodynamic cycle that removes heat from a lowtemperature body and delivers heat to a hightemperature body. If the system as a whole is at rest, so that the bulk mechanical energy due to translational or rotational motion is zero, then the.
Heat pumps also work extremely efficiently, because they simply transfer heat, rather than burn fuel to create it. Heat engines, heat pumps, refrigerators, and air conditioners are examples of such systems. Thermodynamics, heat transfer, and fluid flow, module 3 fluid. Student academic learning services thermodynamic systems. This amounts to 40% of the energy supplied in the fuel. Closed systems ch 5 the first law of thermodynamics. Refrigeration can be analysed just at a conceptual system level as done here what purpose it must accomplish, how it can be done in principle, how it can be done in practice, or it can be analysed in more detail to include also the study of the components used in refrigeration equipment. Physics 5d heat, thermodynamics, and kinetic theory. In a process without transfer of matter, the change in internal energy. Basic concepts of thermodynamics ch 2 properties of pure substances ch 3 heat effects ch 4 the first law of thermodynamics. This refrigerant is selected based on its useful physical properties during the different stages of operation inside a heat pump. Heating and cooling with a heat pump produced by natural resources canadas office of energy efficiency energuide the heating and cooling series is published by the energuide team at natural resources canadas office of energy efficiency. The knowledge of engineering thermodynamics and heat transfer is essen tial for engineering students of any discipline and researchers working in the.
Dec 05, 2017 this physics video tutorial explains how to calculate the coefficient of performance of refrigerators and heat pumps. T h is the temperature of the heat pumps working fluid vapour. Heat pumps are able to exploit heat from a colder place and bring and utilize it in warmer places. A heat pump is a mechanical system that allows for the transference of heat from one location the source at a lower temperature to another location the sink or heat sink at a higher temperature. In a way, if you know how an air conditioner works, then you already know a lot about how a heat pump works. Notice that the same system can be used either for a refrigerator or air conditioner, in which the heat absorbed in the evaporator q evap is the desired output, or for a heat pump, in which the heat rejected in the condenser q cond is the desired output. The returning refrigerant now in gas form is then compressed and passed through the heat exchanger within the thermodynamic solar assisted heat pump where the water from the cylinder is brought to the other side of the heat exchanger and the heat from the refrigerant is passed to the water until it reaches 55c, it is then passed back into the. Aerothermodynamics thermodynamics laboratory report heat. Open systems ch 6 the second law of thermodynamics ch 7 entropy ch 8 thermodynamics of flow. If so, there is now net work into the system and net heat out of the system. To accomplish this energy transfer, the heat pump receives external energy in the form of work or heat from the surroundings. Heat pumps move thermal energy in the opposite direction of spontaneous heat transfer, by absorbing heat from a cold space and releasing it to a warmer one.
One of the biggest advantages of a heat pump over a standard heating ventilating and air conditioning hvac unit is that theres no need to install separate systems to heat and cool your home. Heat pumps are typically used to pull heat out of the air or ground to heat a home or office building, but they can be reversed to cool a building. Heat pumps compress cold ambient air and, in so doing, heat it to room temperature without violation of conservation principles. Oct 17, 2016 no,they do not violate any of the laws. Each system operates when it is most cost effective. The second law of thermodynamics asserts that processes occur in a certain direction and that the. Thermodynamic heat pump cycles or refrigeration cycles are the conceptual and mathematical models for heat pumps and refrigerators. Guide to geothermal heat pumps department of energy. Refrigerators, heat pumps, and coefficient of perfomance. If we apply a heat source to the system, the temperature, pressure and internal energy of the fluid will increase. The second law of thermodynamics introduces the notion of entropy s, a measure of system disorder messiness u is the quantity of a system s energy, s is the quality of a system s energy. The cost is the amount of work needed to accomplish this. However, when the temperature drops below the heat pumps ability to operate as efficiently as the gas furnace, the gas furnace will take over until the temperature rises enough for the heat pump to operate more efficiently.
Versatile, energy efficient electric heat pumps are an effective solution to your heating and cooling needs. A refrigeration system cools the external fluid flowing through the evaporator, whereas a heat pump heats the external fluid flowing through the condenser. In engineering thermodynamics we postulate that the material in our system or. The carnot cycle has been used for power, but we can also run it in reverse. Optimum performance is achieved as the amount of work required for a specified amount of heat delivered to the higher temperature region is minimised.
An artifact of the second law of thermodynamics is the ability to heat an interior space using a heat pump. Heat and thermodynamics notes for iit jee, download pdf. Heat engines, entropy, and the second law of thermodynamics. The heat pump will be the primary heating and cooling system. A heat pump transfers heat from a cold environment to the system to a warm environment. A gas can be heated to the temperature of the bottom of the pond, and allowed to cool as it blows through a turbine. A thermodynamics system is defined as a precisely defined region of the universe that is studied. This requires energy input, usually in the form of work as indicated in fig. Thermodynamics tutorial 5 heat pumps and refrigeration on completion of this tutorial you should be able to do the following.
