CS218936B1 - A method for disposing of waste water from a raw gas generator - Google Patents

Abstract

Method for disposal of wastewater from a raw producer gas purification plant. The purpose of the invention is waste-free disposal of wastewater and increase of the calorific value of the producer gas. According to the invention, part or all of the wastewater from the purification of raw producer gas is introduced into a detoxification zone.

Description

The present invention relates to a process for the disposal of waste water from a raw gas generator purification plant. These waste waters containing methanol and other inseparable substances, in particular petrol and tar components, falling off during the complex physical scrubbing of the generator gas.

Until now, the waste water which is removed from the respective apparatus of the washing machine during the rectification of methanol, or which is otherwise emptied from the apparatus, such as flushing water, etc., is discharged without further use to the ash water and thus disposed of.

The uneconomical disposal of these waste waters, associated with the sorption of organic substances to ashes, or dilution of methanol with water, is accompanied by an increased risk of explosion or fire at the points of contact of the mixture of water with air, for example in inlet wells of dredging pumps.

The methyl alcohol content of the rectification or other waste water from the raw gas treatment plant reaches up to 1 g. ^_1 1, wherein in emergency cases, such as working mode violation of rectified columns due to congestion, temperature, pressure etc., methanol content may rise up to ten times.

Normally forgiven up to 2 m ³ .h ^_1 wastewater at 90 ° C. Furthermore, these waste waters contain up to 10 g. I ¹ inseparable petrol and tar substances.

According to the invention, the above-mentioned drawbacks are eliminated by a process for the disposal of waste water from a raw gas treatment plant.

It is based on the fact that some or all of the waste water from the purification of the raw generator gas is introduced into the detoxification zone.

The advantages of the waste water disposal method are the utilization of the conversion catalyst function, the reaction atmosphere, the pressure and temperature in the hydrogenolysis of methanol, benzene and tar substances contained in the waste water.

According to an advantageous embodiment, the effluent outlet can be fed to a circulating scrubber or pre-reactor or conversion reactor.

The process not only utilizes the water required for the actual conversion reaction, but also increases the content of lower hydrocarbons such as methane and ethane in the detoxified product gas, thereby increasing the combustion heat of the gas. In addition, waste-free disposal of waste water from the plant is virtually guaranteed and at the same time the digestion capacity of the ash deposit is improved by preventing the access of methanol and tarry substances.

The method according to the invention is described in more detail below with reference to the example of connection shown in the accompanying drawing.

Waste waters containing methanol, inseparable gasoline and tar substances are fed either directly through the outlet 1 of the circulating scrubber 2, then fed to the production heat exchangers 3 or directly to the pre-reactor 4, possibly to the conversion reactors 5 and 6 connected in series.

The detoxified generator gas enriched with hydrogenolysis products is then removed via line 7 from the last conversion reactor 6.

Example 1

Water containing 1 g of methanol / liter was injected into a reactor 5 filled with a cobalt-molybdenum-based conversion catalyst at a pressure of 2.5 MPa and a catalyst bed temperature of 400 ° C. At the same time, a gas with a carbon monoxide content of 13% by volume was introduced into the reactor. The gas exiting the reactor was cooled and the condensation water was subjected to analysis. This showed that all of the methanol had been converted to methane, which had been enriched by the exiting gas.

Claims (1)

A method of disposing of wastewater from a raw gas generator containing methanol, gasoline and tarry substances, characterized in that part or all of the waste water from the raw gas generator treatment is introduced into the detoxification zone.