RU65425U1 - LIQUID MIXER - Google Patents

Abstract

The proposal relates to the oil and gas and oil and gas refining industries, in particular, to devices for mixing liquid chemical materials. The liquid mixer includes a supply pipe for liquid with a lower flow rate, a supply pipe of the main mixed liquid and a pipe. The liquid supply pipe with a lower flow rate is placed coaxially in the pipeline and is perforated along a helical line along the entire length with a total area of perforation holes equal to or greater than the cross-sectional area of the pipe. A high-capacity fluid inlet pipe is installed tangentially in the pipeline. Blades are tangentially mounted on the outer surface of the fluid nozzle with a lower flow rate, allowing them to rotate relative to the pipeline during the mixing of the liquids. The proposed liquid mixer due to the blades tangentially located on the outer surface of the nozzle, allows you to intensify the mixing of the liquid phases by slowing down the speed of the main fluid flow without loss of operating efficiency. 1 ill. for 1 liter

Description

The proposal relates to the oil and gas and oil and gas refining industries, in particular, to devices for mixing liquid chemical materials.

Known diaphragm mixer (Yu.K. Molokanov "Processes and apparatuses for oil and gas processing." - M .: Chemistry, 1980, 408 pages), which is a system of partitions (diaphragms) installed in the pipeline through which the mixed liquids are pumped. With the passage of the fluid flow through the holes in the partitions, it is turbulized, leading to intensive mixing of the pumped fluids.

The disadvantage of this mixer is the large hydrodynamic resistance to flow, which leads to blocking (squeezing the liquid at a lower flow rate and pumping pressure, which, in turn, leads to a violation of the volume ratio of the mixed liquids.

The closest in technical essence is a liquid mixer (RF patent No. 2230882, IPC 7 ЕВВ 33/13, В28С 5/02 publ. In Bull. No. 17, 06/20/2006), including inlet pipes, one of which is made for liquid with a lower flow rate and a pipeline with a septum installed, while the liquid supply pipe with a lower flow rate is coaxially placed in the pipeline and perforated along the entire length of the screw line with a total perforation hole equal to or larger than the cross-sectional area of the supply pipe, and the flax in the form of a tape wound on a perforated inlet pipe with the formation of a spiral channel for the main fluid flow and with the possibility of obstruction

locking this fluid stream with a liquid stream with a lower flow rate in the inlet pipe.

The disadvantages of this device is the low intensity of mixing of the liquid phases in the spiral channel due to the fast speed of movement of the main fluid flow.

The objective of the utility model is the intensification of mixing of the liquid phases without loss of operational efficiency.

The problem is solved by a liquid mixer, including inlet pipes, one of which is made for liquid with a lower flow rate, a pipeline, while the inlet pipe for liquid with a lower flow rate is placed coaxially in the pipeline and is perforated along a helical line along the entire length with a total area of perforation holes equal to or a larger cross-sectional area of the inlet pipe.

What is new is that the fluid inlet pipe with a high flow rate is installed tangentially in the pipeline, while on the outer surface of the liquid pipe with a lower flow rate, vanes are tangentially rigidly mounted, allowing it to rotate relative to the pipeline during the mixing of liquids.

The figure shows in longitudinal section a liquid mixer in longitudinal section.

The liquid mixer includes a supply pipe 1 for a liquid with a lower flow rate, a supply pipe 2 for a main mixed fluid and a pipe 3. A supply pipe 2 for a liquid with a lower flow rate is placed coaxially in the pipe 3 and is perforated along a helical line along the entire length with the total area of the perforation holes 4, equal or greater cross-sectional area of the pipe 1.

The inlet pipe 2 for liquid with a high flow rate is installed tangentially in the pipeline 3.

Blades 5 are tangentially rigidly mounted on the outer surface of the liquid nozzle with a lower flow rate, allowing it to rotate relative to the pipeline 3 during the mixing of the liquids.

A liquid mixer operates as follows.

A liquid with a lower flow rate is fed into the pipe 1 perforated along the entire length, from where it flows in thin streams through the holes of the perforation 4 perpendicularly to the flow of the main mixed liquid supplied through the inlet pipe 2 tangentially into the pipe 3.

The main fluid flow entering tangentially into the pipe 3 through the inlet pipe 2 affects the blades 5 tangentially located on the pipe 1, which slows down the speed of the main fluid flow, which is expended on the rotation of the aforementioned blades 5, and then, respectively, the entire pipe 1, which leads to intensive mixing, while the main fluid flow entrains the liquid at a lower rate, intensively mixing with it.

Since the fluid nozzle with a lower flow rate is perforated along the entire length, the main fluid flow is mixed with it gradually as it passes along the length of the pipeline 3, which ensures complete mixing (dissolution). In addition, the flow rate in the channel 6 is higher (the path is longer), and the pressure is correspondingly lower, which facilitates the flow of liquid with a lower flow rate through the perforation holes 4, that is, it prevents the liquid from flowing at a lower flow rate with a lower flow rate when the back pressure at the outlet 7 changes from a liquid mixer.

The proposed liquid mixer due to the blades tangentially located on the outer surface of the nozzle, allows you to intensify the mixing of the liquid phases by slowing down the speed of the main fluid flow without loss of operating efficiency.

Claims (1)

A liquid mixer, including inlet pipes, one of which is made for liquid with a lower flow rate, a pipeline, while the inlet pipe for liquid with a lower flow rate is placed coaxially in the pipeline and is perforated along a helical line along the entire length with a total area of perforation holes equal to or larger than section of the inlet pipe, characterized in that the inlet pipe for liquid with a high flow rate is installed tangentially in the pipeline, while on the outer surface of the pipe for liquid with PWM flow tangentially rigidly mounted blade, allowing it to rotate relative to the pipeline during the mixing of liquids.