JP3098662B2 - Coal slurrying method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for making coal into a slurry, which makes it possible to liquefy coal in a short time and easily and to convert coal into a fluid mixed fuel.

[0002]

2. Description of the Related Art In recent years, coal has been reviewed as an energy fuel. In particular, as fuel for thermal power generation,
Because of cost advantages, liquefied coal may be used instead of oil and gas.

[0003] As a method of liquefying coal, coal is liquefied.
There has been a method in which ultrafine powder is formed into an 80 to 150 mesh, and a slurry is formed by adding water or heavy oil and an additive.

[0004] However, such conventional coal liquefaction methods are not economically viable and the hardness does not change even if the coal is pulverized. In such a case, there is a disadvantage that the pipe is worn by the coal.

[0005] As a method of liquefying coal at low cost,
There is one disclosed in Japanese Patent Publication No. 59-33637.

This is characterized in that coal and a distillate obtained from a palm plant are stirred to obtain a slurry-like substance, and the slurry-like substance is extracted with a solvent.

[0007] JP-B-59-44353 discloses a method in which a mixture of the above distillate and an alkaline solution is stirred to obtain a slurry-like substance, and the substance is extracted with a solvent.

[0008]

However, the above coal liquefaction method still has the following problems.

That is, it takes about 90 minutes to obtain a distillate from a palm plant, and about 90 to 120 minutes to obtain a slurry by stirring the distillate and coal. It took a long time to liquefy coal.

[0010] Further, the coal to be used is one which is pulverized to 100 mesh or less, and it takes a considerable time and effort to pulverize pulverized coal to 100 mesh or less.

That is, a large amount of energy is consumed, and the burden of the cost of the crushing processing equipment is increased. As a result, the productivity is low, and the cost is high.

An object of the present invention is to provide a method for converting coal into a slurry capable of solving the above-mentioned problems.

[0013]

According to the present invention, a surfactant is added to a fatty acid, an unsaturated fatty acid, or a vegetable oil containing a saturated fatty acid to form a stock solution, and calcium ion water is added to the stock solution. After mixing the mixed water and coal with the mixed water and stirring for a predetermined time, further adding magnesium sulfate or calcium chloride and stirring for a predetermined time to obtain a slurry-like coal liquid material. The present invention relates to a method of converting coal into a slurry.

The present invention also relates to a method for preparing fatty acids, unsaturated fatty acids,
And, a saturated fatty acid, a surfactant, a vegetable oil, and an alkyl ether / sulfuric acid ester sodium salt are mixed to form a mixed water, and the mixed water and coal are mixed and stirred for a predetermined time. Another feature is that calcium chloride is added and stirred for a predetermined time to obtain a slurry-like coal liquid.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the method for slurrying coal according to the present invention will be specifically described below.

First, the present inventors focused on the following points.

(A) Coal is an ancient plant buried underground and gradually becomes a crystal containing carbon due to pressure, heat, etc., and its components are cellulose as plant material,
It consists of hemi-semirose, lignin, resinous wax proteins, aliphatic compounds, and plant constituents such as water. In particular, most of water and oxygen are decomposed and lost.

Therefore, it is considered that coal can be softened and decomposed by absorbing water.

(B) Since coal is crystalline, it has no water absorption at all, but if oxygen and hydrogen are lost as water due to chemical action, it is similarly converted to hydrogen by reducing action of chemical action. That oxygen could be provided to the coal.

(C) Plants take water from the roots, absorb ionized metals, salts, acids and the like in the roots and form cells by photosynthesis. At that time, the pH is maintained at around 7. thing.

(D) All organisms, including plants, are born from seawater.

Therefore, among the chemical components contained in seawater, the following components in the order of increasing ion / g are the basis of living organisms, and this is considered to be largely related to the decomposition of coal. Be done.

(Chemical components contained in seawater) chloride ion (Cl ⁻ ), sodium ion (Na ⁺ ), sulfate ion (SO ₄ ²⁻ ), magnesium ion (Mg ²⁺ ), calcium ion (Ca ²⁺ ) , Potassium ion (K ⁺ ), hydrogen carbonate ion (HCO ₃ ⁻ ), bromide ion (Br ⁻ ), borate ion (H ₃ BO ₃ ⁻ ), strontium ion (Sr ²⁻ ). argument is to cause the conversion of coal chemistry ^- the action of an alkaline calcium ion water of 12 is, OH ^- absorption since it allowed the of, by adding alkaline calcium ion water to the coal is PH7 less, OH It has been found that it can give a golden effect.

[0024] The method for slurrying coal according to the present invention based on these findings is characterized in that fatty acids or unsaturated fatty acids,
Alternatively, a surfactant is added to a vegetable oil containing a saturated fatty acid to prepare a stock solution, and calcium ion water is added to the stock solution to form a mixed water, and the mixed water and coal are mixed and stirred for a predetermined time. Furthermore, it is characterized in that magnesium sulfate or calcium chloride is added and stirred for a predetermined time to obtain a slurry-like coal liquid.

