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Method and device for realizing steel slag quenching and waste heat recovery by using water and carbon dioxide

A carbon dioxide and waste heat recovery technology, applied in the field of iron and steel metallurgy, can solve the problems of difficult to efficiently utilize low temperature sensible heat, difficult to efficiently utilize low temperature sensible heat, poor uniformity of steel slag particle size, etc. small area effect

Active Publication Date: 2020-04-10
JIANGXI UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] Poor particle size uniformity of steel slag: The current steel slag treatment processes, such as hot stuffing method, water quenching method, and drum method, have poor particle size uniformity of steel slag after treatment, and low efficiency of steel slag treatment;
[0007] Poor stability of steel slag: The content of unstable calcium oxide in steel slag after the current steel slag treatment process is high, the stability of steel slag is poor, and the utilization rate is low;
[0008] Low-temperature sensible heat in the heat exchange process of steel slag is difficult to use efficiently: the residual temperature of steel slag after recovering steel slag sensible heat in the conventional steel slag treatment process reaches about 300°C, and it is difficult to efficiently utilize low-temperature sensible heat below 300°C;
[0009] Long processing cycle: the traditional hot pouring and stuffy slag process often takes several days to complete

Method used

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  • Method and device for realizing steel slag quenching and waste heat recovery by using water and carbon dioxide
  • Method and device for realizing steel slag quenching and waste heat recovery by using water and carbon dioxide

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0071] The molten metallurgical steel slag adopts the steel slag produced in the converter workshop, and its composition contains 46.92% CaO, SiO 2 17.96%, Fe 2 o 3 17.73%, MgO 8.99%, Al 2 o 3 3.73%, P 2 o 5 1.76%, TiO 2 1.23%, MnO1.68%;

[0072] Process such as figure 1 shown, proceed as follows:

[0073] 1. Mix carbon dioxide and water vapor in the gas injection system to form a mixed gas; CO in the mixed gas 2 The volume fraction of the gas is 70%, and the rest is water vapor; the pressure of the mixed gas is 0.8MPa;

[0074] 2. The mixed gas is sprayed into the fluidized bed heat exchanger through the gas injection system, and discharged from the gas outlet of the fluidized bed heat exchanger, and enters the waste heat boiler; after being discharged from the waste heat boiler, it enters the gas circulation pipeline; the gas The circulation pipe is connected to the inlet of the gas injection system, and the middle part of the gas circulation pipe is connected...

Embodiment 2

[0091] The molten metallurgical steel slag adopts the steel slag produced in the electric furnace workshop, and its composition contains 49.64% CaO, SiO 2 41.64%, Fe 2 o 3 0.83%, MgO 0.16%, Al 2 o 3 4.23%, SO 3 0.62%, P 2 o 5 2.76%, MnO0.12%;

[0092] Method is with embodiment 1, and difference is;

[0093] (1) CO in the mixed gas 2 The volume fraction of the gas is 80%; the pressure of the mixed gas is 0.5MPa;

[0094] (2) The total amount of CaO in the molten metallurgical steel slag is 496.4kg; the total heat recovered by the waste heat boiler = 1.671×10 9 J; δCaO = 89%;

[0095] The heat recovery rate of molten metallurgical steel slag is 99.166%.

Embodiment 3

[0097] The molten metallurgical steel slag adopts the steel slag produced in the refining workshop, and its composition contains 39.89% CaO, SiO 2 31.68%, Fe 2 o 3 3.86%, MgO 12.73%, SO 3 1.13%, Al 2 o 3 4.92%, CaCO 3 2.42%, P 2 o 5 1.23%, MnO 2.14%;

[0098] Method is with embodiment 1, and difference is:

[0099] (1) CO in the mixed gas 2 The volume fraction of the gas is 90%, and the rest is water vapor; the pressure of the mixed gas is 0.3MPa;

[0100] (2) The total amount of CaO in the molten metallurgical steel slag is 398.9kg; the total heat recovered by the waste heat boiler = 1.5573×10 9 J; δCaO = 85.07%;

[0101] The heat recovery rate of molten metallurgical steel slag is 92.432%.

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Abstract

The invention discloses a method and device for realizing steel slag quenching and waste heat recovery by using water and carbon dioxide. The method comprises the following steps that carbon dioxide and water vapor are mixed; the mixed gas is blown into a fluidized bed heat exchanger through a blowing system, and enters a gas circulation pipeline through a waste heat boiler; a part of the gas is returned to the gas blowing system, and the rest of the gas is fed into an air distribution plate; the molten metallurgical steel slag is introduced into the fluidized bed heat exchanger for gas quenching, and steel slag particles are generated to be suspended under the action of airflow; high-temperature gas enters the waste heat boiler for heat exchange, and low-temperature gas is formed to entera gas circulation pipeline; when the temperature of the steel slag particles is below 800 DEG C, an exothermic reaction occurs; when the temperature of the high-temperature gas is 450 + / -5 DEG C, CO2is supplemented; when the temperature of the material is below 150 DEG C, the gas blowing system is closed; and the device comprises a steel slag chute, the fluidized bed heat exchanger and the gas blowing system. According to the method, the waste heat recycling efficiency of the steel slag is high, the stability of the steel slag is good, the occupied area is small, the treatment period is short, and the gas consumption is low.

Description

technical field [0001] The invention belongs to the technical field of iron and steel metallurgy, and in particular relates to a method and a device for realizing steel slag quenching and waste heat recovery by using water and carbon dioxide. Background technique [0002] In recent years, with the rapid development of my country's iron and steel industry, the accumulation of steel slag has increased year by year, which not only occupies a large amount of land, but also causes serious environmental pollution; the energy-saving society has higher and higher requirements for energy saving and consumption reduction of metallurgical enterprises. The development of high-efficiency recovery and utilization technology of metallurgical slag waste heat is an effective and practical energy-saving measure. Efficient and high-quality recovery of metallurgical slag sensible heat will become an important means for iron and steel enterprises to reduce comprehensive energy consumption; Heat is...

Claims

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Application Information

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IPC IPC(8): C21B3/06C21B3/08C04B7/147
CPCC21B3/06C21B3/08C04B7/147C21B2400/026C21B2400/024C21B2400/076C21B2400/08Y02P40/10Y02W30/50
Inventor 张慧宁董剑平左全琴魏超曹才放廖春发
Owner JIANGXI UNIV OF SCI & TECH
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