DE4026201A1 - Treatment of flue gas - Google Patents

Abstract

Prodn. of hydrocarbons from flue gas is effected by (a) burning the hydrocarbon and/or c-contg. components of the flue gas to obtain a gas contg. C02 and/or C0 and H20 vapour, and (b) using the gas for hydrocarbon synthesis. Pref. Step (a) is effected using a substoichiometric amt. of 02 to favour C0 formation. A reducing agent (esp. waste oil or plastics) and H20 may be injected into the gas from step (a) to increase the C0 and H2 content. The amt of H20 injected is pref. sufficient to give an H20:C0 ratio of 1-15:3. Step (b) is effected by reaction with H2 in the presence of a catalyst. The resulting hydrocarbons may be converted to HCHO.

Description

In German patent application 37 35 061 and PCT / EPA 88/00 927 "Process for the disposal of waste by Ver burn with oxygen "is a procedure described the one that uses organic matter instead of Combustion air burned with high percentage oxygen will. Waste includes household waste, Special waste, shredded rubble and the like mentioned wor the.

The waste is in a suitable furnace with oxygen burned, the exhaust gases cooled in a waste heat boiler and then in a suitable gas purification plant from pollutant fen largely exempt.

In the course of this combustion process, existing coals are formed Mainly substances containing substances and / or carbon Burned carbon dioxide and water.

Because the nitrogen that burns with air as ballast is present, is missing, the combustion gases have only ge rings nitrogen contents depending on the nitrogen stop in the waste to be incinerated. Is carbon dioxide an undesirable combustion product nowadays as it too so-called "greenhouse effect" contributes.

Many methods are known from literature and practice knows in which carbon oxides to hydrocarbons under diverse composition - using suitable Catalysts - are hydrogenated.  

There are z. B. Fischer-Tropsch gasoline synthesis

n CO + 2n H₂ = n CH₂ + n H₂O

or the methanol synthesis

CO + 2 H₂ = CH₃OH

mentioned.

Carbon monoxide and water vapor can also be used mixture ratios and certain catalysts in convert various hydrocarbons, such as H. Kölbel and Engelhardt have proven.

m CO + n H₂O = o CH₂ + p C₂H₅OH + q CO₂

The hydrogenation of carbon dioxide with hydrogen is just if possible, such as B. EPA 00 79 207 "Process for the production of hydrocarbons and oxygenated derivatives there of by the catalytic hydrogenation of cabondioxide "shows.

m CO₂ + n H₂ = o CH₄ + p CH₃OH + q CO

While generally for the synthesis of hydrocarbons specially made so-called synthesis gases were used, but also synthesis with blast furnace gas and water sergas have been carried out, Josef H. Schick, DE 35 25 479, proposed for the first time from the combustion of gases convert the resulting CO ₂ at high temperature with methane and water vapor into a gas consisting mainly of CO and H ₂ , which is suitable as a synthesis gas for various synthetic products.

The invention has for its object with simple and economic means of burning coal Substances containing substances and / or hydrocarbons with high  to change the percentage of oxygen in the flue gases and treat that carbon oxides contained therein can be used.

In contrast to the Schick method, in which it is proposed the fuel generated by catalysis or that generated by reduction with a hydrocarbon gas Burning synthesis gas with oxygen is used in the Neuar The primary burning method proposed here substance, namely containing carbon or hydrocarbon Materials such as B. garbage, shredder debris, special waste and the like, burned with oxygen, as in the German patent application 37 35 061 is described, and the carbon oxides and - If necessary - water vapor are in various ways and manner in hydrocarbons of various compositions tion, also using catalysts.

A possible reduction of the CO ₂ contained in the flue gas and - if appropriate - also of the H ₂ O, in contrast to the "Schick" proposal, is not carried out with a hydrocarbon-containing gas, but rather by injecting liquid waste-hydrocarbons, such as, for. B. waste oil, solvents and the like Chen, or other reducing substances.

Usually the flue gases from the waste scorch contain with oxygen, as mentioned above, mainly Carbon dioxide and water vapor.

However, if you burn with an oxygen deficit, leave certain CO levels in the flue gas occur.

A second option is to complete one first combustion of carbon and / or hydrocarbon substances containing oxygen with carbon dioxide and Steam and then by injecting rivers waste hydrocarbons and water into the hot  Flue gas to produce a synthesis gas that is mainly made up of

CO and H ₂ exists.
C₃H₈ + 3 H₂O = 3 CO + 7 H₂
C₃H₈ + 3 CO₂ = 6 CO + 4 H₂

The greater the ratio of hydrogen to carbon in the Hydrocarbon is waste, the smaller the amount of the waste hydrocarbons required.

The further possibility of generating CO in the exhaust gas is to first carry out a complete combustion of the carbon- and / or hydrocarbon-containing substances with oxygen to form carbon dioxide and water vapor and then into the hot exhaust gas in front of the waste heat boiler by injecting liquid waste hydrocarbons Reduce carbon dioxide to carbon monoxide. At the same time, water is injected into the hot gas in the amount and converted into steam, as is necessary for a favorable ratio of H ₂ O to CO. Kölbel and Engelhardt state the ratio H ₂ O: CO as 1.0-1.5: 3.

If you pass this resulting gas mixture at normal pressure or increased pressure at temperatures from 220 ° C to 300 ° C With suitable catalysts, hydrocarbons are formed different composition.

However, the flue gases containing CO ₂ can also be hydrogenated directly with H ₂ .