Further, the present invention provides a method for preparing calcium ionized water,
Fatty acids, unsaturated fatty acids, and saturated fatty acids extracted from plants, surfactants, vegetable oils, alkyl ethers,
After mixing sodium sulfate to form a mixed water, mixing the mixed water and coal and stirring for a predetermined time,
It is also characterized in that magnesium sulfate and calcium chloride are added and stirred for a predetermined time to obtain a slurry-like coal liquid.

(First Embodiment) A stock solution is prepared by adding a surfactant to a fatty acid, an unsaturated fatty acid, or a vegetable oil containing a saturated fatty acid. It contains a large amount of activator and is easily available. Therefore, in this example, a commercially available detergent containing a vegetable oil component was used as a stock solution.

In addition, fatty acids or unsaturated fatty acids,
Alternatively, when a surfactant is prepared by adding a surfactant to coconut oil or other vegetable oil containing a saturated fatty acid, the mixing ratio of the two is not particularly limited.

Next, an aqueous solution in which oxygen and calcium are ionized and present in the above-mentioned stock solution, for example, calcium ionized water was added to obtain a mixed water.

This focuses on the fact that plant matter is contained in coal as described above, and it is possible to promote softening by adding oxygen to such plant matter. It was a good result.

In this embodiment, as the calcium ion water, a mixed solution of 3.3 liters of water and 3 g of calcium lactate was prepared by using a PH1 obtained by using an ionizer.
1.8 calcium ion water was used.

Next, a commercially available pulverized coal having a diameter of 3 mm or less and the above mixed water are mixed and stirred for about 5 minutes.
Slurry coal liquid was obtained by chemical reaction. The heat of reaction at this time was 40 ° C.

Further, when natural salt, oyster shell powder, and black volcanic ash are mixed into the slurry-like coal liquid and stirring is continued, the reaction heat becomes 48 ° C.
The stirring time was 10 minutes, and a coal liquid material with lower viscosity could be obtained.

It was also confirmed that the coal was decomposed and its structural components were melted out. From this, the following could be confirmed.

(A) When the slurry-like coal is washed with water,
A water-soluble substance that melts in dark brown color.

(B) When the slurry-like coal is washed with an aromatic solvent such as benzene or toluene, a substance similar to that of petroleum is melted out.

(C) When the slurry-like coal is washed with alcohol, the alcohol-based substance is melted out.

(Second Embodiment) In the previous embodiment, natural salt mixed with slurried coal, oyster shell powder,
And, from black volcanic ash, magnesium sulfate (Mg ²⁺ and SO ₄ ^2- )
Calcium chloride (Ca ²⁺ and 2Cl ⁻ ), calcium hydroxide (Ca (OH) ₂ ), magnesium chloride (Mg ²⁺ and 2Cl ⁻ )
Cl ⁻ ) were obtained, and these were used below.

First, a mixture of a surfactant, a fatty acid, a saturated fatty acid, an unsaturated fatty acid, an alkyl ether, sodium sulfate and vegetable oil extracted from a plant and the above-mentioned alkaline calcium ion water is used. When mixed with commercially available pulverized coal having a size of 3 mm or less and stirred, a chemical reaction occurred, and the coal became a slurry.
At this time, the reaction heat was 40 ° C., and the stirring time was about 5 minutes. Here, as the plant from which fatty acids, saturated fatty acids, and unsaturated fatty acids are extracted, it is more preferable to use plants that belong to the same family as coal in terms of classification.

Next, to the coal in the form of slurry,
When the above magnesium sulfate or calcium chloride, or both were added together and stirred for 10 minutes, the decomposition was further promoted, and a coal liquid substance having a lower viscosity could be obtained.

By the way, such magnesium sulfate or calcium chloride is generally known as a component contained in seawater. Therefore, similar results can be obtained by directly adding bittern produced from seawater. Was.

(Third Embodiment) The surfactant used in the second embodiment, and fatty acids and saturated fatty acids extracted from plants,
Solution A of a mixture of unsaturated fatty acid, alkyl ether, sodium sulfate, and vegetable oil, and B of calcium ionized water
Assuming that the liquid, magnesium sulfate were agent C, and calcium chloride was agent D, 200 g of pulverized coal (3 mm or less), 40 cc of solution A and 40 cc of solution B were placed in a stirrer, and stirred at 600 rpm or more for about 5 minutes.

The coal powder becomes a brownish brown slurry,
The heat of chemical reaction was 35 ° C. C in the slurry coal
When 1 gram of the agent and 1 gram of the D agent were mixed, and stirring was continued, a slurry state was obtained in which it was almost impossible to further stir in 10 to 20 minutes. The heat of reaction was 45 ° C.

(Fourth embodiment) 200 g of pulverized coal (3 mm or less), 40 cc of solution A and 30 cc of solution B were placed in a stirrer,
Stirring was performed at about rpm for about 5 minutes.

