DE10229363A1 - Preparation of sludge for break-down to biogas comprises exposure to ultraviolet light as it passes over inclined flat bed - Google Patents

Abstract

In a process to prepare sewage sludge for the generation of biogas, the sludge is exposed to ultraviolet radiation as it flows over a flat bed. The flow speed and sludge thickness are adjusted by altering the flat bed inclination. The sludge thickness is 0.1-20 cm. The sludge is subjected to further mixing by baffles as it flows over the flat bed. The sludge is subjected to ultraviolet radiation of at least 0.1 kWh/m3> and moves over the bed at a rate of up to 20,000 m3>/h. Prior to UV-treatment the sludge is first subjected to mechanical break-down. The sludge is further exposed to ultrasonic emissions at some stage during the treatment.

Description

The invention relates to a method for processing of organic mass such as biomass or that of the Sewage sludge, in particular to intensify the generation of biogas from these substances.

The increasing environmental and energy awareness has led to efforts in recent decades that are called organic biomass such as sewage sludge to use waste products better, and z. B. continue to break down the sewage sludge from wastewater treatment and increasingly also lead to an energetic use. One way to Degradation in sewage sludge contained organic substances and for their energetic use is biogas production.

It is known that the biodegradation of the organic constituents contained in the sewage sludge by microorganisms takes place under anaerobic conditions the faster the better the organic constituents have been previously digested, that is, the larger the attack surface of the organic constituents for the microorganisms. Various disintegration processes for the preparation of such organic masses are known for creating the largest possible attack surface for the microorganisms (for example by stirred ball mills, lysate centrifuges, ultrasound processes, high-frequency pulse processes and also by chemical-biological processes, such as acidic or enzymatic digestions). A disintegration process using ultrasound is e.g. B. in the German patent application DE 19 843 862 A1 described, while the application of low-frequency electromagnetic fields with a frequency of 2 to 1000 Hz from the German Offenlegungsschrift DE 19 955 219 A1 evident.

In the different procedures of sludge disintegration larger particle structures such as Flakes or piles of cells. The one that can be achieved with the various processes Degree of digestion depends of the process used, of the process introduced Energy and the specific properties of organic matter, such as sewage sludge of its proportions of water, organic ingredients, etc. from.

With the known reprocessing methods the desired disintegration of the organic components reached and the for desired biogas production bioavailability improved be, so the fermentation times shorten could and the utilization of the digester capacities for the biogas production was increased however, there could be a noticeable reduction in that in sewage sludge contained problem substances such as hormones, antibiotics and other medicines and also AOX due to the well-known processing methods be achieved.

It is therefore an object of the invention a process for the treatment of organic matter such as biomass or sewage sludge to develop with which a high energy input for disintegration of the organic components present in the organic mass and at the same time a reduction in those contained in the organic mass Problem substances such as hormones, antibiotics, AOX etc. are made possible.

The above object is achieved according to the invention solved the characterizing feature of claim 1. advantageous embodiments the invention form the features of subclaims 2 to 9.

The invention is intended to be explained below of a preferred embodiment are explained in more detail.

The method according to the invention makes use of the possibility of the energy input into organic masses by irradiation with ultraviolet light.

For processing larger quantities of organic masses, e.g. B. as Sewage sludge is a continuous process particularly suitable, in which Example of sewage sludge in flowable consistency over one Flatbed headed and during the flow duration over the Flatbed is exposed to UV radiation. Depending on the viscosity of the sewage sludge can change the residence time of the sludge on the flat bed by changing the Inclination of the flatbed can be accelerated or decelerated. In addition to that in this Way adjustable flow rate of the sewage sludge over the Flatbed, are for The energy that can be entered per unit of quantity also includes the following factors particularly decisive: The one that forms on the flatbed through the flowing mud Layer thickness, which also depends very much on the viscosity of the sludge and the inclination of the flat bed but also on the way the feed line or the application of the sludge to the flat bed dependent is. To create a layer thickness that is as uniform as possible the sludge should be mechanically processed before being fed to the flatbed go through in which coarse components of the sludge are secreted and the mud as much as possible given uniform consistency is for are an effective irradiation of the sewage sludge flowing over the flat bed Layer thicknesses between 0.1 and 20 cm suitable.

The energy input for thicker layers to increase it is appropriate to use the flatbed with flow deflection devices, such as B. from the footprint of To provide flatbed protruding ribs with which the over Flat bed flowing Masses of sludge are moved in so that masses from the bottom Areas of the layer to the surface get there and can be irradiated.

The energy input takes place by means of commercial practice The UV radiator used in industry for a variety of purposes. The energy input from the UV radiation is at least 0.1 kWh / m ³ .

According to the projected performance of the plant required to carry out the process and depending on the intensity of the treatment, the throughput of the biomass treated with the process is, for. B. of sewage sludge between 0.01 and 20,000 m ³ / h.

The duration or the intensity of the digestion can accelerate or intensify are when the digestion process according to the invention by UV radiation other known disintegration methods pre-, parallel- or downstream. This is particularly advantageous Connected a process in which the organic to be processed Mass before and / or during and / or is subjected to ultrasound treatment after UV radiation.

The method according to the invention has the advantage that the entry of UV rays into the organic to be processed Mass not just disintegration in the sense of downsizing of the particle structures but also a breakdown in the organic Mass contained hormones, antibiotics, AOX etc. causes.

The invention is for processing all kinds of organic masses, especially for biogas production should be prepared, e.g. Belly from residues beer or wine production, from fat separators, liquid manure etc., but especially for the treatment of sewage sludge suitable.

Claims (9)

Process for the preparation of organic mass such as biomass or sewage sludge, in particular for the production of biogas, characterized in that the organic mass is exposed to UV radiation. A method according to claim 1, characterized in that the organic mass for UV radiation in flowable consistency over a Flatbed is headed. A method according to claim 2, characterized in that the flow rate and the layer thickness of the organic mass by adjusting the Inclination of the flat bed is controlled. Process according to the claims 2 and / or 3, characterized in that the layer thickness of the over Flatbed guided organic mass preferably between 0.1 and Is 20 cm. Process according to the claims 2 to 4, characterized in that the guided over the flat bed organic mass of an additional mixing exposed by means of flow deflection devices arranged on the flat bed becomes. Method according to at least one of the preceding claims, characterized in that the energy input by the UV radiation is at least 0.1 kWh / m ³ . Method according to at least one of claims 2 to 6, characterized in that the throughput of the organic mass is between 0.01 and 20,000 m ³ / h. Method according to at least one of the preceding claims, characterized characterized in that the organic mass before UV radiation a mechanical disintegration process is pretreated. Method according to at least one of claims 1 to 7, characterized in that that the organic mass before and / or during and / or after the UV radiation is subjected to an ultrasound treatment.