RU2773043C1 - Method for removing insoluble deposits from the flow part of a coriolis flow meter - Google Patents

Abstract

FIELD: flow meters cleaning.

SUBSTANCE: invention relates to methods for cleaning a Coriolis flow meter from deposits and can be used when taking into account the flow of any fluid and gaseous media in various sectors of the economy. The method for removing insoluble deposits from the flow path of a Coriolis flowmeter includes introducing a chemical reagent, holding and removing the spent reagent, and during the holding process, the flowmeter is switched on for a treatment time of 3 to 6 hours.

EFFECT: increasing the degree of cleaning of internal surfaces and reducing the corrosive effect.

1 cl, 2 ex

Description

The invention relates to methods for cleaning a Coriolis flow meter from deposits and can be used when taking into account the flow of any fluid and gaseous media in various sectors of the economy.

A known method for removing insoluble deposits from the flow path of a Coriolis flowmeter (A Novel Low-Temperature Non-Corrosive Sulfate/Sulfide Scale Dissolver / H. Gamal [et al.] // Sustainability 2020, 12, 2455; doi: 10.3390/su12062455), including input of a chemical reagent, followed by holding for the duration of processing and removal of the spent reagent.

Common features of the known and proposed methods is the introduction of a chemical reagent, exposure and removal of the spent reagent.

The main disadvantage of the known method is the formation of insoluble precipitates of the reaction products that block the access of the reagent to the deposits, which leads to a significant decrease in the degree of cleaning of internal surfaces, the need for repeated treatments and corrosion.

There is a known method for removing insoluble deposits from the flow path of a Coriolis flowmeter (Micro Motion Corrosion Guide Coriolis flow meters, density meters, and viscosity meters. User Guide GI-00415, Rev I, October 2020), which includes the introduction of a chemical reagent, followed by exposure for the processing time and removal of spent reagent.

Common features of the known and proposed methods is the introduction of a chemical reagent, exposure and removal of the spent reagent.

The disadvantage of this method is the accumulation of reaction products for some types of reagents on the surfaces of deposits, which reduces the cleaning efficiency, leads to the need for repeated treatments and corrosive effects.

The objective of the present invention is to improve the method for removing insoluble deposits from the flow path of Coriolis flowmeters.

The technical result is to increase the degree of cleaning of internal surfaces and reduce the corrosive effect.

The technical result is achieved by the fact that in the method for removing insoluble deposits from the flow part of the Coriolis flowmeter, including treatment with a chemical reagent, the new thing is that during the holding process, the flowmeter is turned on for a treatment time of 3 to 6 hours.

The technique, which consists in the fact that during the holding process, the flowmeter is turned on for a processing time of 3 to 6 hours, which leads to the generation of oscillatory movements of the flowmeter tubes, which allows the finely dispersed layer of reaction products to be transferred to a suspended state, thereby increasing the contact surface of the reagent with deposits . In addition, the generated vibration effect promotes the delamination of deposits from the inner surface of the flow tubes. This allows you to increase the rate of dissolution of deposits, significantly reduce the required processing time, reduce the potential corrosive effect on the metal of the tubes, and, ultimately, increase the degree of cleaning of internal surfaces.

The authors are not aware of ways to remove insoluble deposits from the flow path of the Coriolis flowmeter in this way.

The practical implementation of the proposed method for removing insoluble deposits from the flow path of a Coriolis flowmeter is presented by examples.

EXAMPLE 1

Coriolis flowmeter with insoluble deposits with an average thickness of 2 mm in the flow part is filled with an aqueous solution of sodium hydroxide (10 wt.%) in an amount equal to the volume of the tubes. Next, an exposure is made with the flow meter turned on for 3 hours. After that, the flowmeter is turned off and the spent reagent is removed.

EXAMPLE 2

A Coriolis flowmeter with insoluble deposits with an average thickness of 4 mm in the flow path is filled with an aqueous solution of Trilon B (12 wt.%) in an amount equal to the volume of the tubes. Next, an exposure is made with the flow meter turned on for 6 hours. After that, the power is turned off and the spent reagent is removed.

Thus, the set of essential features allows you to achieve the set technical result.

Claims (1)

A method for removing insoluble deposits from the flow path of a Coriolis flowmeter, including the introduction of a chemical reagent, holding and removing the spent reagent, which is different the fact that during the exposure process, the flowmeter is turned on for a processing time of 3 to 6 hours.