Method for cooling a hot-rolled material and corresponding cooling-line models
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C21D-009/00
C21D-008/02
출원번호
US-0369951
(2003-02-20)
우선권정보
DE-0029565 (2001-06-20)
발명자
/ 주소
Franz, Klaus
Weinzierl, Klaus
출원인 / 주소
Siemens Aktiengesellschaft
대리인 / 주소
Baker Botts L.L.P.
인용정보
피인용 횟수 :
9인용 특허 :
0
초록▼
To determine the temperature profile (Tm(t)) of a hot-rolled material (1) in a cooling line (5), a heat conduction equation which takes the following form ∂e∂t-div?[λ?(e,p)ρ·grad???T?(e,p)]=0where e is the enthalpy, λ the thermal conductivity, p the degree of phase transformation, ρ the density and
To determine the temperature profile (Tm(t)) of a hot-rolled material (1) in a cooling line (5), a heat conduction equation which takes the following form ∂e∂t-div?[λ?(e,p)ρ·grad???T?(e,p)]=0where e is the enthalpy, λ the thermal conductivity, p the degree of phase transformation, ρ the density and T the temperature of the rolled material at the rolled-material location and t is the time, is solved in a cooling-line model (4).
대표청구항▼
1. A method for cooling a hot-rolled material having a rolled-material cross section in a cooling line, comprising the following steps:a starting temperature is recorded for a rolled-material location upstream of the cooling line, a temporal quantitative coolant profile is determined on the basis of
1. A method for cooling a hot-rolled material having a rolled-material cross section in a cooling line, comprising the following steps:a starting temperature is recorded for a rolled-material location upstream of the cooling line, a temporal quantitative coolant profile is determined on the basis of a cooling-line model and predetermined desired properties of the rolled material, a coolant is applied to the rolled-material location in accordance with the temporal quantitative coolant profile which has been determined, and an expected temporal temperature profile of the rolled material at the rolled-material location across the rolled-material cross section is determined on the basis of the cooling-line model and the temporal quantitative coolant profile, wherein a heat conduction equation of the following form where e is the enthalpy, λ the thermal conductivity, p the degree of phase transformation, ρ the density and T the temperature of the rolled material at the rolled-material location and t is the time, is solved in the coolant-line model in order to determine the temperature profile in the rolled material.2. The cooling method as claimed in claim 1, wherein a finishing temperature is recorded for the rolled-material location downstream of the cooling line.3. The cooling method as claimed in claim 2, wherein the cooling-line model is adapted on the basis of a comparison between the recorded finishing temperature and an expected finishing temperature, which is determined on the basis of the expected temporal temperature profile.4. A method for cooling a hot-rolled metal strip, in particular a steel strip, having a strip thickness (d), in a cooling line, comprising the following steps:a starting temperature is recorded for a strip location upstream of the cooling line, a temporal quantitative coolant profile is determined on the basis of a cooling-line model and predetermined desired properties of the metal strip, a coolant is applied to the strip location in accordance with the temporal quantitative coolant profile which has been determined, and an expected temporal temperature profile of the metal strip at the strip location across the strip thickness (d) is determined on the basis of the cooling-line model and the temporal quantitative coolant profile, wherein a heat conduction equation of the following form where e is the enthalpy, x the position in the strip thickness direction, λ the thermal conductivity, p the degree of phase transition, ρ the density and T the temperature of the metal strip at the strip location and t is the time, is solved in the cooling-line model in order to determine the temperature profile in the metal strip.5. The cooling method as claimed in claim 4, wherein a finishing temperature is recorded for the strip location downstream of the cooling line.6. The cooling method as claimed in claim 5, wherein the cooling-line model is adapted on the basis of a comparison between the recorded finishing temperature and an expected finishing temperature which is determined on the basis of the expected temporal temperature profile.7. The cooling method as claimed in claim 1, wherein a degree of phase transition (p) is further determined in the cooling-line model on the basis of a differential equation which takes the following form 8. A cooling-line model for a hot-rolled material which is to be cooled in a cooling line and has a rolled-material cross section, said model comprising the following parameters:a starting temperature upstream of the cooling line is recorded of a rolled-material to be fed to the cooling-line model, a temporal quantitative coolant profile can be determined by means of the cooling-line model on the basis of predetermined desired properties of the rolled material, an expected temporal temperature profile of the rolled material at the rolled-material location across the rolled-material cross section can be determined by means of the cooling-line model and the temporal quantitative coolant profile, wherein the cooling-line model, in order to determine the temperature profile in the rolled material, includes a heat conduction equation of the following form where e is the enthalpy, λ the thermal conductivity, p the degree of phase transformation, ρ the density and T the temperature of the rolled material at the rolled-material location and t is the time.9. The cooling-line model as claimed in claim 8, further comprising a finishing temperature, recorded downstream of the cooling line of the rolled-material location.10. The cooling method as claimed in claim 9, wherein the cooling-line model can be adapted on the basis of a comparison between the recorded finishing temperature and an expected finishing temperature determined on the basis of the expected temporal temperature profile.11. A cooling-line model for a hot-rolled steel strip to be cooled in a cooling line, said strip having a thickness (d), said model comprising the following parameters:a starting temperature (T1), recorded downstream of the cooling line, of a strip location is fed to the cooling-line model, a temporal quantitative coolant profile is determined by means of the cooling-line model on the basis of predetermined desired properties of the steel strip, an expected temporal temperature profile of the strip at the strip location across the strip thickness (d) can be determined by means of the cooling-line model and the temporal quantitative coolant profile, wherein the cooling-line model, in order to determine the temperature profile in the strip includes the following heat conduction equation: where e is the enthalpy, x the position in the strip thickness direction, λ the thermal conductivity, p the degree of phase transformation, ρ the density and T the temperature of the strip at the strip location and t is the time.12. The cooling-line model as claimed in claim 11, further comprising a finishing temperature parameter recorded downstream of the cooling line of the strip location.13. The cooling method as claimed in claim 12, wherein the cooling-line model is adaptable on the basis of a comparison between the recorded finishing temperature and an expected finishing temperature determined on the basis of the expected temporal temperature profile.14. The cooling-line model as claimed in claim 8, wherein a degree of phase transformation (p) is determined using the following differential equation:
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이 특허를 인용한 특허 (9)
Giardiniere, Kevin John; Green, John Lewis; Ghosh, Ranajit; Gibson, Daniel James; Zurecki, Zbigniew, Apparatus and method for controlling the temperature of a cryogen.
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Weinzierl, Klaus, Method of operation for a cooling track for cooling a rolling product, with cooling to an end enthalpy value uncoupled from temperature.
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