SE451198B - Aq. coal dispersion contains dispersant contg. aromatic rings - Google Patents

Abstract

The dispersion contains: (i) at least 55 wt.% pulverised coal, the surface of which has been modified by adsorption of switterionic or other hydrophobising substances, added during flotation and/or dewatering; (ii) water; and (iii) as dispersant, an additive whose mol. has a hydrophobic segment with a strong affinity for the coal surface, contg. at least 2 aromatic rings, and attached to it an anionic or nonionic hydrophilic polymer chain or an anionic or nonionic graft copolymer with amphiphilic properties. Coal flotation may be effected with the addn. of one or more of aliphatic alcohols, frothing agents, zwitterionic surfactants (e.g. lecithin) and alkyl sulphosuccinates. Surfactants which may be added during dewatering are alkylaryl sulphonates and alkylsulphosuccinates. The dispersion is useful for transporting coal, and as an alternative to oil for steam prodn. or heating. Only half the concn. of dispersant is needed for the same effect on rheology as of conventional dispersants.

Description

451 198 however, significant technical difficulties despite a large investment in technical development.

Physical conversion is another method of transferring carbon in liquid form, and it is thus this method to which the invention relates. It takes place by dispersion in a liquid, which can consist of water alone or in combination with some organic fuel such as fuel oil, methanol, etc.

One of the problems in the production of hydrocarbon fuel is that during the removal of contaminants, often with chemical additives, the surface structure of the carbon is modified and dispersion of the carbon particles in a later process step can thereby be made more difficult.

In order to facilitate the dispersion of the carbon particles, their surface structure according to the invention is modified in that the ionic surfactant polymer in a dispersion of the kind initially indicated is of the nature stated in any of Claims 1, 3 and 6.

In the stabilization of hydrocarbon dispersions which are by definition thermodynamically unstable, the application of the invention reduces the sedimentation and aggregation rates by creating a barrier which counteracts particle attraction. This repulsive effect can be achieved by three main principles: electrostatic and steric stabilization and stabilization by means of hydrating forces. The stabilization changes the particles' energy and / or creates a high barrier to their approach. Based on these principles, by adding small amounts of organic additives, high levels of carbon particles in an aqueous solution can be stabilized.

Trying to create new colloidal systems requires that the system 451 198 be given such properties that the attractiveness between the particles is minimized and a repulsive barrier against flocculation and subsequent sedimentation is developed. Some form of steric stabilization using hydrophilic polymers creates favorable conditions for long-term stabilization of hydrocarbon dispersions.

In the manufacturing process of hydrocarbon fuels, some form of purification from inorganic constituents is often used.

Primarily, the carbon is ground down in one or more mills to a polydisperse particle size distribution. All particles are less than about 300 square meters and about 35% of the total amount is less than 40 square meters.

In the production of hydrocarbon fuel according to the present invention, a flotation enrichment of the carbon is included as a main process step, which separates carbon and pollutants by selective hydrophobia and charging. Different types of reagents are used, which usually consist of mixtures of aliphatic alcohols together with a foaming agent. Other reagents suitable for carbon flotation are mixtures of zwitterionic surfactants and water-insoluble oils together with foaming agents and sparing amounts of alkyl sulfosuccinates.

After the flotation process, the carbon is mechanically dewatered through, for example, a rotating vacuum filter. The use of surfactants in dewatering coal has been studied on both a laboratory and pilot scale. Two main types of surfactants have emerged that improve the degree of dewatering. l / Surfactants that change the surface tension of water 2 / Substances with hydrophobic properties Of the first main type, anionic surfactants have been found to be 451 198, most suitable. Examples of surfactants that are useful are alkyl aryl sulfonates and alkyl sulfosuccinates.

In the final process step in the production of the hydrocarbon fuel, a dispersant and possibly a stabilizer are added. Prior art dispersants for carbon monoxide in water or oil include, for example, anionic polynaphthalene sulfonates, polycarboxylic acids and nonionic ethylene oxide derivatives.

It is previously known that the total amount of dispersant, calculated as a percentage by weight of the whole dispersion, is absolutely decisive for the physical properties of the dispersion. Apart from carbon, the dispersant is one of the major cost items in the preparation of the dispersion.

It has also been found that different carbon requires different types of dispersants, so the present invention provides a method of effecting dispersion of the carbon particles with the same type of base compound but with varying charges. Particularly effective dispersants are built around a hydrophobic aromatic moiety and one or more hydrophilic ethylene oxide chains.

The charge of the molecule may be anionic, cationic or preferably zwitterionic. The charge on the molecule is varied with the carbon's own surface charge.

Among zwitterionic compounds of this type, a zwitterionic alkylaryl ethoxylate is suitably selected such as, for example, sodium softmenethoxymethyl tauride. The compound is most easily prepared by reacting the terminal hydroxide group of nonylphenol ethoxylate with sulfonyl chloride, allowing the resulting halide to react with sodium methyl tauride. a? 451 198 Total compound of the compound CXHyAr - 0 (C2H40) nCaHbN (CH3) CcHdSO3Na Other zwitterionic compounds which are excellent dispersants for certain carbons are ethoxylated quaternary nitrogen sulphate. This type of compound is sold commercially by GAF under the tradename PC-37.

