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A reactor, hydrogen sulfide technology, used in chemical instruments and methods, hydrogen sulfide, chemical methods for reacting liquids and gaseous media, etc., and can solve a large number of problems.
Inactive Publication Date: 2017-12-12
EVONIK OPERATIONS GMBH
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However, it has been found that these reactors have the disadvantage that they operate at a pressure of less than 5 bar and that, due to the fact that the reaction of sulfur and hydrogen is mainly catalytic, large amounts of catalyst are required
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Embodiment 1
[0110] Embodiment 1 (comparative example)
[0111] 1000 l(STP) / h of hydrogen were introduced continuously via a glass frit at the base into a tube with an inner diameter of 5 cm which had been filled with liquid sulfur up to a height of 1 m. The sulfur consumed is compensated by further metering in liquid sulfur while keeping the filling level constant. Sulfur removed from the product gas stream by condensation is recycled in liquid form into the upper region of the tube. Above the liquid sulfur, sheathed thermocouples for measuring temperature were placed at intervals of 10 cm. When the reactor was electrically heated to 400°C via the outer wall, there was a uniform temperature of about 397°C within the sulfur. However, the thermocouple located above the sulfur showed the highest temperature of 520 °C. In addition, above the liquid sulfur, a sample of the new material made of standard stainless steel (1.4571) was provided at the position of the highest temperature. After ...
Embodiment 2
[0112] Embodiment 2 (comparative example)
[0113] Example 1 was repeated, except that the height of the liquid sulfur was raised to 4m. Maintain the highest temperature value above the liquid sulfur. Severe corrosion phenomena also occurred on material samples.
Embodiment 3
[0114] Embodiment 3 (comparative example)
[0115] Repeat Example 2, except that 15% by weight of powdered Co 3 o 4 MoO 3 / Al 2 o 3 The catalyst is suspended in liquid sulfur. Maintain the highest temperature value above the liquid sulfur. Severe corrosion phenomena also occurred on material samples.
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Abstract
Reactor suitable for continuous preparation of hydrogen sulfide by exothermic reaction of sulfur and hydrogen to form a final product gas mixture P f i n a l comprising hydrogen sulfide and sulfur at elevated temperature and elevated pressure relative to standard conditions, comprises a lower reactor region suitable for accommodating a sulfur melt, one or more non-pressure-bearing first cavern(s) and at least one supply device suitable for controlled supply of pressurized gaseous hydrogen per first cavern. Reactor suitable for continuous preparation of hydrogen sulfide by exothermic reaction of sulfur and hydrogen to form a final product gas mixture P f i n a l comprising hydrogen sulfide and sulfur at elevated temperature and elevated pressure relative to standard conditions, comprises a lower reactor region suitable for accommodating a sulfur melt, one or more non-pressure-bearing first cavern(s) and at least one supply device suitable for controlled supply of pressurized gaseous hydrogen per first cavern, the caverns being suitable for at least temporary accommodation of a product gas mixture P 1 which forms in exothermic reaction and comprises hydrogen sulfide, sulfur and hydrogen, one or more non-pressure bearing second cavern(s) which are arranged above the first cavern(s) and are suitable for at least temporary accommodation of the product gas mixture P 1 formed in the first cavern(s) and for formation of further hydrogen sulfide by exothermic reaction of sulfur and hydrogen to form a product gas mixture P 2, and a gas collecting region suitable for accommodating the product gas mixture P f i n a l at elevated temperature and elevated pressure relative to standard conditions, where at least one of the second caverns has a greater volume than each of the first caverns, and / or in that at least one of the second caverns has lower heat removal for construction reasons than each of the first caverns. An independent claim is included for a process for preparing hydrogen sulfide by exothermic reaction of sulfur with hydrogen at elevated temperature and elevated pressure relative to standard conditions to form a product gas mixture P f i n a l comprising hydrogen sulfide and sulfur, involving providing a sulfur melt in a lower reactor region of a pressurized reactor, supplying pressurized hydrogen into the sulfur melt, the hydrogen supplied being accommodated at least partly, together with sulfur converted from the sulfur melt to the gaseous state, by at least one non-pressure-bearing first cavern, at least temporarily leaving the hydrogen and the sulfur in the first cavern(s), so as to form, in exothermic reaction, a product gas mixture P 1 comprising hydrogen sulfide, sulfur and hydrogen, accommodating the product gas mixture P 1 in one or more second cavern(s) and at least temporarily leaving the product gas mixture P 1, such that the sulfur and hydrogen present in the product gas mixture P 1 are reacted with formation of further hydrogen sulfide to a product gas mixture P 2, and use of at least one second cavern having a greater volume than each of the one or more first caverns and / or a lower heat removal for construction reasons than each of the one or more first caverns results in an increase in the hydrogen conversion in the second cavern in question, and collecting the product gas mixture P f i n a l in a gas collecting region.
Description
technical field [0001] The present invention relates to a reactor and process for the synthesis of hydrogen sulfide from elemental sulfur and hydrogen at elevated pressure and elevated temperature. The present invention also relates to the use of said reactors for high yield and low H 2 S x content for the preparation of hydrogen sulfide. Background technique [0002] Hydrogen sulfide is an industrially important intermediate, e.g. for the synthesis of methyl mercaptan, dimethyl sulfide, dimethyl disulfide, sulfonic acid, dimethyl sulfoxide, dimethyl sulfone, and for many sulfur reaction. To date, it has been obtained mainly from mineral oil and natural gas processing and by the reaction of sulfur and hydrogen. [0003] Hydrogen sulfide is usually produced from elemental substances by introducing gaseous hydrogen into a sulfur melt, converting the sulfur into the gas phase and converting the sulfur therein to hydrogen sulfide in an exothermic reaction with hydrogen (Ullm...
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