DE102007054209A1 - Process for the recovery of chemicals from wastewater - Google Patents

Abstract

The invention relates to a process for the recovery of chemicals from wastewater, which results from the production of pulp from lignocellulosic raw material using sulfur salts, characterized in that the wastewater is subjected to at least one stage anaerobic wastewater treatment, wherein sulfur and / or sulfur compounds are produced.

Description

The The invention relates to a method for chemical recovery from wastewater produced in the production of pulp from lignocellulosic raw material produced by means of sulfur salts.

The Production of pulp from lignocellulosic raw material for Production of z. B. paper or cardboard takes place in large industrial scale. In the majority of procedures for Production of z. B. CTMP, high yield or whole pulp are sulfur salts in aqueous solution, optionally with the addition of organic Solvents, especially alcohol, to soften and / or dissolving the lignin. Mainly are sulfites or sulfides for the digestion of wood or annual plants. Bases are usually sodium, calcium, Magnesium and / or ammonium used. Depending on the digestion process In addition, acids, alkalis or additives as quinone components added. A typical example of a digestion chemical is sodium sulfite, e.g. B. used in pulp digestion starting at pH 9-10 for producing high yield pine pulp.

Either because of the costs as well as for environmental reasons the chemicals used, in particular the sulfur salts, -if not very small quantities are used-recovered become. This happens today by removing the sewage of pulp production is first concentrated by evaporation. Then it will be the concentrated waste water at temperatures above 1000 ° C burned. The organic components (carbohydrates, lignin) are decomposed during combustion, the inorganic constituents are collected and reused for manufacturing processed from pulp. The disadvantage here are especially the significant investment costs for the installations in which the recovery is carried out. Next disadvantage is the complex and expensive procedure during the treatment of the digestion chemicals. In particular, that Evaporation and burning of the waste water is energy-consuming and requires expensive equipment.

It There is therefore a need for a process for the recovery of Chemicals for pulping lignocellulosic pulp Propose raw material using sulfur salts, the low Investment costs caused.

According to the invention A method according to claim 1 for solving the above Task proposed.

The Method sets the treatment of waste water from pulp production preceded by anaerobic microorganisms. Wastewater, the Contain substances whose degradation consumes oxygen referred to as wastewater with a COD load (COD = Chemical Oxygen Demand). Such wastewater comes in many ways whether as industrial, municipal or industrial wastewater. In anaerobic wastewater treatment, the COD load is increased by Action of microorganisms (bacteria) degraded, which under oxygen-closing, mostly in the dark and at temperatures of 15 ° C to 25 ° C (psychrophilic microorganisms), from 25 ° C to 45 ° C (mesophilic microorganisms) or from 45 ° C to 70 ° C, isolated even at higher temperatures, (thermophilic Microorganisms) these oxygen-consuming substances, mostly organic Matter, dismantle.

The microorganisms are added as sludge with the wastewater to be treated, with various methods are known, from mixing reactors via fixed bed reactors to reactors that are used as sludge bed or pellet reactors z. B. according to the UASB method (upflow anaerobic sludge blanket method) work, such. B. in the WO 99/51532 (Zeppelin silo and Apparatetechnik GmbH) or in the DE 10 2005 050 997 (Aquatyx GmbH). The EGSB process (Expanded Granulated Sludge Blanket process) is also suitable for carrying out the process according to the invention. The description of the construction and method of UASB reactors disclosed in the specified documents is herewith the subject of this patent application. It is expressly understood that the invention is not limited to particular methods or reactors of anaerobic wastewater treatment.

To The beginning of anaerobic wastewater treatment will be wastewater and microorganisms contacted each other. At the end of the wastewater treatment produce sludge, filtrate and gaseous components. The mud makes with Ca. 10% of the reduced COD load only one relatively small component. The gas, usually methane and carbon dioxide, is called biogas accounts for 90% of the reduced COD load and becomes energy used. The filtrate is fed as purified wastewater to the receiving water.

Anaerobic wastewater treatment involves four main reaction steps. First, the organic substances that are detected as COD load are hydrolyzed. The hydrolysis products, eg oligomers or monomers, are converted to acid acids and / or alcohols after acidogenesis. These organic acids or alcohols are converted by acetogenesis into hydrogen and acetates. Actetate and hydrogen are in follow methanogenesis converted to methane. The leading to the production of methane reactions are preferred in the known methods of wastewater treatment. At the same time run off unwanted, competing reactions from z. B. lead to the release of carbon dioxide and / or hydrogen sulfide. The organic substances are thus reduced by the action of anaerobic microorganisms. To reduce COD, all of the above reactions contribute. Acetate compounds in particular serve as nutrients for bacteria, both for sulfur-reducing bacteria and for methane-producing bacteria.

in the The environment of pulp production and processing is the use Anaerobic wastewater treatment has been described for the reduction of the COD load of wastewater from sulfur-free Soda outcrops of agricultural raw materials, for reducing the COD load of wastewater from papermaking and for the reduction of COD pollution of vapor condensates of Viskoseherstellung.

