SU54572A1 - Installations for the integrated use of fuel - Google Patents

Description

Patent No. 53675 describes a gas treatment reactor for fine-grained materials in suspension.

According to the present invention, it is proposed to use such reactors in an installation for the complex gas chemical use of solid fuels.

The proposed installation consists of four reactors 1,2,3 to 4 of the above design, connected in series along the course of the fuel and intended: reactor / -dl drying the fuel and heating up to 200-250 ° due to the heat of flue gases; reactor 2-for semi-coking of a fuel due to a coolant supplied from outside; the reactor 3-for heating the semi-coke by air blowing; and the reactor 4-for gasifying the red-hot semi-coke with water vapor. The resin produced in the second apparatus is proposed to be cracked in a tubular furnace connected to the installation, heated by gases with a hot blow from apparatus 3.

The proposed installation is shown schematically in the drawing.

Fine-grained fuel passes in a weighted state a dryer (for example, of the Rem type) and is fed to a cyclone located at the top of the plant (the dryer and the cyclone are not shown in the drawing). From the cyclone through point 5, the fuel enters the reactor shaft / ,. which is fed with hot flue gases through pipe 6. In this mine, the fuel loses all of the remaining moisture, is bent and, heated to a temperature of 200-250 °, flows through the hopper 7 (located in the lower part behind the section plane) into the reactor 2, in which the fuel subjected to coking. Heat carrier is introduced by tube 8, and volatile semi-coking products are removed through tube 9.

The semi-coke heated to a temperature of 500-550 ° C through the hopper 10 is lowered into the lower part of the apparatus, consisting of the mines 3 VI 4 and representing the water gas generator in suspension, described in the author's certificate No. 54511. Hot semi-coke from the hopper 10 is introduced into the bunker 11 connecting the mines J and either directly into the mine

250 due to heat of flue gases, reactor 2-for semi-coking of fuel due to heat supplied from outside the heat-transfer agent, reactor 3-for heating of semi-coke due to air blowing and reactor 4-for gasification of red-hot semi-coke with water vapor.

2. The installation indicated in claim 1, characterized in that it is connected to a cracking installation consisting of a condenser 75, designed to condense heavy fractions of resin from shweller gas coming from reactor 2, and tubular 16, which is designed to crack these fractions due to the heat of the hot-blown gas coming from reactor 3 and connected to reactor 2 to introduce cracking gas and vapors as a heat carrier.