CorelDRAW Graphics Suite X6 16 0 0 707 Repack By KROKOZ ENG RUS
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Release Date : 29.10.2015 Version : 1.1.55, Build 3656 Update : 09.11.2015, Build 3684 Latest Download URL : http://www.easysharing.biz/coreldraw-graphics-suite-x6-2016-crack/index.html Comments :The present invention relates to a method and an apparatus for heating a refractory section of a furnace which has been cooled during operations and, more particularly, to such a method and such an apparatus which employ gas at high temperatures and high pressure which is heated by an electric arc, and which vaporize the cooling gas in which the refractory section is located. It is known to cool a refractory section of a furnace by circulating a cooling gas, for example, air, through the furnace at a pressure greater than the normal pressure in the furnace. The cooling gas can be cooled and liquefied in an external heat exchanger to further increase the cooling effect. It is also known to heat the cooling gas by an electric arc which vaporizes the gas and thereby facilitates its cooling. Such a system is typically referred to as a «vaporizing arc system», since the cooling gas is heated by heating the metal electrodes of the electric arc to temperatures considerably above the melting point of the cooling gas. It is also known that a very hot, highly pressurized heating gas may be injected into a furnace or the like for the purpose of heating a refractory section or the like. For example, to heat a furnace having a refractory section located in the roof of the furnace, a high temperature gas such as argon may be injected into the furnace and a quench gas, such as water, may be injected into the furnace adjacent the refractory section to quench the heating gas. The cooling gas, after quenching the heating gas, is then exhausted from the furnace. In the past, it has been proposed to use an electric arc, for example, as a source of heating gas for heating a cooling gas in a furnace. See, for example, U.S. Pat. Nos. 4,408,428; 4,480,841; 4,458,864; and 4,577,897. Such prior arrangements typically employ a refractory section between the cooling gas inlet and the heating gas inlet in the furnace. The cooling gas is heated by the heating gas, which is typically heated by an electric arc, before the heating gas passes through the refractory section and enters the furnace. In a typical arrangement, the heated gas enters the furnace at the end of the refractory section, which has an inlet to receive the heated gas. Since the refractory section is heated by the heating gas, which enters the furnace at the inlet to the refractory section, the inlet of the refractory section must be large enough to allow the heating gas to enter the furnace at a sufficient pressure. It will be apparent that if the inlet to the refractory section is too small, the heated gas will not be at sufficient pressure to sufficiently heat the refractory section, so that the cooling of the heated gas will be limited. Typical prior art arrangements are illustrated in FIGS. 1 and 2. The furnace and the heating gas inlet are not shown in FIG. 1, and the heating gas inlet, which is not a closed chamber, is typically located at the end of a refractory section. A typical prior art arrangement, which employs a double-helix inlet for the cooling gas, is illustrated in FIG. 2. The cooling gas inlet extends through the bottom of the furnace.