Classifications

• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
  • F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
  • F23G7/00—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals
  • F23G7/008—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals for liquid waste
• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
  • F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
  • F23G7/00—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals
  • F23G7/06—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals of waste gases or noxious gases, e.g. exhaust gases
  • F23G7/061—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals of waste gases or noxious gases, e.g. exhaust gases with supplementary heating
  • F23G7/065—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals of waste gases or noxious gases, e.g. exhaust gases with supplementary heating using gaseous or liquid fuel
• • F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
  • F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
  • F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
  • F23G2209/00—Specific waste
  • F23G2209/14—Gaseous waste or fumes
  • F23G2209/142—Halogen gases, e.g. silane

Definitions

• the present invention relates to an injector which can be used in particular in a device for the combustion of corrosive residues such as those containing halogenated, in particular chlorinated, hydrocarbons.
• chlorinated organic compounds generates abundant quantities of residues often containing chlorine. These residues can be present either in the form of a gas, for example in the case of the manufacture of vinyl chloride, or of its polymers or copolymers, or in the form of liquid and / or of tarry solids obtained in the manufacture. of chlorinated aliphatic, cycloaliphatic and / or aromatic hydrocarbons.
• the composition of these chlorinated residues varies according to their origin. Certain residues include chlorinated tar products, at least some of the constituents of which contain more than 7 carbon atoms per molecule.
• Other chlorinated residues include chlorinated C 4 compounds and / or chlorinated C 6 compounds.
• chlorinated residues can be accompanied by other compounds comprising chlorinated Ci to C 4 constituents .
• chlorinated residues may also include polychlorinated biphenyls (PCBs) used as dielectric and cooling fluids and which one wishes to get rid of given the ban on the use of these products.
• PCBs polychlorinated biphenyls
• One way to solve the problem of the accumulation of these residues and the pollution of the air and / or the waters into which they can be discharged is to burn them at high temperature, in a combustion chamber with acid recovery gaseous hydrochloric acid which can be put in the form of an aqueous solution, and optionally production of steam. More specifically, the burning of these chlorinated liquid and / or gaseous residues is carried out in the presence of an excess of air and water at temperatures ranging from 900 ° C to 1450 ° C and, generally, between 1200 ° C and 1300 ° C in an installation comprising in particular a burner into which chlorine residues are injected and an oxidizer; said burner being surmounted by an oven where the average stay of the molecules is at least 3 seconds.
• the hot gases leaving the oven are quenched (suddenly cooled).
• the HCI formed is absorbed in absorbers, which leads to solutions concentrated sales (33%). Any chlorine formed is absorbed in an alkaline aqueous solution.
• Patent application FR 2509016 incorporated by reference in the present application describes a device which can be used in particular for the combustion of products or mixtures of halogenous corrosive products or capable of generating corrosive products, by bringing said products into contact with a dispersed state. oxidizing fluid at a temperature sufficient to allow the glow of the cloud of particles formed.
• This device shown in FIG. 1, comprises a combustion chamber (7), a head for dispersing the phase to be burned in said chamber (1), a plate for connecting said dispersion head with the combustion chamber (2 ), fluid inlets (3), (4) and (5), a deflector (6).
• the dispersion head (1) is an essential element of this device.
• This dispersion head ( Figure 3) includes:
• said rotation chamber comprising a tangential inlet (15) leading said primary fraction of the oxidizing phase into an annular space between an outer casing (16) and an inner casing (17) perforated at its upstream part and behaving like a multitude of tangential inlets, said rotation chamber ending in a conical part (18), the end of this conical part (18) and the injector (8) are dimensioned and arranged so as to form a restricted annular passage (references 26 and 27);
• FIG. 2 shows the detail of the device for axial arrival of the phase to be burned and of the auxiliary fluids, or injector.
• This injector comprises: - a guide (9),
• Such a device is well suited for burning chlorinated residues.
