Metal treatment – Process of modifying or maintaining internal physical... – Heating or cooling of solid metal
Reexamination Certificate
2001-03-02
2004-07-13
Ip, Sikyin (Department: 1742)
Metal treatment
Process of modifying or maintaining internal physical...
Heating or cooling of solid metal
C266S156000
Reexamination Certificate
active
06761779
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to improvements to the preheating of metal strip, especially steel strip, in direct-fired preheating sections installed, in particular, at the entry point of hot-galvanizing lines or in annealing lines.
BACKGROUND OF THE INVENTION
It is known that the direct-fired preheat before galvanizing or annealing, as carried out at the present time, fulfils three functions:
heating the strip;
removing the residues of rolling or protective oils present when the line is not fitted with a precleaning section; and
limiting or eliminating oxidation of the steel strip, inherent in burner heating.
In continuous lines produced according to the prior art, the preheating is carried out in a series of several zones, the temperature of which is controlled independently, usually four zones for high-capacity lines and two zones for low-capacity lines, each of these zones being fitted, for example, with four to six burners on each side of the furnace.
Strip galvanized or annealed in continuous lines varies in grade, width or thickness and it also runs at variable speeds. This has an effect on the heat demand of the furnace zones which may vary significantly. To allow for this variable heat demand, for example when the strip cross section is small or its speed is low, generally only a small number of these preheating zones are used, by shutting down the first zones in the direction of advance of the strip or by keeping them at a minimum thermal output equivalent to about 15 to 20% of their rated power.
In the latter case, particularly for preheating thinner products, little power is used.
To fully understand the technical problem solved by the present invention, reference should be made to
FIG. 1
of the appended drawings, which shows, schematically, in side elevation, an embodiment of a preheating plant comprising two preheating zones. Associated with this
FIG. 1
is
FIG. 1A
which shows the heating power used in the two preheating zones and the curve showing the variation in temperature of the strip in the said zones.
FIG. 1
shows that the plant for preheating the strip
1
comprises two preheating zones
2
and
3
. Each of these zones is fitted with burners
4
fed with combustion air via a manifold
5
and with fuel via a manifold
7
. The power injected in each zone is controlled by valves for adjusting the flow rate of oxidizer and fuel, respectively
6
and
8
. In this example, the heating power represented by the hatched area in the graph in
FIG. 1A
corresponds to 60% of the rated power of the second zone
3
, the first zone
1
operating at its minimum power, for example 15%. Curve
9
shows the temperature rise of the strip in the preheating zones. Under these conditions, the temperature of the gas and of the walls of the second preheating zone
3
stabilizes at low levels, of around 1150° C. or less.
It is known that oxidation of the strip is lower the higher the ambient temperature or the temperature of the walls of the zone of the direct-fired preheat furnace. In this regard, reference may in particular be made to the article “
Direct
-
fired heating in continuous hot
-
dip galvanizing lines
” published in No. 4/1991 of “MPT-Metallurgical Plant and Technology International”,
FIG. 2
of which is included in the appended drawings. Plotted in this figure on the y-axis is the thickness of the oxide layer formed on the surface of the strip, expressed in {dot over (a)}ngströms, as a function of the gas temperature or the wall temperature in the zone of the furnace, plotted on the x-axis, for a 650° C. exit temperature of the strip leaving the preheat zone. This figure shows that the formation of oxides is a maximum for gas or wall temperatures of 1150° C. and that it is much less for gas or wall temperatures above 1250° C.
It may also be seen that operation of the furnace under such operating conditions as are mentioned above puts the strip in a situation which maximizes its oxidation.
The oxidation formed on the surface of the strip under these conditions must be removed. This requires fitting, downstream of the preheat zone, a hold zone in an atmosphere containing hydrogen, this hold zone being long enough for the oxides formed to be removed by reduction. This reduction must be carried out at high temperature, which usually requires reheating the strip to levels which are often achieved only for the purpose of obtaining this reduction, although they are not necessary for the metallurgical treatment of the steel grade of the strip.
This lack of flexibility in controlling the heat supply in the preheat according to the prior art and the impossibility of placing the strip under conditions in which its oxidation can be limited generally results in strip temperatures which are the consequence of poor matching of the line to the operating conditions in question. The furnace design also stems from these imperfections and results in the production of long lines with substantial cooling equipment. It is obvious that this additional furnace length increases the cost of the plant, its size and both the maintenance and running costs.
BRIEF DESCRIPTION OF THE INVENTION
The objective of the present invention was to solve the above-mentioned technical problem by providing a novel process and an improved furnace for heating strip in direct-fired preheat sections with limited oxidation, for all production configurations (line speed, treatment characteristics, product characteristics, especially grade and cross section).
Moreover, this invention, apart from the improvement in the quality of the end-product that it provides, solves the problem of the plant size encountered in the abovementioned prior art, given that its implementation makes it possible to reduce the dimensions and consequently the costs of the annealing or galvanizing lines to which it is applied.
Consequently, this invention relates in the first place to a process for preheating metal, especially steel, strip in direct-fired preheating sections for the purpose of limiting the oxidation of the heated metal strip, whatever the production configurations, which consists in using a preheating zone that can be divided, along its length, into a plurality of zones of unit length corresponding to one burner, it being possible for each of the said burners to be operated individually under fixed conditions so as to accurately adjust its air/gas setting, and therefore the resulting atmosphere in the furnace, characterized in that a certain number of burners starting from the downstream end of the preheating zone are ignited, the length of the furnace zone affected by the ignition of the said burners and the length of the recovery zone, i.e. the zone in which the burners are extinguished, being variable depending on the heat demand and in that each burner operates at full power and with a constant air/gas setting.
Implementing the process forming a subject of the invention as specified above gives, in particular, the results below which are impossible to achieve with the equipment according to the prior art, for all line speeds:
the strip is heated in a preheating zone whose length can be varied, but the temperature and atmosphere conditions are optimal with regard to oxidation, this being so however the line is operated, for all strip or treatment-cycle characteristics, and the length of the preheating zone thus defined is tailored to the tonnage produced by the treatment line (such as an annealing or galvanizing line), whatever the cross section of the products treated or the speed of the said line;
the burners all operate under conditions and with a setting such that they provide optimum flame geometry and characteristics with regard to the chemical treatment that has to be carried out on the surface of the strip.
It will be understood that the novelty of the process forming a subject of the present invention stems from the simultaneous use of a certain number of characteristics (control of the burners in on/off or proportional mode, preheating zone with variable lengths, tailored air/gas bur
Delaunay Didier
Morel Alain
Connolly Bove & Lodge & Hutz LLP
Ip Sikyin
Stein Heurtey
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