RU2014102190A - MULTI-TEMPERATURE CONDENSATION CAMERA - Google Patents

Abstract

1. A multi-temperature condensation chamber with a gas path of predominantly rectangular cross-section, comprising a lower bottom, upper bottom, cold and hot side walls of the tract with devices for ensuring the temperature difference of their outer surfaces, while the upper and lower bottoms are interconnected peripherally by side walls with the formation of a closed cavity, in the walls of which the connectors are made to provide the possibility of supplying into the cavity of the pipelines of the working fluid and measuring instruments, lateral path ducts are made up of several movably interconnected parts having the possibility of angular and radial movements both in and out of the gas path, while the path is formed by the upper, lower bottoms and side walls of the path, characterized in that a rib is installed in the central part of the chamber by means of which the chamber cavity is divided into two parts, said rib being configured to communicate parts of the chamber cavity to each other, said rib being installed along the longitudinal axis the camera, mainly parallel to it, with an offset towards the hot side wall of the tract from the longitudinal axis by a distance x = (0.1 ... 0.3) X, where x is the distance of the offset of the ribs towards the side of the hot side wall, X is the channel width. 2 . The multi-temperature condensation chamber according to claim 1, characterized in that there are gaps between the specified rib and the bottoms, while the size of each said gap is δ = (0.1 ... 0.3) h, where δ is the gap between the upper / lower bottoms and rib, h is the height of the path formed by the upper and lower bottoms. 3. Different temperature�

Claims (8)

1. A multi-temperature condensation chamber with a gas path of predominantly rectangular cross-section, comprising a lower bottom, upper bottom, cold and hot side walls of the tract with devices for ensuring the temperature difference of their outer surfaces, while the upper and lower bottoms are interconnected peripherally by side walls with the formation of a closed cavity, in the walls of which the connectors are made to provide the possibility of supplying into the cavity of the pipelines of the working fluid and measuring instruments, lateral path ducts are made up of several movably interconnected parts having the possibility of angular and radial movements both in and out of the gas path, while the path is formed by the upper, lower bottoms and side walls of the path, characterized in that a rib is installed in the central part of the chamber by means of which the chamber cavity is divided into two parts, said rib being configured to communicate parts of the chamber cavity to each other, said rib being installed along the longitudinal axis camera, mainly parallel to it, with an offset to the side of the hot side wall of the tract from the longitudinal axis by a distance x = (0.1 ... 0.3) X, where x is the distance of the offset of the ribs towards the side of the hot side wall, X is the width of the channel. 2. The multi-temperature condensation chamber according to claim 1, characterized in that there are gaps between the specified rib and the bottoms, while the size of each said gap is δ = (0.1 ... 0.3) h, where δ is the gap between the upper / lower bottoms and rib, h is the height of the path formed by the upper and lower bottoms. 3. The multi-temperature condensation chamber according to claim 1, characterized in that there are through channels in the rib through which said chamber cavities communicate with each other, and the total channel area is s = (0.25 ... 0.4) S, where s is the total area of the through channels, S is the area of the longitudinal section of the tract at the location of the rib. 4. The multi-temperature condensation chamber according to claim 1, characterized in that the rib dividing the chamber cavity into two parts is shaped, with a cross section in the form of alternating protrusions and depressions. 5. The multi-temperature condensation chamber according to claim 1, characterized in that the entrance wall of the path is movable. 6. The multi-temperature condensation chamber according to claim 1, characterized in that the cold wall is made in the form of a hollow body with fittings for supplying and discharging the working fluid. 7. The multi-temperature condensation chamber according to claim 1, characterized in that the hot wall is made in the form of a hollow body with fittings for supplying and discharging the working fluid. 8. The multi-temperature condensation chamber according to claim 1, characterized in that the hot wall is made in the form of a plate with an electric heating element placed on its surface.