• the Applicant has used a similar device to burn liquid chlorine residues.
• this device for the combustion of residues comprising approximately 77% by weight of chlorine.
• residues include in particular hexachlorobutadiene, hexachlorobenzene, tetrachlorobenzene, pentachlorobenzene and hexachloroethane.
• This residue is a viscous liquid with a crystallization point above 160 ° C.
• the complete installation includes a burner / combustion chamber assembly as shown in FIGS. 1, 2 and 4.
• FIG. 4 which represents the dispersion head, the ferrules (20) have been removed and said rotation chamber ends by a frustoconical part (18), the end of this part and the injector (8) whose guide (9) is shorter are arranged so as to form a restricted annular passage (references 26 and 27).
• the ratio (27) 1 (26) is 1.28
• the ratio (28) / (27) is 4.
• the installation comprises:
• the vacuum is created in the combustion chamber thanks to 4 Venturi in series and an extractor.
• the residue is brought to the burner by the concentric tube (12).
• the temperature of the combustion chamber is 1,200 ° C.
• the vacuum in this chamber is maintained at around 100 mbar. 2,700 Nm 3 / h of spray air are introduced at 0.5 ⁇ 10 5 Pa through the annular space (27) / (26), that is to say through the tangential inlet (15).
• An overall secondary air flow of 2,500 Nm 3 / h consists of a first flow of secondary air drawn in through the holes (21) in the bottom plate (19) and a second flow of secondary air drawn in through the annular leakage space (23).
• the composition of the fumes leaving the combustion chamber is as follows (percentage by weight):
• the Applicant has modified the nature of the material constituting the tubes and has used ordinary steel.
• the Applicant has found that the tubes pierce, causing a migration of fluids from one tube to the other.
• a device for the combustion of products or mixture of corrosive products or capable of generating corrosive products by bringing said products into contact (at the 'dispersed state) with an oxidizer at a temperature allowing the burning of said products characterized in that it comprises a straight envelope tube (E), cylindrical, closed at one end by a wall (P) inside which are juxtaposed at least 2 straight tubes (T) and, at most 8 tubes, preferably 4 or 5, said tubes passing perpendicularly through the wall (P), and at least 1 lateral tube (TL), located near the wall
• these tubes (T) can have identical or different internal diameters.
• These tubes (T) can be arranged randomly, but it is preferred to arrange them in a ring.
• 6 shows a section of the injector along the line AA 'of Figure 5, said injector containing 4 tubes of the same diameter arranged in a crown.
• Figure 6 shows a section of an injector comprising 5 tubes: 4 tubes of the same diameter are arranged in a crown, the 5 th smaller diameter is central.
• at least one of the tubes (T) carries the products or the mixture of corrosive products to be burned and at least one of the tubes (T) carries part or all of the oxidant necessary for combustion.
• This oxidizer can be air, air enriched with oxygen, or even oxygen.
• an additional fuel such as propane can be provided, vents resulting from the manufacture of the
• This auxiliary fuel can be conveyed by one of the tubes (T) of the device.
• the free space created by the juxtaposed tubes (T) inside the envelope tube (E) - space designated by (ET) - can be traversed by a fluid which can cool the tubes (T), or bring an additional oxidizer on combustion.
• This fluid is preferably air, humidified air, water, water vapor and is introduced, preferably tangentially, to the envelope tube (E), and preferably to its part. low by a tubing (TL).
• the thicknesses of the tubes (T) and the tube (E) can vary to a large extent. They are a function of the material used and the corrosivity of the products to be destroyed. Advantageously, these thicknesses will be at least equal to 1.5 mm and, preferably, between 1.5 and 3 mm.
• the injector In according to the invention, it is recommended to size the different tubes (T) in such a way that the ratio of the external diameter De of a tube (T), to the internal diameter Di of the same tube ( T) is between 1, 2 and 1, 6 and preferably between 1, 25 and
• the ratio of the totality of the internal surfaces of the tubes (T), ⁇ S T to the internal passage surface of the tube (E) containing n tubes (T), S E ⁇ is between 1 and 1.50 and preferably between 1.05 and 1.25.
