PL50375B1 - - Google Patents

Description

The S§ contact closes at the end of the sulfur dioxide concentration measurement cycle, and remains closed until the end of the next sulfur dioxide measurement cycle; The double switching relays 5f, 58 and 59 are then excited. The gas switching element 00, identical to the switching element from the sulfur dioxide concentration measurement cycle 20 to the sum of sulfur dioxide and hydrogen sulfide measurement cycle, is installed in the circuit " gas flow to the reactor, which enables switching from the gas flow to the supply of atmospheric air when the relay 58 is energized (self-correcting zero cycle) and the contact 54 is closed (sulfur dioxide measurement cycle). Air flows through the factor and the analyzer, and the recording device should then indicate a value of 30 between plus and minus q. If this is not the case, the switch 61r will close at the end of the next cycle of measuring the sum of the dioxide levels. of sulfur and hydrogen sulphide, enables the zero-correcting motor 52 to rotate5, pulling the correcting voltage divider 53 along with it, as long as the sc will not be included in the range from plus q to minus and the zero correction cycle ends with the opening of the switch 56, the switching element 44 from gas flow to air flow assumes a position that allows gas flow and allows again to carry out subsequent measurement cycles of sulfur dioxide concentration and the sum concentration of sulfur dioxide and hydrogen sulfide. tó 3, PL

Claims (4)

Claims 1. The automatic regulator of the minimum value is the concentration of hydrogen sulphide and sulfur dioxide, contained in exhaust gases from the equipment for obtaining sulfur by the Claus method, characterized by the fact that it consists, first of all, of an analytical unit intended for cyclic - M 4 rms of the concentration of sulfur dioxide and the sum of the concentrations of hydrogen sulphide and sulfur dioxide in the gaseous residues, and secondly from the regulating unit, designed to automatically correct the ratio of the air flow rate to the gas flow rate containing H2S on input to the sulfur recovery device depending on the data provided by the analysis unit, in order to keep to a minimum the sum of the concentrations of hydrogen sulphide and sulfur dioxide contained in the waste gas, this control unit essentially comprising a detecting element the increase of the sum of the V concentration of hydrogen sulphide and sulfur dioxide contained in the gaseous residues , element for calculating the ratio R of the concentration of hydrogen sulphide to the concentration of sulfur dioxide in the gaseous residues and the element for detecting the change in the ratio R in relation to the theoretical value R = 2, element for storing the sign of the increase dx the ratio x of the air flow rate to the acid flow rate of gas at the input to the sulfur recovery device, and the element correcting this ratio x, controlling the regulator of the ratio x in the energy recovery device, where these elements are connected in such a way that according to the program dictated by the sequence of measurements of the sulfur dioxide concentration and the sum of the concentrations of hydrogen sulphide and sulfur dioxide, apply the change of the regulating variable x in order to determine the change that it exerts on the regulated variable y in terms of value and sign, in order to correct as long as in the appropriate direction of the regulating variable x, starting from the increment of dy and from the changes ratio R until the increment applied to the control variable x leads to a change of z adjustable variable y equal to zero or arbitrarily low. 2. Self-acting regulator according to claim The method of claim 1, characterized in that the analyzing unit consists of an off-gas sampling system, a reactor which comprises a furnace for catalytic oxidation of the residual hydrogen sulphide to sulfur dioxide, an infrared or ultraviolet absorbing type analyzer. a switch which is intended to measure the concentration of sulfur dioxide in the residual gas, from a switching element which is intended to direct the residual gas of air or oxygen alternately to the analyzer to measure the concentrations of dioxide and sulfur, and to the catalytic Oxidation furnace, and then to the analyzer to measure the sum of the sulfur dioxide and hydrogen sulfide concentrations 3. * Automatic regulator according to claim 2, characterized by the fact that the exhaust gas sampling system consists of a sampling pipe that is inserted into the exhaust gas conduit and the extension of which is a mesh separator, and a heating element designed to keep the pipe and the separator at a temperature. higher than the rising temperature of the water contained in the collected gaseous residues. 4. Automatic regulator according to claim 2, characterized in that the switching element is formed of an electromagnet and two tubes made of a flexible material and supported by a suitable mechanical structure in such a way that when an electrical voltage is applied to the electromagnet, one tube is compressed and the other tube is free, for the purpose of allowing the flow of the mixture of residual gas and air, and when the electromagnet is de-energized, the other way around is to squeeze the second tube and the first the tube remains free, one of the tubes directing the gas mixture to the analyzer and the other to the catalytic oxidation furnace. Automatic regulator according to claim 2. The method of claim 2, characterized in that the catalyst contained in the catalytic oxidation furnace is made of comminuted, porous, cadmium sulphate-saturated clinker or porous alumina with a grain size of approximately 3 mm. F19.250375 Ftg.350375 Fig. 5 33.54 28.29 (S02 + SH2) 35.36 29 ($ 02) 55 54- S02 + SH2 | l 1¦MMIII * S02 Fi9.6 $ 02 J 56 57.58, 59 € t ¦ Umn «S02 + 0 PL