SU1059392A1 - Rotating furnace - Google Patents

Abstract

A ROTATING OVEN, comprising a housing with support bands, a heat exchanger and heat pipes (characterized in that, in order to increase the reliability and efficiency of heat recovery, lost through the housing, the enclosing housing of the furnace is mounted in the heat pipe location areas which houses the evaporative parts of heat pipes, while the condensate parts of the heat pipes are inserted into a heat exchanging device located outside the casing and equipped with inlet and outlet connections for the cooling agent but.

Description

The invention relates to metallurgy, in particular, to the technique of burning materials in rotary kilns, and can be used in cement production and other industries.

A rotary kiln is known, comprising a housing lined with a refractory material, the charging end of which is equipped with a heat exchanging device, in which heat pipes installed on the inner surface of the kiln are used. In this case, the heat pipes are made with alternating heating zones of each block along the gas path with condensation zones of the previous block ll.

The disadvantages of this furnace are the difficulty of disposing of the heat lost by the furnace, insufficient efficiency and reliability of its operation.

Closest to the proposed technical entity is a rotary kiln comprising a metal body with supporting bands, a heat exchanger and heat pipes. Heat pipes are placed between the body and the lining of the furnace, filled with a non-aqueous heat carrier for utilization of heat lost by the furnace body 2,

However, the installation of heat pipes between the casing and the lining is technically difficult, and the lining strength decreases. Due to the high intensity of heat removal by heat pipes, the heat flow through the lining increases, which leads to an increase in fuel consumption for the process, an increase in the operation of the furnace and an increase in pulverization from the furnace.

The removal of heat from the furnace body at the location of the condensation areas of the heat pipes with the help of irrigation water leads to an inefficient use of heat, the loss of m during evaporation into the atmosphere. Moreover, the device is not sufficiently reliable, since the intense heat flux through the lining leads to its splitting, and as the lining wears out, the heat pipes also wear out, and the repair of heat pipes is possible only when the furnace is stopped and repaired. .

The aim of the invention is to increase the reliability of the design: and the efficiency of heat recovery, lost through the furnace body.

This goal is achieved by the fact that in a rotary kiln containing a housing with supporting bands, a heat exchange device and. heat pipes, in the areas of heat pipes are mounted a fixed casing enclosing the furnace body.

in which the evaporation parts of the heat pipes are placed, while the condensate parts of the heat pipes are inserted into the heat exchanging device located outside the casing and equipped with the inlet and outlet connections of the cooling agent.

The arrangement of heat pipes is performed in such a way that the evaporation areas are located horizontally or at a slight angle, and the condensation areas are arranged vertically with the introduction into a separate heat exchanger.

On. Figure 1 shows a rotary kiln, a longitudinal section in Figure 2. The same, a cross section.

The rotary kiln contains a metal casing 1 with lining 2 and supporting tires - roller supports. 3 in spans between which the furnace casing 1 encloses the fixed casing 4 In the cavity 5 between the casing 1 and the casing 4 are placed along the casing in successively installed rows of packages. evaporative areas b of heat pipes 7. The areas 8 of condensation of heat pipes 7 are brought outside the casing 4 and put into the heat exchanger 4 outside nickname 4, having 9 branch pipes 10 and 11 for inlet and outlet of the cooling agent. In this case, the condensation sections 8 can be located at the junction of the packages of the tubes 7. To monitor the condition of the housing 1 in the housing 4, they can be made. (Insulating windows 12., - When the furnace is operating, case 1 with lining 2 in the hot zones heats up to 200-350 C. This heat is practically lost to the atmosphere. To use part of this heat, around the case .1 there is a fixed casing 4, in the cavity of which The evaporator areas 6 of the heat pipes 7 are heated. The heat received from the housing 1 is transferred by the heat carrier coolant 7 to the condenser sections 8 {1i, which: 1E is absorbed by the beam and introduced into the cavity of the heat exchanger 9. Through the inlet 10 the heat exchanger 9 enters the cooling agent1, which otbi It collects heat from the condensation sections of heat pipes 7 and transfers it, for example, to power plants for heating a room. and others. Blowing air, fuel oil or water can be used as a cooling agent.

Through the heat exchanger, it is possible to pass a blower primary volume 5: 1., which, after heating to 150-130 ° C, is directed to the side of the thermal flare for combustion,

If through, the heat exchanger to pass the fuel oil with heating to

100-180 ° C, then significant steam savings will be achieved.

ni) H using water as a cooling agent results in significant energy savings, hot water (if necessary and steam) can be used for process needs or for heating an enterprise. As a result of the efficient use of part of the heat lost to the atmosphere by the heated body of the furnace, heat saving is achieved, equivalent to 2-3% of the heat consumption in the moving furnace.

Claims (1)

A ROTATING FURNACE comprising a housing with supporting brackets, a heat exchanger and heat pipes, characterized in that, in order to increase the reliability and efficiency of utilization of heat lost through the housing, a stationary casing enclosing the furnace body is mounted on the heat pipe locations, in which the evaporating parts are located heat pipes, while the condensate parts of the heat pipes are introduced into a heat exchange device located outside the casing and equipped with nozzles for supplying and discharging a cooling agent. _ C <o SU APJLQ59592