• the length of the tube (E) is 20 to 30 times the internal diameter of said tube (E), and preferably 22 to 26 times.
• the tubes are supplied upstream of the wall (P) by hoses which are provided with socket means (J) called "fast" of the Surlock ® type allowing rapid assembly and disassembly.
• the tubes (T) can take a curvature so as to facilitate their connections with the supply hoses. Their lengths, always upstream of the wall (P), can be identical or different and depend on the size of the device.
• the ends of the tubes (T) are at the same level (in the same plane) as the end of the tube (E) (line BB 'in Figure 5).
• the injector In of the present invention can be arranged vertically or horizontally.
• Another object of the present invention also relates to the use of said injector described above for the implementation of a method of combustion of corrosive products or mixture of corrosive products capable of generating corrosive products.
• the phase (s) containing the products to be burned in liquid and / or gaseous form are introduced along the axis of the vortex well formed by the primary fraction of the oxidizing phase substantially as far as the zone of depression of said vortex well, the momentum imparted to the vortex well being sufficient to cause the dispersion of the phase to be burned into particles by transfer of the momentum is introdu i t separately the secondary fraction of the oxidizing phase ui flow and using one or more directions for simultaneously ensure the addition of oxidizing phase needed for combustion, cooling the portion of the device surrounding the area of combustion and in particular of the deflector allowing the secondary fraction to be folded down towards the base of the combustion zone and the stabilization of the incandescent cloud.
• the products to be burned are preferably introduced in liquid form at a flow rate ranging from 500 to 3,500 kg / h and, preferably, between 1,200 and 3,000 kg / h. When they are introduced in gaseous form, their flow rate is between 5 and 15 Nm 3 / h.
• the flow rate of the primary fraction of the oxidizing phase (also called atomizing air) is between 500 and 5,000 Nm 3 / h and, preferably between 2,000 and 3,500 Nm 3 / h.
• the combustion zone is under vacuum of the order of 10 to 1500 Pa below atmospheric pressure.
• the pressure of the primary fraction of the oxidizing phase is greater than 0.1 to 8,5.10 5 Pa and preferably 0.2 to 0,6.10 5 Pa greater than the pressure prevailing in the combustion zone.
• the secondary fraction of the oxidizing phase can be introduced into the combustion chamber by suction at different locations, taking into account the fact that the vacuum prevails in the combustion chamber.
• This secondary fraction can be introduced in a single stream, folded in particular towards the combustion zone by means of a deflector as mentioned above, or in the form of two streams flowing on either side of said reflector.
• the total flow rate of the secondary fraction of the oxidizing phase can vary to a large extent. Generally, this flow rate is calculated in such a way that the ratio of the total flow rate of the secondary fraction to the flow rate of the primary fraction is between 0.1 and 10 is preferably between 0.9 and 5.
• an additional fuel can be provided in liquid or gaseous form, it is advantageous to introduce this fuel through one of the tubes of the injector according to the invention.
• water can also be introduced into the combustion zone. This introduction is also advantageously made by one of the tubes of the injector according to the invention.
• a so-called tertiary oxidizing phase addition can optionally be used.
• this top-up is carried out co-axially by a tubule arranged perpendicular to the envelope tube of the injector.
• This make-up is introduced under a pressure ranging from 2 bars to 10 bars and, preferably, under pressure ranging from 4 to 6 bars.
• the use of the injector of the present invention in addition to ensuring remarkable combustion of the corrosive products, equivalent to that produced by burners of the prior art, has the advantage of being able to carry out the combustion of the said corrosive products for several months without any clogging and / or piercing of one (or more) tube (s) constituting said device.
