CN204462092U - The de-watering apparatus of gas and comprise its stationary pollution source emission monitoring system - Google Patents

Abstract

The utility model provides a kind of de-watering apparatus of gas and comprises its stationary pollution source emission monitoring system, and monitoring system adopts de-watering apparatus; De-watering apparatus comprises: the first container, and described first container has the first air intake opening, the second air intake opening, the first gas outlet and the second gas outlet; At least two pipelines, described at least two install pipelines are in described first container, and import is communicated with described first air intake opening, and outlet is communicated with described first gas outlet; Described at least two pipelines adopt the multipolymer of teflon and perfluor-3,6-diepoxy-4-methyl-7-decene-sulfuric acid; Sulfonic group side chain, the inwall of at least two pipelines described in described sulfonic group side chain is combined in.The utility model structure is simple, accuracy of detection advantages of higher.

Description

The de-watering apparatus of gas and comprise its stationary pollution source emission monitoring system

Technical field

The utility model relates to flue gas monitoring, particularly stationary pollution source emission monitoring system.

Background technology

The flue-gas temperature of fixed-contamination source emission up to about 150 DEG C, and containing a large amount of steam and sour gas (as HCl, SO ₂with NOx etc.), the loss being easy to cause chromatography instrument chromatographic column fixed phase is removed in time if do not carry out, cause chromatographic apparatus post to be imitated to reduce, accurate, reliable testing result cannot be obtained, sour gas can corrode chromatogram pipeline simultaneously, to such an extent as to reduce the serviceable life of chromatographic apparatus, increase the difficulty and maintenance period safeguarded.

In order to remove the steam in high-temperature flue gas, the condenser that adopts dewaters more at present.The most of moisture can effectively removed in flue gas although condenser dewaters, is moisture in flue gas is carried out condensation to form the object that aqueous water reaches removal based on the principle that dewaters, thus there is following shortcoming:

(1) be easy to the condensation together making some high boiling substance, cause the loss of some higher boiling object to such an extent as to cannot detect;

(2) condenser dewaters only effective to the removal of steam, acid gas in flue gas can not be removed together, and also need to install sour gas removal device again to remove sour gas, operation is not only loaded down with trivial details but also increase cost.Therefore prior art can not meet the requirement that stationary pollution source high-temperature flue gas dewaters well.

Utility model content

In order to solve the deficiency in above-mentioned prior art, the utility model provides a kind of high temperature that realizes except the gas dewatering device of water function.

The purpose of this utility model is achieved through the following technical solutions:

A kind of de-watering apparatus of gas; Described de-watering apparatus comprises:

First container, described first container has the first air intake opening, the second air intake opening, the first gas outlet and the second gas outlet;

At least two pipelines, described at least two install pipelines are in described first container, and import is communicated with described first air intake opening, and outlet is communicated with described first gas outlet; Described at least two pipelines adopt the multipolymer of teflon and perfluor-3,6-diepoxy-4-methyl-7-decene-sulfuric acid;

Sulfonic group side chain, the inwall of at least two pipelines described in described sulfonic group side chain is combined in.

The invention also discloses a kind of stationary pollution source emission monitoring system applying above-mentioned de-watering apparatus, improve accuracy of detection, this utility model object is achieved by the following technical programs:

Stationary pollution source emission monitoring system, described monitoring system comprises sampling module, detection module and companion's thermal modules; It is characterized in that: described monitoring system comprises above-mentioned de-watering apparatus further, be arranged between described sampling module and detection module.