For the known, previously described anaerobic wastewater treatment is always noted that the effluent to be treated free of Sulfur compounds should be because the implementation of sulfur compounds in hydrogen sulphide over the desired one Implementation of carbon compounds in methane preferably proceeds. In the presence of sulfur compounds so the yield Methane impaired. It also makes hydrogen sulfide in the use of biogas corrosion problems.

It is the special achievement of the inventor, the suitability of the anaerobic Wastewater treatment for the recovery of chemicals Having recognized pulp wastewater containing sulfur salts. The inventors are quite different from the prior art deviating priorities in the implementation of the inventive method before. It does not come according to the invention on a maximized production of biogas or on a maximized Reduction of the COD load. Rather, the contained in the wastewater Sulfur salts from the base (eg, sodium, calcium, magnesium, or ammonium) separated and converted to sulfur and / or sulfur compounds become. Preference is given to the production of sulfur, hydrogen sulfide and / or sulfur dioxide. Sulfur floats on the filtrate, Hydrogen sulphide is released as gas, sulfur dioxide is either gaseous or dissolved in water or filtrate in front. The recovery rate of sulfur salts of wastewater is with the method according to the invention at least 10%, preferably at least 50%, usually up to 70%.

Further it is advantageous if the anaerobic wastewater treatment sulfur-separated base which is dissolved in water, is discharged with the filtrate. Preferably, the base is carbonate oxidized, e.g. For example, sodium, calcium, magnesium or ammonium carbonate. But it can also be converted to hydroxides; also a mixture of oxidation products is possible, for example in the form that carbonates and hydroxides coexist.

The inventive method can in the simplest Case be carried out in one step. To economic Magnitudes for wastewater treatment reactors To achieve this, several reactors can be parallel to each other operate. It is also possible to have several anaerobic ones To carry out treatment stages in succession, in particular then, if by doing the recovery rate of the chemicals is increased. It should be regarded as a particular advantage of the invention, that wastewater or wastewater treated economically which can only be relatively small Have content of sulfur compounds. So, for example the leaching of CTMP fibers with the method according to the invention be prepared, although the content of sulfur compounds for conventional treatment too low and for one known anaerobic wastewater treatment is too high.

With sulfur, gaseous and / or dissolved in water Sulfur compounds and possibly the alkaline filtrate are made Wastewater recovered chemicals available. The inventive method operates at temperatures from well below 100 ° C. The for the activity psychrophilic, mesophilic or thermophilic microorganisms suitable temperatures are a maximum of 70 ° C, so far below the temperatures at which the known recovery process work.

It is a particular advantage of the invention View method that evaporation of the reprocessed Sewage is not required. The saving of evaporation causes a significant reduction in operating and investment costs and a much simplified procedure. Also saving waste liquor combustion reduces the operating and Plant costs and avoids a critical and expensive Process step.

The production of methane and / or carbon dioxide in addition to the implementation of the sulfur compounds is an advantageous option of the method according to the invention, because compared to the conventional chemical recovery excess energy not only in the form of electricity and Heat can be provided. Rather, a primary energy source is generated, which can be used and used much more diverse. The storage of energy in the form of gas is possible.

To an advantageous embodiment of the invention Process remains after anaerobic wastewater treatment lignin in the filtrate. Lignin is a complex molecule that is not readily degradable by microorganisms. For the However, the method according to the invention is not Disadvantage. Lignin, especially high molecular lignin, is a diverse one usable raw material, which utilizes high added value can be. It lies at the end of anaerobic wastewater treatment in the Filtrate before and can easily and with known methods z. As the filtration or precipitation in economic be recycled usable form. Through the easy deployment Lignin can increase added value become. At the same time, the filtrate becomes more organic, oxygen-depleting substance free, so that by this measure the COD load of the wastewater is additionally reduced.

To a preferred embodiment of the invention Process is performed by anaerobic wastewater treatment at least 5%, but preferably more than 20%, advantageously more than 30%, especially preferably up to 40% of the original wastewater present COD load reduced. The inventive method Although priority is given to the recovery of chemicals but still to reduce the COD load. Also the implementation of sulfur compounds that do not produce a corresponding methane leads to a further improved energy balance of the method.