• a blockage occurs on one or more tubes
• several simple and rapid possibilities arise: - the use of a simple flexible rod inserted in the tube can make it possible to eliminate the blockage without stopping the burner (the oven is under vacuum), - or, if the plugging is more consequent, the entire device can be changed quickly, in less than an hour, without significantly lowering the oven temperature.
• the injector of the present invention makes it possible to ensure the combustion of products or mixtures of corrosive products under remarkable conditions.
• This injector is particularly applicable to the combustion of chlorinated liquid residues which are generally viscous, possibly charged with solid particles in suspension.
• chlorinated residues as defined above most often contain more than 40%, or even more than 75% by weight of chlorine.
• the device of the present invention can be used for the combustion of corrosive products - or capable of providing corrosive products - containing amounts of chlorine well below 40%.
• the injector according to the invention also makes it possible to burn, together with liquid chlorinated residues, gaseous chlorinated residues such as in particular the vents originating from the manufacture of polyvinyl chloride. Another advantage is the possibility of quickly switching the supply of a tube taking into account the connections (J).
• the tubes (T) can also be cooled by passing air, water or humidified air through space (ET).
• ET space
• the internal (Di) and external (De) diameters of the 4 tubes are identical.
• the tubes T1, T2, T3 and T4 are arranged as shown in Figure 5.
• This injector is suitable for a residue combustion installation as described previously in the description, that is to say that the injector In of the present invention is arranged in place of the injector (8) in the head. of dispersion shown in Figure (4), and enters said dispersion head over a length of 48 cm (CC) counted from the guide (9), or 72 cm outside of said head (DD ').
• the chlorinated residues to be destroyed consist firstly of
• PCBs by chlorinated residues containing approximately 80% by weight of chlorine and consist essentially of hexachlorobutadiene, hexachlorobenzene, tetrachlorobenzene and aliphatic chlorinated products such as hexachloroethane.
• the PCBs are introduced through the tube (T1), at a flow rate of 400 kg / h.
• the chlorinated residues are introduced through the tube (T2) at a rate of 1600 kg / h.
• Gaseous chlorinated vents from the preparation of PVC are introduced through the tube (T3) at a flow rate of 10 m 3 / h.
• Water is introduced through the tube (T4) at a flow rate of 500 kg / h.
• Said tertiary air is introduced into the envelope (E) by means of the tubing (TL) at a flow rate of 10 m 3 / h.
• An overall secondary air flow of approximately 2,500 Nm 3 / h consists of a first flow of secondary air drawn in through the holes (21) in the bottom plate (19) and a second flow of secondary air sucked through the annular leakage space (23).
• the ratio (27) 1 (26) is 1.28 and the ratio (28) / (27) is 4.
• the head of the injector In is 6.8 cm from the plane formed by the ends of the deflector (24).
• the average composition of the fumes leaving the combustion chamber is as follows (weight percentages):
• the fumes released into the atmosphere do not contain free chlorine.
• the analyzes carried out in the fumes show that the PCB content is less than 0.5 ⁇ g / Nm3; the content of polychlorodibenzofuran and polychlorodibenzodioxin in the gases is 0.1 ng / m 3 .

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• 1999
  • 1999-12-07 FR FR9915401A patent/FR2802615B1/fr not_active Expired - Fee Related
• 2000
  • 2000-12-05 AU AU21836/01A patent/AU2183601A/en not_active Abandoned
  • 2000-12-05 JP JP2001543958A patent/JP2003529036A/ja not_active Withdrawn
  • 2000-12-05 EP EP00985409A patent/EP1238229A1/de not_active Ceased
  • 2000-12-05 WO PCT/FR2000/003391 patent/WO2001042711A1/fr not_active Application Discontinuation
  • 2000-12-05 CA CA002393647A patent/CA2393647A1/fr not_active Abandoned
  • 2000-12-05 US US10/149,124 patent/US6799964B2/en not_active Expired - Fee Related

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