Chemistry of inorganic compounds – Modifying or removing component of normally gaseous mixture – Halogenous component
Reexamination Certificate
2000-11-30
2003-11-11
Silverman, Stanley S. (Department: 1754)
Chemistry of inorganic compounds
Modifying or removing component of normally gaseous mixture
Halogenous component
C588S253000
Reexamination Certificate
active
06645449
ABSTRACT:
The present invention relates to a process for disposing of halogenated and non-halogenated waste substances.
Substituted, in particular halogenated hydrocarbons, such as are present for example in carbon tetrachloride, chloroform, methylene chloride, tetra- and trichloroethylene, tetrachloroethane, PCB etc., but also in PVC or polyvinylidene chloride, are a more or less problematical toxic or special waste following use, which has to be disposed of.
Substances with a strong toxic effect on the environment and man, such as halogenated compounds, in particular polyhalogenated substances such as PCBs or TCDD/TCDF (dioxins/furans) cannot be automatically recycled and have to be disposed of in an environmentally friendly manner.
The disposal takes place either by dumping or by incineration on the high seas or else on land in high-temperature furnaces with an excess of air.
The energy requirement is in many cases not inconsiderable, since not only do the substances to be disposed of have to be vaporised and heated to the required decomposition temperature, but enormous amounts of air also have to be heated up. In so doing either, as with incineration on the high seas, pollution of the atmosphere and the risk of acid rain have to be allowed for, or extremely expensive plants are required for keeping the air clean.
There is known from DE-A-33 13 889 a process or an apparatus for disposing of toxic and special waste, in which the toxic waste substances are mixed with an electrically conductive material, in particular in the form of iron powder and/or coke, and are brought in an induction furnace to the decomposition temperature of the toxic and/or special waste to be eliminated.
U.S. Pat. No. 4,435,379 discloses a process for decomposing chlorinated hydrocarbons with metal oxides with the aim of converting all carbon atoms into carbon monoxide. It is a question here of providing elemental chlorine for the conversion of hydrogen groups into HCI. The overall ratio of chlorine to hydrogen groups must be at least 1:1 here, in order to be able to produce metal chloride.
U.S. Pat. No. 4,587,116 discloses a similar process, in which nitrogen-containing waste substances can also be disposed of. The heating likewise takes place from the outside and not from the inside.
EP-0 306 540 discloses a process for recovering energy from substituted hydrocarbons such as are present e.g. as CCl
4
, CHCl
3
, C
2
H
2
Cl
4
, PCB, PVC, polyvinylidene chloride etc. in pure or bound form. In this process the waste material is decomposed thermally in an inductively heated reactor in the presence of a barely treatable metal oxide and an electrically conductive material, for example electrode coke or electrographite, and in contact with water vapour at temperatures of between 800 and 1100° C. A portion of the metal oxide that corresponds to the chloride content of the waste materials is there converted into volatile metal chloride. A portion of the liberated carbon is converted into carbon monoxide and the portion of the carbon not reacting on the metal oxide is converted to water gas (CO+H
2
) with the aid of a stoichiometric amount of water vapour.
It is the object of the present invention to develop a process which makes it possible to dispose of various halogenated and non-halogenated waste materials in an environmentally friendly manner.
This object is achieved according to the invention by a process for disposing of halogenated and non-halogenated waste materials in which the halogenated and non-halogenated waste materials are reacted with metal oxide-containing products with the exclusion of oxygen at temperatures of 800° C. to 1100° C.
The process described here can be used for the environmentally neutral recycling of halogenated and non-halogenated waste materials.
The volume of the wastes used is largely reduced, so that as few residues as possible remain and as large a quantity as possible of metals/metal compounds is obtained. As positive an energy balance as possible is aimed at during the reaction.
In a preferred embodiment of the process, carbon-containing halogenated waste materials are reacted.
In an advantageous embodiment of the process, carbon dioxide is added as a fluidising gas.
Furthermore the reactor can also be supplied with carbon in the form of graphite and/or coal.
In a preferred manner a halogenatable metal oxide-containing product is used as a metal oxide-containing educt.
In a specific embodiment variant of the process according to the invention products which contain CaO, TiO
2
, SiO
2
, Al
2
O
3
and/or Fe
2
O
3
or a mixture thereof are used as halogenatable, metal oxide-containing reactants.
Various metal-oxide containing waste materials, such as silicon-containing residues from the metal-working industry, filter dusts, flue ashes, wind-blown sands, waste dumps, galvanic sludges, slags, slate residues etc., can also serve as reactants. Simple quartz, which consists about 98% of silicon dioxide (SiO
2
), is the simplest possible material which can be use for the conversion.
All of the above-mentioned materials are characterised by the fact that they contain a relatively high content of halogenatable metal oxides (CaO, SiO
2
, TiO
2
, Al
2
O
3
, Fe
2
O
3
etc.
This has the resultant advantage that materials containing metal oxides not treatable with economic agents to date now acquire a useful application.
Solvents such as carbon tetrachloride, chloroform, methylene chloride, tetra- and trichloroethylene, tetrachloroethane, coolants or refrigerants, PCB, pesticides, fungicides and herbicides, halogenated plastics such as PVC can be used as halogenated waste materials.
A portion of the metal oxide that corresponds to the chlorine content of the waste materials is converted into metal chloride by the above-mentioned process. Ecologically and economically useful metal chlorides are obtained, wherein silicon and titanium tetrachloride (SiCl
4
, TiCl
4
,) represent particularly preferred products.
Other materials such as spent oils, lubricants, fats, paints, dyes, tars, waxes, plastics, coolants and solvents, brake fluid or similar non-halogenated substances and materials can also be disposed of.
The reaction or conversion products preferably formed thermodynamically under these process parameters are hydrogen (H
2
), which primarily occurs in gaseous form, together with smaller volumes in percentage terms of methane (CH
4
).
The formation of environmentally dangerous or environmentally polluting, gaseous substances such as carbon monoxide (CO), as well as the carbon dioxide (CO
2
) known as a so-called greenhouse gas, is, under the preferred reaction conditions, negligibly small. Only at temperatures above 1100° C. can CO or CO
2
be formed by chemical decomposition processes.
The conversion takes place in a fluidised bed reactor. The latter can be constructed either from special ceramics, silicon carbide (SiC) or specially alloyed steels.
The reactor can be brought to the required operating temperatures either by the use of electric heating elements (e.g. heating half-shells) or by the use of an induction heater. The temperatures required for the conversion lie in the range from 800° C. to 1100° C. The reaction itself takes place with the exclusion of oxygen. Carbon dioxide (CO
2
) is used as the fluidising gas.
The halogenated compounds are decomposed into their simplest constituents by the high temperatures. In the case of chlorinated hydrocarbons, hydrogen chloride, hydrogen, alkanes and chlorine gas are formed. The chlorine gas and the hydrogen chloride serve as chlorinating agents for the metal oxide-containing products or wastes. Products of this chlorinating reaction are the thermodynamically preferred metal chlorides.
In addition to the chlorides, hydrogen and carbon monoxide are formed, which can be used as a synthesis gas either for the obtaining of electrical energy or for other chemical syntheses, for example the methanol synthesis.
2H
2
+CO═CH
3
OH Reaction equation
The carbon dioxide (CO
2
) used as the fluidising gas is converted comple
Johnson Edward M.
Pac Holding S.A.
Silverman Stanley S.
Smith Gambrell & Russell
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