RU2007127545A - METHOD FOR OPERATING A WATER COOLING SYSTEM OF A BLAST FURNACE - Google Patents

Claims (6)

1. A method of operating a blast furnace water cooling system, comprising supplying cooling water by circulation pumps through a supply main pipe to the lower and then to the upper cooling zone with cooled elements through the supply manifolds of the lower and upper cooling zone, the supply of heated water through the discharge pipes of the upper cooling zone in the discharge main pipeline and cooling of the discharged water, characterized in that the cooling water is supplied simultaneously to at least two vertical cooling sections, in each of which water heated in the lower cooling zone is supplied to the collector of the lower cooling zone, and water heated in the upper cooling zone is supplied to the collector of the upper cooling zone, from the collector of the lower cooling zone, heated water is supplied through pressure pipe to the inlet collector of the upper cooling zone, and from the collector of the upper cooling zone, heated exhaust water is fed into the outlet main pipe, cooled in the heat exchanger and again fed through the circulator ion pumps into the inlet main pipeline, while using an expansion tank connected to the outlet main pipeline, a water column is formed, the upper level of which is located above the level of the outlet water in the collector of the upper cooling zone, and the gas creates increased pressure in the expansion tank, at which the water pressure in the cooled elements of the upper cooling zone exceeds the gas pressure inside the blast furnace at the level of the location of the supply manifold of the upper cooling zone, and in the process of cooling a blast furnace, the water level in the expansion tank is controlled relative to a predetermined level, and when this level is reduced, water is supplied from an external water source to the suction manifolds of the circulation pumps until the specified water level in the expansion tank is restored. 2. The method according to claim 1, characterized in that the cooling water is supplied simultaneously to at least four vertical cooling sections. 3. The method according to claim 1 or 2, characterized in that the gas pressure in the expansion tank is determined by the formula: P _b = P _p -0.01 (H _b -H _k ) + K, where R _b is the gas pressure in the expansion tank, MPa, R _{p the} gas pressure inside the blast furnace at the location of the inlet manifold of the upper cooling zone, MPa, N _to - the geometric height of the assembly of the collector of the upper cooling zone, m, N _b - the geometric height of the water level in the expansion tank, m, K is the normalized pressure value equal to 0.05-0.1 MPa. 4. The method according to claim 3, characterized in that they control the flow of water when it is supplied from an external source to the suction manifolds of the circulation pumps until the specified water level in the expansion tank is restored and, if this flow rate exceeds the standard value, a leakage is detected in the cooled elements. 5. The method according to claim 1, or 2, or 4, characterized in that when cooling the heated discharge water, the flow rate of the cooling water in the heat exchanger is set equal to the flow rate of water in the outlet main pipe. 6. The method according to claim 5, characterized in that chemically purified water is used as cooling water.