It proves to be further advantageous if the COD load of the Waste water from pulp production contains up to 150 g / l of COD, because then the recovery rate of the chemicals and the Degradation rate of the COD are particularly high and the procedure accordingly can be carried out economically. To be favoured Used wastewater, which has a COD load of 20 g / l to 120 g / l, in particular from 40 g / l to 100 g / l. Especially effluents of CTMP pulp or high yield pulp, which are produced using sulfur compounds have COD loads in the aforementioned framework.

It is a particular advantage of the invention View procedure that the recovered chemicals according to a preferred development with only a few, simple and not energy-consuming steps in chemicals are implemented can be used for reuse in one Pulp digestion using sulfur salts can be used. Depending on the composition of the waste liquor is as the reaction product of anaerobic wastewater treatment sulfur ago. Sulfur becomes particular then generated when in the context of anaerobic wastewater treatment the sodium component of the waste liquor does not become sodium carbonate but is converted to much more alkaline sodium hydroxide. Of the Sulfur can be produced by oxygenation, for example by burning, be oxidized to sulfur dioxide and then further with alkaline Filtrate be converted to alkali metal sulfite.

alternative may be hydrogen sulfide during anaerobic wastewater treatment arise with oxygen to sulfur dioxide and subsequently can be reacted with alkali filtrate to alkali metal sulfite. Furthermore may be gaseous or dissolved in water sulfur dioxide be reacted with alkaline filtrate to alkali sulfite. It can also a direct conversion of the hydrogen sulfide with water and alkali with filtrate, e.g. B. by means of a gas scrubber, take place to alkali sulfide. This shows the simplicity of the procedure, The ready-to-use digestion solution without complex process steps provides.

Around to improve the efficiency of anaerobic wastewater treatment according to a preferred embodiment of the invention Method of anaerobic wastewater treatment an aerobic and / or anaerobic pretreatment of the wastewater upstream. A such pretreatment, for example a pre-acidification, proves to be advantageous if the wastewater prevents the formation of unwanted, prevents the methanogenesis of interfering substances or should be minimized. The pre-acidification is an anaerobic Waste water treatment, which proceeds in the acidic pH range, and which preferably leads to the formation of acetates.

alternative can also be an aerobic pretreatment, z. B. by white rot fungi act on the waste liquor. This biological pretreatment contributes helping to increase the efficiency and stability of the anaerobic Wastewater treatment is increased when the chemicals in the wastewater before the anaerobic wastewater treatment according to the invention so are oxidized as much as possible. Sulfur compounds are oxidized to sulfate, carbon compounds are oxidized as far as they are are oxidized to carbonates.

As far as various embodiments of the recovery process according to the invention have been described in this patent application, these different Ausfüh ments can also be combined. Details of the invention A method will be explained with reference to the following embodiment.

one Plant for the anaerobic wastewater treatment of waste water from a waste paper processing is Taken from sludge containing anaerobic microorganisms. This mud is over a period of about 3 to 6 Months with a sewage that, starting from the sewage waste paper preparation, in increments of 5% by volume increasingly by wastewater of an alkaline sulfite process for Production of high-yield pulp is replaced, so that the Complete at the end of the said period converted to the new wastewater substrate.

The alkaline sulfite process, referred to in the context of the exemplary embodiment, is shown in FIG DE 10 2006 027 006 described. We expressly declare that the content of this patent application is also intended to be a disclosure of this patent application. However, the embodiment of the alkaline sulfite process disclosed therein is only one of numerous processes whose effluents can be treated by the process according to the invention. After a typical execution of the method according to the DE 10 2006 027 006 Sodium sulphite is used to break down wood. The yield of the process is 85%; During digestion, about 15% of the wood substance goes into solution and is discharged with the wastewater. The effluent of such digestion has a COD load of 55 g / l. The pH of the wastewater is between 6.0 and 8.0, making it ideal for efficient anaerobic microorganisms. The wastewater leaves the pulp washing at a temperature of about 60 ° C and enters the wastewater treatment at a temperature of about 40 ° C. It can thus be fed directly to the anaerobic wastewater treatment or an aerobic or anaerobic pretreatment.

The Wastewater of high-yield sulfite pulping contains lignin, including sulfonated lignin, carbohydrates, including cellulose and hemicelluloses and reaction products of the digestion chemicals and unused chemicals. This wastewater is first in the acidic environment of anaerobic pretreatment in a thoroughly mixed Reactor subjected. By means of this pre-acidification is the sewage u. a. by the preferred formation of acetates so prepared that the anaerobic microorganisms in the methanogenesis as possible can act efficiently on the wastewater.