Cationic compounds useful in the invention are primarily based on pyridine and quinoline. Common to all is an aromatic ring structure with hydrophobic properties. Pyridine reacts with ethers to form alkoxymethylpyridine compounds. A further characteristic of these cationic dispersants is that they contain at least 50 ethylene oxide units.

Among the anionic dispersants which, due to their higher price, find smaller applications, however, may be mentioned salts of alkylaryl ethoxylate. Anionic compounds of this type are most useful for hydrophilic carbons.

All dispersants according to the invention have molecular weights above 1500 and are soluble in water.

The invention is described by way of illustration. The emulsion (0, D3 weight percent of the carbon) is fed to the grinding step of the fuel manufacturing process. In a mixing step immediately before the flotation step, a preparation consisting of lecithin, hexadecane and methyl isobutyl ketone in the ratio l / 512 is added. The total amount of additive and the composition can be varied for different carbon grades (0,01 - 0,05% by weight of the carbon). After the flotation process, a small amount of alkyl sulfosuccinate (10 - 0 g / ton of carbon) is added to improve the degree of dewatering in the filter. The filter cake contains between l5 and 22% moisture. 2 / About 90 grams of the moist purified carbon filter cake from the process (22.2%) is homogenized and mixed well with 0.25 grams of dispersant dissolved in water, consisting of an ammonium salt of nonylphenoxypolyethyleneoxyethanol with a molecular weight of about 5000.

By varying the concentration of the aqueous solution with respect to the dispersant, the resulting carbon content of the mixture is controlled to 70%. The dispersion thus obtained has excellent properties for transport and direct combustion as a liquid fuel.

In the production of hydrocarbon fuels based on hydrophobic coal, zwitterionic or cationic dispersants are used in an analogous manner.

To achieve storage stability, coalescence stability and sedimentation, a gelling agent can be added to the dispersion. The gel can be both reversible and irreversible. Reversible gelation can be achieved, for example, with small amounts of polysaccharide, xanthan gum, guar gum, alginate or any modified starch in combination with any metal ion, for example aluminum or boron. The reversible gelling process can be controlled by changing the temperature or pH.

H. t) 451 198 Irreversibility of the co-water dispersion can be done, for example, with different acids, bentonite, kinals, etc. The fuel product obtained now has a clear pseudopiastic rheology.

Coal water fuel has proven to be a very good oil substitute for both heat and steam production. The fuel is purified from large amounts of inorganic pollutants and, from an environmental and handling point of view, is preferable to conventional coal technology.

Claims (7)

1. 9 20 25 30 35 g n a d 451 198 PATENT CLAIMS l. Dispersion containing water, additives and powdered carbon, the surface of which is modified by adsorption of zwitterionic or other hydrophobicizing substances, the carbon content being at least 55% by weight of the dispersion, at least one additive contained in the dispersion is an ionic surfactant polymer containing at least one hydrophobic moiety with affinity for the carbon surface and at least one water-soluble moiety based on ethylene oxide with a molecular weight exceeding 1000, characterized in that the additive, which has a zwitterionic charge, contains zwitterionic groups of imidazoline derivatives, betaine derivatives, zwitterionic amino acid derivatives or lecithin derivatives. Dispersion according to Claim 1, characterized in that the additive is a zwitterionic salt of an ethoxylated quaternary nitrogen compound or a zwitterionic alkylaryl ethoxylate. Dispersion containing water, additives and powdered carbon, the surface of which has been modified by adsorption of atherosclerotic or other hydrophobic substances, the carbon content being at least 55% by weight of the dispersion, at least one additive contained in the dispersion is an ionic surfactant polymer containing at least one hydrophobic moiety with affinity for the carbon surface and at least one water-soluble moiety based on ethylene oxide with a molecular weight exceeding 100, characterized in that the hydrophobic part is composed of one or more aromatic groups and that the additive, which has cationic charge, is an ethoxylated cyclic alkylammonium compound. Dispersion according to Claim 3, characterized in that the additive is based on an unsaturated heterocyclic compound containing at least one of the groups pyridine, quinoline, isoquinoline, benzindazole, benzthiazole, benztriazole, Dyrrolidine, imidazole or derivatives thereof. .a Beer 20 451 198 groups. Dispersion according to claim 3, characterized in that the additive is based on a saturated nitrogen compound containing at least one of the groups piperidine, morpholine or derivatives thereof. Dispersion containing water, additives and powdered carbon, the surface of which has been modified by adsorption of zwitterionic or other hydrophobic substances, the carbon content being at least 55% by weight of the dispersion, at least one additive contained in the dispersion is an ionic surfactant polymer containing at least one hydrophobic moiety with affinity for the carbon surface and at least one water-soluble moiety based on ethylene oxide with a molecular weight exceeding 1000, in that the hydrophobic moiety is composed of one or more aromatic groups and that the additive, which has an anionic charge, is a salt of an alkylaryloxyethyleneoxy alcohol. Dispersion according to claim 6, characterized in that the additive is an ammonium salt of an alkylphenoxypolyethyleneoxyethanol.