RU58675U1 - THERMAL DYNAMIC COMPRESSOR - Google Patents

Abstract

The utility model relates to mechanical engineering for the production and use of compressed gases. A compressor is known where a change in gas pressure occurs as a result of a change in volume when the piston moves inside the cylinder in which the gas is enclosed. New in the utility model is that a change in gas pressure occurs as a result of a change in temperature inside the heat exchange tubes in which the gas is enclosed.

Description

The utility model relates to the field of engineering.

A known compressor for receiving and supplying compressed gases, in which the mechanical energy of the engine is converted into potential energy of compressed gases and heat. "BRIEF POLYTECHNICAL DICTIONARY" State publication of technical and theoretical literature. Moscow 1955 p. 437. The compressor consists of a cylinder and a piston moving in it, representing a variable pressure unit. An inlet valve and a discharge valve are installed in the cylinder head. When the piston moves in one direction, the volume of the working part of the cylinder increases, while the pressure inside the cylinder becomes lower than in the suction channel, which automatically opens the inlet valve, and gas from the suction channel enters the cylinder. When moving in the opposite direction, the volume of the working part

the cylinder decreases, and the gas pressure rises, while the inlet valve closes automatically and the discharge valve opens, and gas is squeezed out of the cylinder into the discharge channel by a piston. Next, the cycle repeats.

A disadvantage of the known compressor is the need for mechanical or electrical energy to move the piston, which in turn is generated from thermal energy. The proposed utility model solves the problem of producing compressed gas directly from thermal energy without converting it into mechanical or electrical energy, which can significantly increase the efficiency of obtaining compressed gas.

The problem is solved in that the compressor containing the variable pressure unit, inlet valve and discharge valve is characterized in that it provides for a change in temperature, and as a result, gas pressure with a constant volume of the variable unit

pressure and contains a heat exchange unit 1, an inlet valve 2, a discharge valve 3.

Figure 1 shows a diagram of a thermodynamic compressor.

The scheme works as follows.

When heat energy is supplied to the heat exchange unit 1 (hot water, hot gases), the temperature of the gas inside the tubes of the heat exchange unit rises, which means that with a constant volume of the heat exchange unit, the pressure rises inside it. As a result, pressure valve 2 opens and part of the gas is removed towards the discharge side, after which the heat exchange unit is forcedly cooled by a cooler (water, ambient air) and the pressure in it drops. In this case, the discharge valve 2 closes, and when the pressure reaches below the inlet pressure, the inlet valve 1 opens and the gas enters the heat exchange unit. Next, the cycle repeats. For uniform operation, two compressors of FIG. 2 can be installed in parallel, one of which is heated, while the other is cooled. Wherein

the energy stored in the assembly heated by the heat exchange unit is recuperated, since the cooler first enters the cooled heat exchange unit before heating, draws heat energy from it, then goes to the heater and goes hot to the heated heat exchange unit.

To obtain a higher pressure, several compressors can be connected in series. FIG. 3

This utility model is new, as it is not known from the prior art.

This utility model is industrially applicable, as it is simple and does not have moving parts in the power line. This utility model can be used in many industrial facilities where the production and supply of compressed air and other gases is required.

Claims (1)

A compressor comprising a gas pressure changing unit, characterized in that it is configured to change the gas pressure in a constant volume when the temperature of the heat exchange tubes changes, consisting of a heat exchange unit, the ends of which are equipped with an inlet valve and a discharge valve.