RU2561977C1 - Gas odorisation method - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: method includes dividing gas into streams directed to consumers and a portion which is directed into an evaporator, where it is saturated by odorant vapour to obtain an odorant-saturated gas, which is mixed with streams directed to consumers in proportion to the flow rate thereof. The flow rate of streams directed to consumers is measured and the overall flow rate of the gas is calculated. The weight flow rate of the odorant into the stream of the gas portion is set by measuring the rate of decrease of the weight of the evaporator depending on the overall flow rate of the gas. Continuity of the process is provided by using two evaporators, one of which is filled with the spent odorant and the odorant-saturated gas is obtained in the other.

EFFECT: simple method, high accuracy of proportioning the odorant and odorising multiple gas streams.

1 dwg

Description

The invention relates to methods for dosed injection of liquid vaporizing reagents into a gas stream and can be used in the gas industry for odorization of natural gas.

Known and widely used methods of odorization of gas [RU 2183134, IPC B01F 3/04, publ. 06/10/2002, RU 2247332, IPC G01F 13/00, G05D 11/02, publ. 02.27.2005, RU 2317580, IPC G05D 11/00, publ. 02.20.2008, RU 2363931, IPC G05D 11/00, publ. 08/10/2009, RU 2457445, IPC G01F 13/00, G05D 11/02, publ. July 27, 2012, RU 2494350, IPC G01F 13/00, publ. September 27, 2013] by volumetric dosing of portions of liquid odorant and periodically introducing them into the gas stream.

The disadvantages of these methods are: the uneven introduction of the odorant into the gas stream when feeding it in portions, the need to measure the density of the odorant, since the rate of introduction of the odorant into the gas is expressed in specific units of the mass of the odorant per volume of the odorized gas, as well as the complexity associated with the need to use precision precision mechanical equipment and complex management system.

Known odorization methods based on the dosing of odorant vapor in a gas stream [RU 2173874, IPC G05D 7/00, publ. September 20, 2001, RU 2242725, IPC G01F 13/00, G05D 11/03, publ. December 20, 2004, RU 2467293, IPC G01F 13/00, publ. November 20, 2012] by continuous or batchwise evaporation of a liquid odorant and introducing the odorant vapor into the gas stream.

The main disadvantage of these methods is the low accuracy due to the difficulties in obtaining a certain volumetric vapor stream with a known mass concentration of odorant.

Closest to the claimed invention, the method and device for gas odorization [RU 2411071, IPC B01F 3/02, publ. 02/10/2011], according to which the method involves bubbling part of the gas through an odorant layer to produce gas saturated with an odorant, mixing it with the main part of the gas to produce odorized gas supplied to the consumer, the thermobaric parameters of bubbling are determined by means of an automatic control system and calculated the concentration of odorant in a gas saturated with an odorant, then, taking into account the measured flow rate of the main part of the gas, the required amount of gas saturated with an odorant is calculated. In addition, to increase the accuracy of dosing, the bubbler tank is thermostated, and the odorant content in the odorized gas is measured by a gas analyzer to adjust the flow of gas saturated with an odorant, taking into account these data.

The disadvantages of this method are:

- the complexity of the method due to the need to measure and control a large number of auxiliary parameters (8-9 input and 3-4 output parameters), ensuring the accuracy of dosing of the odorant,

- the need to use an expensive gas analyzer to adjust the flow of odorant,

- the impossibility of separate odorization of several gas flows supplied to several consumers, using one device.

The objective of the invention is to simplify the method, improve the accuracy of dosing of odorant and odorization of several gas flows.

The technical result is:

- simplifying the method of odorization of gas and increasing the accuracy of dosing of the odorant by determining the flow rate of the odorant by the weight method by continuously weighing the dosing device, and eliminating the need for using a gas analyzer,

- odorization of several gas flows due to the proportional distribution of gas saturated with an odorant between gas flows directed to different consumers.