The Wastewater treated in this way becomes the actual anaerobic wastewater treatment fed. The wastewater is poured down into a UASB reactor tower and ascends and ascends in the tower Penetrates thereby the mud contained therein / the contained therein mesophilic microorganisms. Since the conversion of the sulfates to hydrogen sulfide preferred over the conversion of carbonates to methane expires, the sulfates are first implemented. Mostly Hydrogen sulphide escapes as gas, but a part is also with Water converted to sulfur dioxide that partially gaseous escapes, remains partially dissolved in water. Next to it arises elemental sulfur, especially at higher pH, which arise when the alkaline component of the wastewater, Sodium, is converted to sodium hydroxide.

Parallel, predominantly but following the implementation of the sulfur compounds the conversion to methane takes place via the steps hydrolysis, acidogenesis, acetogenesis and methanogenesis he follows. Mostly methane is produced, in smaller Share is also made of carbon dioxide.

hydrogen sulfide, Methane and carbon dioxide gaseously escape at the top End of the tower. The gases that occur when ascending the sewage in the tower initially bound to the sludge pellets or stored in these are separated by scrapers from the pellets and collected. hydrogen sulfide is z. B. by gas scrubbing of methane and carbon dioxide separated.

The released from the gas pellets lose buoyancy and sink again to the bottom of the tower, where the cycle of chemical transformation begins again. The filtrate still left a residue of the COD load (60% of the original Load) and the sodium carbonate and possibly sodium hydroxide, is taken at overflows at the top of the tower.

Technically usable biogas, consisting of methane and carbon dioxide, occurs from the filtrate used for gas scrubbing. hydrogen sulfide is z. B. by combustion or reaction with water to sulfur dioxide oxidized. The sulfur dioxide is mixed with sodium carbonate and / or hydroxide converted from the filtrate to sodium sulfite.

The Filtrate has a compared to the wastewater reduced by 40% COD load on. The in the form of elemental sulfur and sulfur salts sulfur present in the wastewater was 70% in the form of hydrogen sulphide and sulfur dioxide (and subsequently to sodium sulfite).

The effluents from a sulphide digestion are treated in the same way. At the end of the wastewater treatment, however, becomes sulfur water Substance with the filtrate, which contains the alkaline components of the waste water, converted to alkali metal sulfide.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• WO 99/51532 [0007]
• - DE 102005050997 [0007]
• - DE 102006027006 [0027, 0027]

Claims (14)

Process for the recovery of chemicals from wastewater, which results from the production of pulp from lignocellulosic raw material using sulfur salts, characterized in that the waste water is subjected to at least one-stage anaerobic wastewater treatment, whereby sulfur and / or sulfur compounds are produced. Method according to claim 1, characterized in that that hydrogen sulfide and / or sulfur dioxide are generated. Method according to claim 1, characterized in that that the sulfur salts contained in the wastewater amount to at least 10%, preferably at least 50%, more preferably up to 70% by the Anaerobic wastewater treatment in sulfur and / or sulfur compounds be implemented. Method according to claim 1, characterized in that that for anaerobic wastewater treatment psychrophilic, mesophilic or thermophilic microorganisms are used. Method according to claim 1, characterized in that that by the anaerobic wastewater treatment of pulp wastewater Methane and / or carbon dioxide are generated. Method according to claim 5, characterized in that that the biogas produced, especially methane, after the anaerobic Wastewater treatment is collected in a store. Method according to claim 1, characterized in that that after the anaerobic wastewater treatment, a filtrate available is, is deposited from the high molecular weight lignin. Method according to claim 1, characterized in that that by the anaerobic wastewater treatment an alkaline filtrate is produced. Method according to claim 1, characterized in that that by anaerobic wastewater treatment up to 40% of the original Degraded in the wastewater existing chemical oxygen demand (COD) are. Method according to claim 1, characterized in that that the COD content of the wastewater of pulp production up to to 150 g / l COD, preferably from 20 g / l to 120 g / l, more preferably from 40 g / l to 100 g / l. Method according to claim 1, characterized in that that hydrogen sulfide produced by the anaerobic wastewater treatment then with water and with alkaline filtrate Alkalisulfid is reacted. Method according to claim 1, characterized in that that after anaerobic wastewater treatment gaseous or sulfur dioxide dissolved in water with alkaline Filtrate is converted to alkali metal sulfite. Method according to claim 1, characterized in that that after anaerobic wastewater treatment elemental sulfur is burnt to sulfur dioxide, and with alkaline filtrate too Alkalisulfite is reacted. Method according to claim 1, characterized in that that the wastewater, which contains sulfur salts, before the anaerobic Wastewater treatment undergoes an aerobic or anaerobic pretreatment.