RU2016118961A - A method for automatically determining the specific flow rate of circulating gases of a dry coke quenching plant and a device for its implementation (options) - Google Patents

Claims (63)

³ 1. A method for automatically determining the specific flow rate of circulating gases of a dry coke quenching unit, which contains: vertically oriented shaft, in the upper part of which there is a prechamber, an extinguishing chamber with a system of oblique passages, which is located under the said prechamber and the lower part of which is made in the form of a cone for unloading coke from the said extinguishing chamber, gas circulation system with a blasting device located in the lower part of the quenching chamber, means for discharging coke from said quenching chamber, which is adjacent to said lower conical part of the quenching chamber, characterized in that according to the aforementioned method measure: the temperature of the hot circulating gases in oblique passages behind the quenching chamber, until air is added to them to burn the combustible components, on the basis of which determine: the amount of heat (Q ₁ ) transferred to the circulating gases 1 kg of hot coke, the amount of heat (Q ₂ ) received from hot coke 1 m ³ circulating gases under normal conditions, then determine the specific consumption of circulating gases in the following ratio:

where b is the specific consumption of circulating gases of the dry quenching of coke, nm ³ / kg; Q ₁ - the amount of heat transferred to the cooled circulating gases 1 kg of hot coke; Q ₂ - the amount of heat received from hot coke 1 m ³ circulating gases under normal conditions. 2. The method according to p. 1, in which Q ₁ and Q _{2 are} determined by the following ratios:

Where

- the heat content of the hot circulating gases behind the quenching chamber, until air is added to them for the afterburning of combustible components,

at

at

, A = 330, B = 51.4 when using the “calorie” heat unit in the calculations; A = 1380, B = 215 when using the unit of heat "joule" in the calculations;

- temperature and heat capacity of hot coke in the lower part of the prechamber;

- the temperature and heat capacity of the quenched coke after the blowing device along the coke;

- temperature and heat capacity of the hot circulating gases at the exit of the quenching chamber in oblique passages until air is added to them to burn the combustible components;

- temperature and heat capacity of the circulating gases in front of the quenching chamber. 3. The method according to p. 1, in which additionally measure: temperature of hot coke in the lower part of the prechamber, the temperature of the circulating gases that are supplied to the quenching chamber from the said circulation system, the temperature of the quenched coke after the blowing device along the coke, based on the above data, Q ₁ and Q ₂ are determined by the following relationships:

Where

- temperature and heat capacity of hot coke in the lower part of the prechamber;

- the temperature and heat capacity of the quenched coke after the blowing device along the coke;

- temperature and heat capacity of the hot circulating gases at the exit of the quenching chamber in oblique passages until air is added to them to burn the combustible components;

- temperature and heat capacity of the circulating gases in front of the quenching chamber. 4. The method according to p. 3, in which the temperature of the quenched coke is measured in the quenching chamber under the blasting device in the lower conical part of the quenching chamber along the coke. 5. The method according to claim 3, in which the dry coke quenching unit further comprises a gas recirculation loop from the coke unloading means to said circulation system, wherein the quenched coke temperature is determined by measuring the temperature of the recirculated gases in said gas recirculation loop. 6. A device for automatically determining the specific consumption of circulating gases of a dry quenching coke plant according to the method of claim 2, characterized in that it contains: at least one temperature sensor for hot circulating gases in oblique passages behind the fire extinguishing chamber, before air is added to them for afterburning of combustible components, a block of tabular values of the specific heat of coke and gases at various temperatures, the first unit for calculating the amount of heat transferred to the circulating gases 1 kg of hot coke in the quenching chamber (Q ₁ ), a second unit for calculating the amount of heat received from coke 1 m ^{3 of} circulating gases under normal conditions (Q ₂ ), while said second unit is connected at the inlet to said hot temperature sensors and said table values unit, the third unit for calculating the specific consumption of circulating gases, connected at the inlet to the aforementioned first and second blocks. 7. A device for automatically determining the specific flow rate of circulating gases of a dry coke quenching plant according to the method of claim 3, characterized in that it contains: at least one temperature sensor for hot coke, which is located at the bottom of the prechamber, at least one temperature sensor of the quenched coke, which is located under the blasting device in the lower conical part of the quenching chamber, at least one temperature sensor for hot circulating gases in oblique passages behind the fire extinguishing chamber, before air is added to them for afterburning of combustible components, at least one temperature sensor cooled in the waste heat boiler circulating gases that are fed into the blower device, a block of tabular values of the specific heat of coke and gases at various temperatures, a first unit for calculating the amount of heat transferred to the circulating gases of 1 kg of hot coke in the quenching chamber (Q ₁ ), said first unit being connected at the inlet to said hot and quenched coke temperature sensors and said table values unit, a second unit for calculating the amount of heat received from the coke 1 m ³ circulating gases under normal conditions (Q ₂ ), while the said second unit is connected at the inlet with the temperature sensors for hot and cooled circulating gases and the unit table values, the third unit for calculating the specific consumption of circulating gases, connected at the inlet to the aforementioned first and second blocks. 8. A device for automatically determining the specific flow rate of circulating gases of a dry quenching coke plant, according to the method described in claim 5, characterized in that it contains: at least one temperature sensor for hot coke, which is located at the bottom of the prechamber, at least one recirculating gas temperature sensor in said recirculation loop, at least one temperature sensor for hot circulating gases in oblique passages behind the fire extinguishing chamber, before air is added to them for afterburning of combustible components, at least one temperature sensor of the cooled circulating gases that are supplied to the blowing device, a block of tabular values of the specific heat of coke and gases at various temperatures, a first unit for calculating the amount of heat transferred to the circulating gases 1 kg of hot coke in the quenching chamber (Q ₁ ), said first unit being connected at the inlet to said temperature sensors for hot coke and recirculating gases and said unit of tabular values, a second unit for calculating the amount of heat received from coke 1 m of circulating gases under normal conditions (Q ₂ ), while the second unit is connected at the inlet to said temperature sensors for hot and cooled circulating gases and a unit of tabular values, the third unit for calculating the specific consumption of circulating gases, connected at the inlet to the aforementioned first and second blocks.