The specified technical result is achieved by the fact that in the known method, comprising saturating a part of the gas with vapors of an odorant to obtain a gas saturated with an odorant, and introducing it into the main part of the gas, the peculiarity lies in the fact that one or more flows of the main part of the gas allocated by the number of consumers , mixed with a part of the gas saturated with an odorant proportional to the flow rate of each stream, while the production of gas saturated with an odorant is carried out in a continuously weighed vaporizing device consisting of a flow rate second capacitance and evaporation node odorant flow rate set depending on the total gas flow rate by changing the time derivative of the weight of the evaporating device, and to ensure continuity of the process uses two evaporating device in one of which make up the spent odorant and the other receive gas saturated with odorant.

The flow rate of gas flows directed to consumers is measured and the weight of the evaporation device dispensing the odorant is calculated, then the time derivative of the weight of the evaporation device is calculated and this value is adjusted depending on the total gas flow rate. In addition, the amount of gas saturated with an odorant directed to mixing with gas flows directed to consumers is controlled.

In this case, the weight of the odorant introduced per unit volume of gas W _S is calculated as: W _S = δW / δt □: δV / δt, g / m ³ , where: W is the weight of the evaporation device, g, δW / δt is the derivative of the weight evaporation device in time, g / s; V is the volume of gas, m ³ ; δV / δt is the flow of odorized gas, m ³ / s.

The weight of the evaporation device decreases in time due to the loss of the odorant saturating part of the gas. The degree of saturation of the part of the gas passed through the evaporation device with an odorant does not matter, since a direct instrumental measurement is carried out by weighing the amount of evaporated odorant. This allows us to simplify the method by eliminating the need for measurement and regulation of most of the parameters required in the prototype method.

Due to the fact that the accuracy of instrumental weighing methods is 2-3 orders of magnitude higher than the accuracy of flow and pressure measurements carried out in the method according to the prototype, the accuracy of dosing the odorant is determined almost exclusively by the accuracy of measuring the flow of gas flows directed to consumers, which increases the accuracy of dosing of the odorant in comparison with the prototype method and eliminates the need for a gas analyzer. The amount of gas saturated with an odorant is extremely small (0.01-0.05% of the total gas volume) and practically does not affect the accuracy of commercial gas metering.

The proposed method is as follows (see drawing). Gas (I) is divided into flows (II) directed to consumers (3 flows are conventionally shown), and part (III) directed to the evaporation device 1, consisting of a supply tank 2, an evaporation unit 3 and a weighing device 4. Part of the gas (III ) pass through node 3, where a gas saturated with an odorant (IV) is obtained, which is divided by means of devices 5 into parts according to the number of flows (II) in proportion to their flow rate, measured using devices 6. Summing the flow rate of gas flows (II), determine the flow rate gas (I). The mass flow rate of the odorant (VI) to the flow of a part of the gas (III) is set by changing the rate of decrease in the weight of the evaporation device 1 depending on the total gas flow (I) using the control signal received from the control system 7 as a result of processing data from measuring devices 6 and 4 The dashed arrows indicate the measured signals and control actions.

To ensure the continuity of the process, two evaporative devices are used (the second is not shown in the diagram), in one of which the consumed odorant is replenished, and in the other, a gas saturated with odorant is obtained.

Thus, the present invention allows to simplify the odorization of gas, increase the accuracy of dosing of the odorant, odorize several gas flows at the same time and can be used in the gas industry.

Claims (1)

A method of odorizing a gas, comprising saturating a part of a gas with vapors of an odorant to produce a gas saturated with an odorant, and introducing it into the main part of the gas, characterized in that one or more flows of the main part of the gas released by the number of consumers are mixed with a part of the gas saturated with an odorant, proportional to the flow rate of each stream, while the production of gas saturated with an odorant is carried out in a continuously weighed evaporation device consisting of a flow tank and an evaporation unit, the flow of the odorant is set to depending on the total gas flow rate by changing the time derivative of the weight of the evaporation device, and to ensure the continuity of the process, two evaporation devices are used, one of which replenishes the consumed odorant, and the other produces gas saturated with odorant.