Final control questions on the subject “heat engineering” The purpose and function of the subject. Working parameter. Status parameters. Base words and phrases
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- 2. Reversible and irreversible processes
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Base words and phrases: process, cycle, correct cycle, definitions, Clausius, Kelvin, Oswalt 1.The second law of thermodynamics and its main interpretations The first law of thermodynamics quantitatively describes the conservation and circulation of energy. The second law of thermodynamics describes the qualitative aspect of these processes. The first law of thermodynamics gives all the information needed to construct the energy balance of a process, but it does not tell us anything about whether or not a process will occur. It should be noted that the second law of thermodynamics, like the first law, is defined on the basis of experience. The second law of thermodynamics can be broadly described as follows: Any spontaneous process is irreversible. All other definitions of the second law are special cases of this general definition. Several scientists have defined the second law of thermodynamics in different ways. Let's give brief information about these definitions. 1. Sadi Carnot (in 1824) gave the following definition: "For a thermodynamic system to work, at least two sources of different temperatures are necessary. Heat engines F.I.K. h>1 cannot be". 2. R. Clausius (in 1850) proposed the following definition: "Heat cannot transfer spontaneously from a much colder body to a much hotter body." It should be noted that the existence of the second type of perpetual motion machine does not contradict the first law of thermodynamics. In fact, in this engine, work would be done not from nothing, but at the expense of the internal energy of the heat source. 2. Reversible and irreversible processes One of the most important concepts of thermodynamics is the concept of reversible and irreversible processes. A thermodynamic process consists of a set of continuously changing states of a thermodynamic system. Between any two states of the system 1 and 2, one can imagine two processes passing through one path: from state 1 to state 2 and vice versa, from state 2 to state 1; such processes are called forward and reverse processes. If the temperatures of the hot and cold sources equalize, that is, the system consisting of the hot source, the work body, and the cold source reaches thermal equilibrium, then heat transfer stops and no work is done. Download 1.46 Mb. Do'stlaringiz bilan baham: 
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