NL9000877A - Water treatment to remove sulphide(s) - by oxidising in aerobic reactor having specified minimum sludge load - Google Patents

Abstract

Water contg. sulphides is purified by oxidising in a reactor using sludge contg. aerobic bacteria. The sludge load (w.r.t. the sulphide oxidising part of the sludge) is at least 10 mg sulphide per Mg N in the sludge per hr.. Pref. the sludge load is at least 20 mg (at least 35 mg) sulphide per mg N. The sludge is in the form of biofilms bound to a carrier. The O2 concn. in the reactor is 0.1-9.0 (4) mg/l. The sulphide concn. in the effluent is kept at 0.5-30 mg/l. The sulphide surface load is at least 10 g/sq. m. The sulphide load is at least 50 (at least 100) mg S/l.h. In a two-stage process sulphide is (partially) oxidised to S and then, in a second reactor S and remaining sulphide oxidised to sulphate. The first oxidn. pref. uses a sulphide load of at least 26 mg S/l.h. (at least 50) (100-1000) mg S/l.h. S cpds. may first be anaerobically reduced to sulphide. The S cpds. are esp. sulphates, sulphites or thiosulphate. Purified water may be recycled to keep the S content below 800 (below 350) mg/l during anaerobic treatment.

Description

Method for the anaerobic purification of waste water with a high content of sulfur compounds and apparatus for carrying out this method.

The invention relates to a method for the anaerobic purification of waste water which, in addition to organically degradable substances, contains a high content of sulfur compounds.

The presence of a high content of sulfur compounds, for example a sulfur content of more than 350-500 mg S / l or with a sulfur-related chemical oxygen demand COD / S of less than 10, in wastewater makes anaerobic purification of wastewater difficult, because the formed sulfide inhibits the methane-forming bacteria. However, anaerobic purification of waste water generally has great advantages over aerobic purification: low energy consumption, little sludge washing, methane production, etc. Therefore, there is a great need for a method that allows anaerobic purification of organic waste streams, even if these contain large amounts of sulfur compounds .

A method for the anaerobic purification of sulfur-containing waste water is known from European patent application No. 0.241.999, according to which sulphate-containing waste water is purified anaerobically, whereby the sulphate is reduced to sulphide. The sulfide is then expelled from the wastewater in the form of hydrogen sulfide (H2S). Disadvantages of these processes are that measures have to be taken (pH control) to sufficiently displace the sulfide from the water and then separate the hydrogen sulfide from the methane and any other gases, which in turn produces a wastewater stream that is difficult to recover . In addition, poisoning of the anaerobic bacteria also occurs here if the sulfur load is too high.

Another method for the purification of sulfur-containing wastewater is known from Jensen TL, Scheider 0., Sërner E., (1988) The Junckers Industrier Mill - Environmental Protection by the development and use of new Technology, TAPPI Proceedings, Environmental Conference, USA, whereby the sulphate-containing waste water is pretreated and sulphide is removed in gaseous form, after which a waste stream with a lower sulfur content is generated which is converted anaerobically in the usual manner.

A method has now been found in which waste water can be efficiently treated anaerobically, even in the presence of very large amounts of sulfur compounds, and moreover, to a large extent, sulfur compounds are stripped. The process according to the invention, in which the sulfur compounds are reduced to sulfide during anaerobic purification and the sulfide is subsequently removed, characterized in that after the sulfide has been removed, part of the purified water is mixed with the waste water to be purified, ie purified water recirculates.

The method according to the invention is applicable to waste streams containing various sulfur compounds in almost any concentration. The sulfur compounds can be inorganic sulfur compounds such as sulfate, sulfite, thiosulfate, tetrathionate, elemental sulfur and the like, and also organic sulfur compounds such as carbon disulfide, dialkyl sulfides, dialkyl disulfides, mercaptans, sulfones, sulf oxides, sulfonic acids, etc.

Because part of the purified stream is recycled to the wastewater to be purified, the sulfide concentration during anaerobic purification is reduced in such a way that the anaerobic flora (in particular the methane-forming bacteria) is not inhibited.

Not every known method can be used for sulfide removal. It is necessary to remove the sulfide formed in anaerobic purification by oxidation to elemental sulfur. This has the great advantage that a form of sulfur is created which can be easily separated (settling, centrifugation, filtration, flocculation) and which can also be processed usefully. A suitable method for the oxidation of sulfide to elemental sulfur is described in Dutch patent application 88.01.009. The sulfide-containing water is thereby treated with sulfur-oxidizing bacteria in the presence of an oxygen deficiency, such that mainly elemental sulfur is formed and possibly a small amount. sulfate.

A further advantage of this embodiment is that the pH of the partially purified waste water does not need to be lowered to remove the sulfide. Furthermore, no gas scrubbers are required which in turn provide secondary waste water flows.

By setting the correct recirculation ratio (ratio between amount of purified water returned to the anaerobic purification reactor and purified water discharged) wastewater of any type and with any concentration of sulfur can be treated. The recirculation ratio can vary over a wide range and is, for example, 1-10. With wastewater with a higher sulfur load, relatively more purified water is recycled. Thus wastewater containing, for example, 30 g / l COD and, for example, 2 g / l sulfur compounds (calculated as sulfur) can be treated well according to the method of the invention. In general, care will be taken to ensure that the anaerobic reactor contains a concentration of sulfur compounds not higher than 800 mg / l, preferably less than 350 mgA ·

The invention also relates to an apparatus for carrying out the purification process, comprising an anaerobic purification reactor, followed by a reactor for the oxidation of sulfide to elemental sulfur and a separator for separating elemental sulfur, in which a pipe is provided with which part of the stream discharged from the separator can be fed to the anaerobic reactor.

The process according to the invention can for instance be carried out in an installation as schematically shown in the accompanying figure 1. According to that figure, a waste water stream is supplied at 1 to an anaerobic reactor 2, in which the organic impurities are mainly converted into methane and the sulfur compounds into sulphide. The gases formed are discharged from the anaerobic reactor 2 via a pipe (not shown). The anaerobic reactor is connected via a line 3 to an oxidation reactor 4, in which sulphides formed are converted into elemental sulfur by sulfur oxidizing bacteria, for example from the genera Thiobacillus and Thiomicrospira. In this case, so much oxygen is added via 5 that the oxidation necessarily leads to sulfur. Optionally, the reactor 4 contains a carrier for the sulfur oxidizing bacteria. The residence time in reactor 4 is relatively short (e.g. less than 20 minutes). The water treated in the reactor 4 is led via line 6 to a separator 7 where the sulfur formed is separated via 8. The purified waste water 9 is then split into a production stream 10 and a recycle stream 11; the ratio between these two flows is set at 1 depending on the properties of the waste water to be treated.

Claims (4)

Method for the anaerobic purification of wastewater with a high content of sulfur compounds, wherein the sulfur compounds are reduced during the anaerobic purification to sulfide and the sulfide is then removed, characterized in that after the sulfide has been removed, part of the purified water is mixes with the wastewater to be purified. 2. Process according to claim 1, characterized in that the sulfide is removed by partial oxidation with sulfur-oxidizing bacteria, mainly to elemental sulfur. Process according to claim 1 or 2, characterized in that an amount of the purified water is recycled so that the sulfur content during the anaerobic purification remains below 800 mg S / l, preferably below 350 mg S / l. Apparatus suitable for carrying out the method according to claims 1-3, comprising an anaerobic purification reactor, followed by a reactor for the oxidation of sulfide to elemental sulfur and a separator for separating elemental sulfur, wherein a conduit is provided with which part of the stream discharged from the separator can be fed to the anaerobic reactor.