FR2958864A1 - Method for static operation to separate water from oil contained in condensates of compressed air and evaporating water contained in cyclically condensates, involves carrying out evaporation taken from compressed air issued from compressor - Google Patents

Abstract

The method involves carrying out evaporation taken from compressed air issued from a compressor for calorific energy. A cavity (2) of a metal block (1) is used as tank for accumulation and concentration of the condensates, where the metal block is constituted as a principal part of a machine. An input (4) is used to push condensates by the compressed air. A valve (9) is located in top of a coil that ensures a blocking of liquid in a case. An independent claim is also included for a machine for the implementation of the static process of operation that separates water from oil contained in the condensates of compressed air, comprising a metal block.

Description

DESCRIPTION

WATER / OIL COMPRESSOR CONDENSATE SEPARATOR

The present invention relates to a static separation machine Compressor condensates consisting of water and oil.

This machine uses the difference in evaporation characteristics existing between the oil and the water contained in the condensate of compressed air at the compressor outlet.

The principle of this machine is based on a cyclic evaporation of the condensates triggered by the arrival of condensates mixed with compressed air.

Each time the condensate is sent to an evaporator which gradually concentrates the oil, an evacuation of the concentrated oil is carried out by gravitation in a container.

The present invention makes it possible without additional energy to concentrate the condensates of compressors knowing that they consist of 97% water and 3% oil.

This machine can therefore significantly reduce the amount of condensate that must be collected in the harvest bins of the latter. This machine is mainly studied to be used in an environment where there can be vibrations and also variations of accelerations like for example the application on embedded machines type: trains or trucks. This machine is constituted in FIG. 1 of: A metal block (1) constituting the main part of the machine, in this block there is a cavity (2) serving as a reservoir of accumulation and concentration of the condensates, An arrival of condensate pushed by compressed air is located in (4), a coil (3) allows to let the condensate taken at the base of the cavity (2), this coil consists of a large surface and being hotter than the liquid evaporates the water contained in the condensates at each cycle of raising and lowering thereof; a valve (9) located at the top of the coil ensures a blockage of the liquid in the case where it would arrive at this level; an air filter (8) makes it possible to filter the expansion air rising with each arrival of condensates before leaving the machine (10); a valve (7) open in the rest position Page 1 of 2 makes it possible to close the outlet orifice (6) when the cavity (2) is under pressure at each arrival of the condensates; a container (11) recovers the concentrated oil; a serpentine channel (5) is used to connect a bypass of hot compressed air taken from the compressor outlet which returns to the air circuit after returning the heat to our machine and thus causing its heating.

In FIG. 1, the machine is shown in the "pressurized condensate inlet" phase, the latter consisting of water at the base of the cavity rise up again as a result of the pressure of compressed air arriving at (4), the mixture in the serpentine consisting mainly of water begins to evaporate; the valve under the effect of the pressure that exists in the cavity (2) 50 is closed; the air escapes through the filter (8) through the orifice (10).

In FIG. 2, the machine is shown during the phase "stop of the arrival of the condensates" at this moment the condensates descend from the coil (3) to the cavity (2), the level rises in the cavity and the water contained in the condensates evaporates partially down from the coil.

The water / oil mixture contained in the cavity (2) is therefore concentrated in oil and accumulates on the surface of the liquid.

In Figure 3 the machine is shown during the "rest phase of the cycle"; there is no more air pressure and all the liquid is raised in the cavity (2); at this moment the valve (7) opens and the liquid constituted 65 in the concentrated oil surface is evacuated through the orifice (6) and accumulates in the reservoir (11). Page 2 of 2

Claims (1)

CLAIMS1 °) A static operating method which separates the water from the oil contained in the condensates of compressed air by cyclically evaporating the water contained therein, characterized in that the heat energy necessary for the evaporation is taken in the compressed air coming out of the compressor. 2) A static operating method which separates the water from the oil contained in the compressed air condensates according to claim 1, characterized in that the thrust of the compressed air available to carry out the assembly of the compressed air is used. condensates on the evaporation coil at each purge cycle. 3 °) use of the static operating method which separates the water from the oil contained in the condensates of compressed air according to any one of claims 1 to 2 in an environment where there may be vibrations and differences in orientation of accelerations. 4 °) Machine for carrying out the static operating method which separates the water from the oil contained in the condensates of compressed air according to any one of claims 1 to 2 characterized in that it comprises: metal block (1) constituting the main part of the machine, in this block a cavity (2) serving as a condensate accumulation and concentration reservoir; an inlet (4) of condensates pushed by the compressed air; a coil (3) which allows the condensates taken at the base of the cavity (2) to rise, this coil consisting of a large surface and being hotter than the liquid, evaporates the water contained in the condensates at each cycle up and down these; a valve (9) located at the top of the coil which ensures a blockage of the liquid in the case where it would arrive at this level; an air filter (8) for filtering the rising expansion air at each condensate inlet before exiting the machine (10); a valve (7) open in the rest position which makes it possible to close the outlet orifice (6) when the cavity (2) is under pressure at each arrival of the condensates; a container (11) which recovers the concentrated oil; a serpentine channel (5) which makes it possible to connect a bypass of hot compressed air taken at the compressor outlet which returns to the air circuit after having restored the heat in the machine and thus caused its heating. Page 3