Compared with prior art, the beneficial effect that the utility model has is:

1, by the independent temperature control of heating module, accurately can control high temperature and to dewater the serviceability temperature of module, make flue gas in transmitting procedure, keep relatively high temperature and be not cooled;

2, special material makes pipeline can tolerate relatively high temperature, can be heated to about 150 DEG C; And there is extremely strong resistance to chemical corrosion, make at least two pipelines can keep Long-Time Service when complicated component, long service life;

3, sulfonate functional groups can effective bound water molecule, and hydrone is transferred to the low place of moisture from the place that moisture is high, and water rem oval is high, increases zero level air outward simultaneously, discharged rapidly by outside tube water vapour at least two pipelines;

4, de-watering apparatus water rem oval only needs after reducing to rinse by dry gas the reproducible utilization that at least two pipe interiors can realize removing water pipe;

5, high temperature de-watering apparatus can not only remove the steam in the middle of flue gas, and mineral acid component also can be discharged from flue gas through teflon skeleton simultaneously, removes steam and sour gas in flue gas simultaneously, reduces processing step, cost-saving;

6, flue gas remains the condition of high temperature in whole transmitting procedure, makes higher boiling object be unlikely to condensation in the transmission, effectively removing in flue gas while steam, greatly reducing the loss of higher boiling object, improve accuracy of detection.

Accompanying drawing explanation

With reference to accompanying drawing, disclosure of the present utility model will be easier to understand.Those skilled in the art it is easily understood that: these accompanying drawings only for illustrating the technical solution of the utility model, and and are not intended to be construed as limiting protection domain of the present utility model.In figure:

Fig. 1 is the structure diagram of the stationary pollution source emission monitoring system according to the utility model embodiment.

Embodiment

Fig. 1 and following description describe Alternate embodiments of the present utility model and how to implement to instruct those skilled in the art and to reproduce the utility model.In order to instruct technical solutions of the utility model, simplifying or having eliminated some conventional aspects.Those skilled in the art should understand that the modification that is derived from these embodiments or replace will in scope of the present utility model.Those skilled in the art should understand that following characteristics can combine to form multiple modification of the present utility model in every way.Thus, the utility model is not limited to following Alternate embodiments, and only by claim and their equivalents.

Embodiment:

Fig. 1 schematically illustrates the structure diagram of the stationary pollution source emission monitoring system of the utility model embodiment, and as shown in Figure 1, described monitoring system comprises:

Sampling module, companion thermal modules, filtering module and detection module, these modules are all the state of the art, do not repeat them here;

De-watering apparatus, described de-watering apparatus comprises:

First container, described first container has the first air intake opening, the second air intake opening, the first gas outlet and the second gas outlet;

At least two pipelines, described at least two install pipelines are in described first container, and import is communicated with described first air intake opening, and outlet is communicated with described first gas outlet; Described at least two pipelines adopt the multipolymer of teflon and perfluor-3,6-diepoxy-4-methyl-7-decene-sulfuric acid, and internal diameter is 0.5-1.5mm, as 0.5mm, 0.8mm, 1.1mm, 1.3mm, 1.5mm;

Sulfonic group side chain, the inwall of at least two pipelines described in described sulfonic group side chain is combined in;

Heating module, described heating module adopts electric heater, is arranged on outside described first container;

Temperature sensor detects the temperature in the first container, records temperature and is sent to temperature control module, and temperature control removes according to the temperature received the power adjusting heating module, makes temperature sensor record temperature and reaches target temperature, as 150 degree.

Claims (4)

1. the de-watering apparatus of a gas; It is characterized in that: described de-watering apparatus comprises:

First container, described first container has the first air intake opening, the second air intake opening, the first gas outlet and the second gas outlet;

At least two pipelines, described at least two install pipelines are in described first container, and import is communicated with described first air intake opening, and outlet is communicated with described first gas outlet;

Sulfonic group side chain, the inwall of at least two pipelines described in described sulfonic group side chain is combined in.

2. de-watering apparatus according to claim 1, is characterized in that: described de-watering apparatus comprises further:

Heating module, described heating module is arranged on described first container.

3. de-watering apparatus according to claim 1, is characterized in that: the internal diameter of described at least two pipelines is 0.5-1.5mm.

4. stationary pollution source emission monitoring system, described monitoring system comprises sampling module, detection module and companion's thermal modules; It is characterized in that: described monitoring system comprises further:

The arbitrary described de-watering apparatus of claim 1-3, is arranged between described sampling module and detection module.