The coal powder becomes a brownish brown slurry,
The heat of chemical reaction was 40 ° C. C in the slurry coal
When 1 gram of the agent and 1 gram of the D agent were mixed, and the stirring was continued, a slurry state was obtained in which it was almost impossible to further stir in about 10 minutes. The heat of reaction was 53 ° C.

(Fifth Embodiment) 200 g of pulverized coal (3 mm or less), 30 cc of solution A and 20 cc of solution B were placed in a stirrer,
Stirring was performed at about rpm for about 5 minutes.

The coal powder becomes a brownish brown slurry,
The heat of chemical reaction was 43 ° C. C in the slurry coal
When 3 g of the agent and 3 g of the D agent were mixed, and the stirring was further continued, a slurry state was obtained in which it was almost impossible to further stir in about 10 minutes. The reaction heat was 57 ° C.

In the second to fifth embodiments as well, it was confirmed that the slurried coal was decomposed, and the coal was washed with water, a solvent such as benzene / toluene, or an alcohol. Similar results were obtained.

As described above, coal can be slurried in about 15 minutes, and if it is necessary to make the particles of such slurried coal smaller, the coal has already been softened, so that the coal can be easily crushed with a grinding device. Can be processed.

Thus, a method has been discovered in which a substance that easily decomposes coal is mixed with coal at normal temperature and normal pressure, and the coal is easily slurried by stirring for a short time.

Since the calcium dissolution temperature is 76.5 ° C., if the slurry-like coal is stirred and heated to the extent that it does not exceed the above-mentioned calcium dissolution temperature during the production, the production efficiency is further improved and the quality is improved. Improvement can also be achieved.

The slurry-like coal obtained by such a coal-slurrying method can be used as a fluid-mixed fuel, the structure of the slurry-like coal production plant is simple, and the energy in the production of slurry-like coal is high. The consumption is extremely low, the production time is short, and mass production is possible.

In addition, there is no separation of coal and water, so that marine transportation and tank storage are possible, and since the coal is softened, it is easy to ultrapulverize it, and pipelines, pumps, boilers, etc. Is not worn, and the inner surface of the fuel injection nozzle hole is less worn, so that the combustion efficiency can be improved.

Further, the existing oil-fired power generation equipment can be used as it is, which is more economical.

Therefore, it is very excellent in terms of economy and safety, and can greatly contribute to the development of industries requiring thermal power, and in particular can contribute to energy problems on the earth in order to eliminate oil. Furthermore, it can also contribute to environmental pollution countermeasures.

Further, it is possible to respond to recent technological trends such as coal gasification, combined power generation systems, combined plants, and recycling of aging oil power generation equipment. Improvement, CO ₂
Conversion to clean energy-saving fuel with low emission is possible in all fields.

[0056]

The present invention has the following effects.

That is, the slurry-like coal obtained by such a coal-slurrying method can be used as a fluid-mixed fuel, and (1) the structure of the slurry-like coal production plant is simple.

(2) Energy consumption in the production of slurry coal is significantly reduced.

(3) Slurry coal production time is short, and mass production is possible.

(4) No separation of coal and water, sea transportation,
And tank storage becomes possible.

(5) Since the coal is softened and can be easily pulverized, the pipeline, the pump, the boiler and the like are hardly worn, and the fuel injection nozzle holes are hardly worn.

(6) The combustion efficiency can be improved.

(7) Existing oil-fired power generation equipment can be used as it is, which is more economical.

The effects described above are produced, and therefore, they are very excellent in terms of economy and safety, and can greatly contribute to the development of industries that require thermal power. Energy problems and environmental pollution countermeasures.

Further, it is possible to respond to recent technological trends such as coal gasification, combined cycle systems, combined plants, and recycling of aging oil power generation facilities. Improvement, CO ₂
Conversion to clean energy-saving fuel with low emission is possible in all fields.

──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Akitaka Fukuchi Saga, Honjo-cho, Saga City, Saga Prefecture 522-19 (56) References JP-A-63-251498 (JP, A) JP-A-61-167436 (JP) JP-A-56-7640 (JP, A) JP-A-52-37907 (JP, A) JP-B-59-33637 (JP, B2) JP-B-59-44353 (JP, B2) (58) Field surveyed (Int.Cl. ⁷ , DB name) C10L 1/32

Claims (2)

(57) [Claims] 1. A stock solution obtained by adding a surfactant to a fatty acid, an unsaturated fatty acid, or a vegetable oil containing a saturated fatty acid, and adding calcium ionized water to the stock solution to form a mixed water. And agitating the mixture for a predetermined time, further adding magnesium sulfate or calcium chloride, and stirring the mixture for a predetermined time to obtain a slurry-like coal liquid material. To wherein the alkaline calcium ion water, fatty acids extracted from plants, unsaturated fatty acids and, a saturated fatty acid, a surfactant, a vegetable oil, and mixed water by mixing alkyl ether sulfate ester sodium c arm None, after mixing the same mixed water and coal and stirring for a predetermined time, further add magnesium sulfate, and calcium chloride and stir for a predetermined time to obtain a slurry-like coal liquid material, Slurry method.