U, of a thermodynamic system is equal to the energy gained as heat, q, less the thermodynamic work, w, done by the system on its surroundings. Basically, the heat pump requires energy in this case work, w in order to. Understanding heat and the flow of heat allows us to build heat sinks that prevent our computers from overheating, build better engines, and prevent freeway overpasses from cracking. Calculate the net work and the net heat transfer in the cycle and y. Heat pumps and energy transfer science learning hub. The first law of thermodynamics is simply the principle of conservation of energy, which, in the case of a heat pump, states. Clausius statement it is impossible to construct a device that operates in a cycle and produces no effect other than the transfer of heat from a lower. Installing a geothermal heat pump system can be the most costeffective and. On the other hand, a heat pump absorbs heat from a low. Temperature is the measure of the degree of hotness and coldness of an object.
Once it has circulated through the system, the water returns to the ground through the well, a recharge well, or surface discharge. There is heat transfer q c into the system from a cold reservoir along path dc, and heat transfer q h out of the system into a hot reservoir along path ba. A heat pump is a device for producing heat so we are interested in the heat given out in the cooler. In the winter months, a heat pump reverses the process, drawing heat from outside air yes, even when it is cold outside there is heat in the air and releasing it inside your home. In the summer, a heat pump system moves heat from inside your house to an outdoor unit, efficiently cooling your home. Heat pump heat pump system electric heat pump carrier. In this chapter we consider a more abstract approach to heat engine, refrigerator and heat pump cycles, in an attempt to determine if they are feasible, and to obtain the limiting maximum performance available for these cycles. Introduction to thermodynamics and heat transfer provides balanced coverage of the basic concepts of thermodynamics and heat transfer. The desired effect is heat being transferred to the warm environment although the heat also needs to. The zeroth law of thermodynamics says that if two objects are each in equilibrium with a third object, they are also in thermal equilibrium with each other.
Thermodynamics and heat transfer laboratory manual 11th edition edited by. Thermodynamics and heat transfer laboratory manual. Together with the clear an numerous illustrations, studentfriendly writing style, and manageable math, this is an ideal text for an introductory thermal science course for nonmechanical engineering majors. To calculate the heat pumps coefficient of performance, use the equation. Aerothermodynamics thermodynamics laboratory report heat pump performance analysis aerospace engineering year 2 contents. It is not the measure of thermal efficiency,the thermal efficiency is still below 100 percent. Briefly about heat pump thermodynamics and efficiencies the laws of thermodynamics form the base of the operation of a heat pump. Introduction to thermodynamics and heat transfer yunus a.
The purpose of a heat pump is to supply a heat to a region by taking heat from a lower temperature region. In winter, the geothermal heat pump takes natural heat from the ground and transfers it to the home or building for heating. Identify exactly what needs to be determined in the problem identify the unknowns. This setting should be checked before starting to use the system by observing the pressure attained during an actual filling operation. The desired effect is heat going into the system from the environment making the environment cooler, and this is represented by q in. Thermodynamics, heat transfer, and fluid flow, module 3 fluid flow.
The first law of thermodynamics work and heat are two ways of transfering energy between a system and the environment, causing the system s energy to change. Reducing heat pumps into these four stages is the primary means by which to understand how heat pumps work. Based on the basic principles of thermodynamics, fluid mechanics and heat transfer, analysis on the refrigeration system and airconditioning system will be practiced. Heat can be described as the transfer of energy between the objects, not the energy contained within the objects.
There will be a quantity of heat rejected at the higher temperature and a quantity of heat absorbed at the lower temperature. Internal energy is the energy present at the molecular level of the substance. Of course a refrigerator is a heat pump in a general meaning in many casesincluding the advanced heating and cooling system for buildingsit is exactly the same mechanism as a refrigerator, but in the technical language of thermodynamics there is an exact difference which relates to what outcome you care about see my answer. In summer, the geothermal heat pump extracts heat from a building and transfers it to the ground for cooling. A heat pump is a device that transfers heat energy from a source of heat to what is called a thermal reservoir. But if heat is given out by a system then it is negative. The basic heat pump cycle is identical to the vaporcompression refrigeration cycle shown in figures 1 and 2, the only difference between a heat pump and a refrigerator being their basic functions. The application of thermodynamics to pump systems 2 3 internal energy all fluids have internal energy u. Guide to geothermal heat pumps geothermal heat pumps are among the most efficient and comfortable heating and cooling technologies. The increase in internal energy of a system is equal to the thermal energy added plus the work done on the system. The following schematic shows a basic refrigeration or heat pump system with typical property values. Heat pumps are devices that operate in a cycle similar to the vaporcompression refrigerator cycle illustrated in figure 1 in its most basic form, a vaporcompression refrigeration system see van wylen 1985 consists of an evaporator, a compressor, a condenser, a throttling device which is usually an expansion valve or capillary tube and the connecting tubing. Heat pumps utilize a working fluid called a refrigerant.
Identify the system of interest and draw a labeled diagram of the system showing energy flow. Carrier split system heat pumps are a smart alternative to an air conditioner, offering heating, cooling, dehumidifying, and more. Chapter heat engines, entropy, and the second law of thermodynamics example. Introduction to refrigeration and air conditioning duration. This physics video tutorial explains how to calculate the coefficient of performance of refrigerators and heat pumps. To accomplish this energy transfer, the heat pump receives external energy in. Entropy on a microscopic scale the first law of thermodynamics. Jan 30, 2018 143 videos play all thermodynamics and power plant engineering for gate mechanical engineering tutorials point india ltd. This is because heat pumps and air conditioners operate in a very similar way. A heat pump can have a much higher coefficient of performance when it is transferring energy by heat between reservoirs at close to the same temperature.
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