CN1569719A - Process for direct production of cement and phosphoric acid from phosphate rock - Google Patents

Abstract

The invention discloses a process for direct production of cement and phosphoric acid from phosphate rock through the process of rotating kiln phosphoric acid production, which comprises, reclaiming waste heat from furnace charge for phosphoric acid production through heat exchangers, mixing with gypsum coagulation adjusting agent, treating with ball grinding equipment.

Description

Method for directly producing cement and phosphoric acid from phosphate ore

The technical field is as follows:

the invention relates to a method for directly producing cement and phosphoric acid by using phosphate ore, belonging to the technical field of phosphoric acid and cement production.

Background art:

various processes for producing phosphoric acid have been proposed. Among them, the American Industrial research corporation (ORC) proposed a method for producing phosphoric acid by using a rotary kiln, i.e., a KPA method (see phosphoric acid data compilation, No. 22, pages 24 to 39), and conducted a test on a test apparatus of a rotary kiln of phi 0.84 Nbx 9.14 m (US)No.4.389.384) is prepared by grinding phosphate ore, silica and carbonaceous reducing agent (coke powder or coal powder) to 50-85-325 mesh, adding 1% bentonite for pelletizing, drying and preheating, and feeding into a rotary kiln, wherein natural gas is used as heat energy, the temperature is controlled at 1400-1500 ℃, and CaO/SiO is added₂The molar ratio of the phosphorus-containing iron oxide to phosphorus-containing iron oxide is 0.26-0.55, the melting point of the pellets is higher than the reduction temperature of the phosphorus ore, phosphorus volatilizes from the pellets in the form of steam, the phosphorus is oxidized into phosphorus pentoxide by air in the middle space of the kiln, the heat released by oxidation is radiated to the pellet layer to supply the heat required after reduction, and the phosphorus-containing iron oxide is used for reducing the phosphorus content in the phosphorus ore₂O₅The kiln gas is hydrated and absorbed to obtain the phosphoric acid.

The existing cement type mainly comprises silicate cement clinker, set adjusting agent gypsum and the like.

Through the literature search, no public report that the phosphoric acid production process and the cement production process are combined together and phosphoric acid and cement can be simultaneously produced is found.

The invention content is as follows:

the invention aims to overcome the defects of the prior art and provide a method for combining a phosphoric acid production process and a cement production process and simultaneously producing phosphoric acid and cement.

The technical scheme of the invention is as follows: the method is combined by a process for producing thermal phosphoric acid by a rotary kiln and a process for preparing cement by recycling waste heat of furnace burden after producing phosphoric acid through a heat exchanger, then batching the furnace burden with a gypsum coagulation regulator and processing the mixture by ball milling equipment. The raw materials of the phosphoric acid production process are phosphate ore, silica, coal powder and bauxite according to CaO/SiO₂Mixing at a molar ratio of 0.6; grinding the mixture to 200-300 meshes, pelletizing the mixture by using clay as a bonding agent, preheating the mixture by using a dryer, heating and calcining the pellets in a cement rotary kiln at 1560 ℃, wherein the retention time of the pellets in the kiln is 2 hours, fuel introduced into the kiln in the calcining process is coal powder, and hot air is introduced to supply oxygen for phosphorus vapor so that the phosphorus vapor is oxidized into P₂O₅And release heat energy, and the generated CO is combusted and oxidized into CO₂And release heat, producing P-containing₂O₅The kiln gas is dedusted and cooled by a cyclone dust collector, and then entersPutting the mixture into a hydration tower for hydration and absorption to prepare phosphoric acid; after the ball material is taken out of the kiln, the waste heat is recovered (rotary heat exchanger), the temperature is reduced to about 100 ℃, gypsum is added, and the mixture enters a ball mill for grinding to prepare the portland cement.

The reaction formula of the materials in the rotary kiln is as follows:

1.

2.

3.

the equipment used in the invention is the existing known equipment.

Compared with the prior art, the invention has the following advantages and positive effects:

1. the new formula of the portland cement raw material is optimized, modified and combined, two products can be produced by the same production method, and the cement production cost is greatly reduced.

2. The process of the invention can improve the equipment utilization rate and equipment benefit of the existing rotary kiln cement device.

3. The invention fully utilizes the heat energy released by CO combustion and phosphorus steam oxidation generated by reduction reaction, can greatly reduce the external heat energy supply of the kiln, and effectively reduces the heat energy consumption of cement clinker production.

4. The raw materials are dried and preheated by the recovered heat of the kiln clinker, so that the heat energy can be saved, the calcination time of the raw materials can be shortened, the energy is saved, and the yield can be improved.

5. The invention solves the problems of waste residue, waste water and waste gas discharge in phosphoric acid production, and belongs to an environment-friendly process.

Description of the drawings:

the attached drawing is a process flow schematic diagram of the invention.

The specific implementation mode is as follows:

phosphorus ore (containing P)₂O₅27%), silica (containing SiO)₂98 percent of coal powder (containing 80 percent of fixed carbon), bauxite (containing Al)₂O₃35%) based on CaO/SiO₂Mixing at a molar ratio of 0.6, fine grinding to 250 mesh>80%, mixing with slurry to make balls, drying 70% of the balls with a diameter of 15mm at 500 deg.C, feeding the dried balls into a rotary kiln with a length of 10.2 m and an internal diameter of 0.8 m, which has been preheated to 1300 deg.C, heating, and allowing the materials to stay in the kiln for 2 hr to obtain the final product containing P₂O₅The kiln gas is dedusted and cooled by a rotary dedusting device, and then enters a hydration tower for hydration absorption to prepare the H-containing gas₃PO₄85% phosphoric acid; and after the ball material is taken out of the kiln, cooling to 100 ℃, adding gypsum, and grinding in a ball mill to obtain the portland cement.

Claims (1)

1. A method for producing cement and phosphoric acid directly from phosphate ore, including the process for producing phosphoric acid of rotary kiln, characterized by that it also includes the process for preparing cement after the waste heat recovery of furnace charge after producing phosphoric acid through the heat exchanger, batching with gypsum setting regulator, process by the ball-milling apparatus;the raw materials in the procedure of drying the ingredients of the invention are phosphate ore, silica, coal powder and bauxite according to CaO/SiO₂Mixing at a molar ratio of 0.6; the dehydrated ball materials enter a rotary kiln to be calcined at 1560 ℃, the retention time of the ball materials in the kiln is 2 hours, and the fuel introduced into the kiln in the calcining process is coal powder; the ball material adhesive is clay.