The required hydrogen can also be obtained by breaking down what water can be obtained, the resulting oxygen immediately for the combustion of the carbon and / or kohlwas substances containing hydrogen can be used.

The energy for water separation is more advantageous way from the combustion of the carbon and / or coal hydrogen-containing substances themselves.  

The conversion of CO ₂ with NH ₃ to urea is a method that has been tried and tested in practice and can also be carried out with the CO _{2 of} the flue gases from combustion with oxygen.

Urea is the starting material for numerous chemical pro products, e.g. B. fertilizers and urea or melamine resins.

The new method is described as follows:

version 1

The combustion of carbon and / or hydrocarbonaceous substances with oxygen is carried out in such a way that an oxygen deficit is used so that the flue gases contain more CO than CO ₂ .

The flue gases leave the incinerator with a Temperature above 1200 ° C, pass through a waste heat boiler and after cooling to approx. 300 ° C in a gas cleaning system, e.g. B. a high temperature fabric film made of Teflon, dusted.

Then - if necessary - after the in syntheses, the usual way of further un desired components cleaned and then in a usual and known synthesis device using appropriate catalysts is equipped in the desired hydrocarbons or oxygen-containing Converted hydrocarbon derivatives.

Variant 2

The combustion of carbon and / or carbon water Substances containing substances with oxygen take place accordingly according to the regulations of the above-mentioned patent wrote completely. In the hot smoke gases  hydrocarbon-containing liquid waste materials, such as e.g. B. PCB-containing waste oil or the like, before Injected waste heat boiler. This results in an order change

CO ₂ + H ₂ O + KW = CO + H₂.

The further process steps - cooling, cleaning, Synthesis - correspond to variant 1, but with the Provided that the synthesis device and the catalyzer Tor the gas composition are adjusted.

Variant 3

This variant is a modification of variant 2 in that only CO ₂ is reduced to CO by injecting liquid waste hydrocarbons.

In addition, so much water is injected into the hot gases before or after the waste heat boiler that the optimum CO to H ₂ O ratio determined by Kölbel and Engelhardt is set depending on the desired hydrogen carbon compound.

Variant 4

In this variant, carbon and / or hydrocarbonaceous substances are completely burned with oxygen, so that the exhaust gas mainly contains CO ₂ and H ₂ O. After cooling in a waste heat boiler and cleaning in a gas cleaning system, as described in variant 1, hydrogen is added to the exhaust gas and the gas mixture is hydrogenated to hydrocarbons in a known, equipped with a suitable catalyst, synthesis system.

Variant 5

In this variant, the combustion and treatment of the exhaust gases are carried out as described in variant 4, but the exhaust gas is not reacted with hydrogen H ₂ , but with ammonia NH ₃ and urea is produced in the presence of known catalysts.

CO₂ + 2 NH₃ = CO (NH₂) ₂ + H₂O.

Figure 1 shows an example for variant 2.

The formula sales are only exemplary for explanation guided. Because of the complex composition of the burn other carbon or carbon components containing hydrogen.

Publications used:

DE 37 35 061
PCT / EPA 88/00 927
DE 35 25 479
DE 35 18 467
EPA 00 79 207
H. Kölbel, Fr. Engelhardt, Angew. Chemie 64 (1952), pp. 54-58,
J. Hollander, L. Spialter, Journ. of Chemical Education, vol. 35 [1958], pp. 446-449.

Claims (14)

1. A process for converting carbon monoxide, carbon dioxide and water, which occur when burning carbon and / or koh lenwasserstoffhaltigen substances with an oxygen-containing gas in the flue gas, characterized in that the carbon monoxide or carbon dioxide and water after treatment with Be a reducing agent, with the help of hydrogen and / or hydrogen-containing substances, after cooling and cleaning the gases converted into hydrocarbons. 2. The method according to claim 1, characterized in that one the combustion of the carbon and / or hydrocarbon carrying waste containing oxygen with a deficit of oxygen, to get a CO-rich flue gas. 3. The method according to claim 1, characterized in that one as a reducing agent liquid waste hydrocarbons in inject the flue gas. 4. The method according to any one of claims 1 or 3, characterized ge indicates that you put water in the hot flue gas injected or injected. 5. The method according to claim 4, characterized in that water is injected in such an amount that an H ₂ O: CO ratio of 1.0-1.5: 3 is established in the gas. 6. The method according to claim 1, characterized in that the flue gas containing predominantly CO ₂ and H ₂ O is reacted with ammonia to give urea. 7. The method according to claim 1, characterized in that the predominantly CO ₂ and H ₂ O containing flue gas is hydrogenated with water. 8. The method according to claim 7, characterized in that one the hydrogen required for the hydrogenation from the decomposition of water wins.   9. The method according to claim 8, characterized in that one the oxygen generated during the decomposition of water Combustion of the carbon and / or hydrocarbon hal waste used. 10. The method according to any one of claims 1 to 5, characterized ge indicates that the hydrocarbons with the help of Converts oxygen to hydrocarbon derivatives. 11. The method according to claim 10, characterized in that converts the hydrocarbons into formaldehyde. 12. The method according to any one of claims 1 to 11, characterized ge indicates that the conversion is carried out in the presence of Ka carries out. 13. The method according to any one of claims 1 to 11, characterized ge indicates that when the carbon burns and / or hydrocarbon-containing energy is used in the process. 14. The method according to claim 13, characterized in that the Energy for the production of hydrogen and oxygen is used.