SK8519Y1 - Method of processing biodegradable waste and/or mixed waste containing biodegradable substances, in particular industrial and municipal biodegradable waste and mixed municipal waste - Google Patents

Abstract

A method for treating biodegradable wastes and/or mixed wastes containing biodegradable substances, in particular industrial and municipal biodegradable wastes and mixed municipal wastes, where biodegradable wastes and/or mixed wastes containing biodegradable substances are crushed, is described. The biodegradable substances in the form of a slurry are separated from the pulverized waste by pressing or squeezing from the crushed wastes and the solid undesired impurities are then separated from the slurry. The separated slurry is exposed to ultrasound at a frequency of 20 kHz to 100 kHz and an intensity of 25 to 50 W/cm2, wherein the sonication dose of ultrasound is 1 to 9 kWh/m3 of treated suspension, depending on the composition of the biodegradable substances. The slurry thus treated is then fed to a sludge stabilization process in a sewage treatment plant.

Description

The invention relates to a process for the treatment of biodegradable wastes and / or mixed wastes containing biodegradable substances, in particular industrial and municipal biodegradable wastes and mixed municipal wastes.

BACKGROUND OF THE INVENTION

Industrial and municipal waste water is fed to waste water treatment plants. After mechanical pre-treatment, the waste water passes to the biological stage, where the decomposition of organic contamination by microorganisms increases the biomass of microorganisms, part of which is subsequently discharged as excess sludge - biological sludge is formed. Excess biological sludge from sewage treatment is separated by concentration by sedimentation and is further processed into a digestion process where aerobic or anaerobic digestion of biodegradable sludge takes place, also called sludge digestion and / or stabilization. Sludge stabilization is a process in which the biodegradable sludge resulting from the waste water treatment process decomposes in a controlled manner, obtaining high biochemical stability - it stabilizes (no longer actively decomposes). The sludge management of waste water treatment plants is currently technologically adapted solely to the treatment of biodegradable sludge arising from waste water treatment containing mainly dissolved organic substances.

Solid floating wastes that are trapped on the rake by mechanical pre-treatment of waste water screenings are currently disposed of almost exclusively by landfilling

Biodegradable industrial and municipal wastes are currently usually recovered in the form of compost and occasionally recovered in biogas plants using green matter as the feedstock.

Mixed wastes, especially mixed municipal wastes, are currently only partially sorted, containing up to 50% of biodegradable municipal wastes and water. Mixed municipal waste is currently mainly disposed of by landfill Even in areas where separate collection of biodegradable waste is currently carried out, mixed municipal waste still contains a significant proportion of biodegradable waste that is disposed of by landfilling, which is ineffective for biodegradable substances and environmentally unsuitable.

The object of the present invention is therefore to propose a method for treating biodegradable wastes and / or mixed wastes containing biodegradable substances so as to maximize the efficient use of biodegradable wastes, especially mixed wastes, and to significantly reduce the amount of waste going to landfills.

The essence of the technical solution

Said objective of maximum efficient use of biodegradable substances is achieved by a method of treating biodegradable municipal waste and / or mixed municipal waste with biodegradable substances according to the proposed technical solution. The essence of this method is that the biodegradable wastes and / or mixed wastes containing biodegradable substances are crushed to a fraction of up to 300 mm, and the biodegradable substances in the form of a slurry are separated from the crushed wastes by pulverization or pressing. Solid undesirable impurities are then separated from the slurry. The cleaned slurry is subjected to ultrasound at a frequency of 20 kHz to 100 kHz, with an intensity of from 25 to 50 W / cm ² , and the sonication dose of ultrasound should be 1 to 9 kWh / m ^{3 of} treated suspension, depending on the biodegradable composition.

Ultrasonically-built microcavitations pre-treat biodegradable wastes to a pumping suspension state by disrupting the cell structures of plant, animal and bacterial origin. The treated slurry formed by pre-treated biodegradable waste is a substrate that can be applied without significant technological modifications to the biological stage of wastewater treatment - the sludge stabilization process at the wastewater treatment plant.

Activated sludge formed in the biological wastewater treatment stage in wastewater treatment plants is preferably mixed into the slurry prior to ultrasonication.

Depending on the needs and composition of the suspension, alkaline agents of the group Ca (OH) 2, NaOH, KOH may be advantageously added to the suspension or to the slurry mixed with the sludge to adjust the pH of the suspension to a pH of 9 to 10.

S K 8519 Υί

EXAMPLES

Biodegradable wastes and / or mixed wastes containing biodegradable substances shall be crushed to a fraction of up to 300 mm Biodegradable wastes and / or mixed wastes containing biodegradable substances are mainly industrial and municipal biodegradable wastes and mixed municipal wastes, and into these wastes it may also advantageously include screenings trapped on the scraper during mechanical pre-treatment of the waste water. Advantageously, metals that can be recycled can be inductively and magnetically separated from the crushed waste. From the crushed waste, biodegradable substances in the form of a slurry are separated either by melting, in a pulper or by pressing in a special press. Advantageously, a light fraction useful as a solid alternative fuel can be separated from the waste residue which has not been transformed into a slurry, based on the specific gravity. The slurry is cleaned on a gravity or centrifugal separator by separating small residues of light and heavy impurities such as small pieces of wood, sand, glass, metal, bones, plastic, and the like.

Subsequently, the obtained slurry produced either alone or after mixing with excess sludge from wastewater treatment, before entering the aerobic or anaerobic digestion process, ie into the sludge stabilization process, is transferred, e.g. it is pumped through a pipe, through a device emitting ultrasonic waves into the suspension. The ultrasound used has a frequency of 20 kHz to 100 kHz, an intensity of from 25 to 50 W / cm ² , and the sonication dose of the ultrasound should reach 1 to 9 kWh / m ^{3 of the} treated suspension, depending on the composition of the biodegradable substances. Ultrasonic waves cause microcavitation in suspension, resulting in high temperatures and pressure waves (up to 5,000 ° C and 500 bar.) High temperature and shock pressure waves disrupt the cell walls of plant, animal and bacterial cells. and / 11 the biodegradable bows in the aqueous solution are dispersed. Due to disruption of organic structures of biodegradable substances and aggregates, organic substances contained in a slurry or in a slurry mixture with excess activated sludge from waste water treatment decompose more rapidly and to a greater extent in digesters, generating more biogas (up to 30%) and after the sludge stabilization process is completed, less stabilized sludge, i.e. less dry matter, remains at the outlet. Due to the loss of organic matter in the stabilized sludge, the sludge dewatering process is also made more efficient.

In order to increase the efficiency of the process and to speed it up, alkaline agents from the group Ca (OH), NaOH, KOH may be added to the suspension prior to the application of ultrasound to adjust the pH of the suspension to pH 9-10, thereby causing alkaline hydrolysis. Ultrasonic waves in combination with alkaline hydrolysis also have a particularly effective effect on cellulose and other hardly degradable organic materials as well as on the cells of microorganisms contained in waste.

Due to alkaline hydrolysis and / or ultrasonic resonance, the slurry or slurry mixed with the sludge is homogenized, treated and sanitized to form a substrate containing mainly dissolved organic substances with properties similar to activated biodegradable sludge from wastewater treatment. The substrate has physical and biological transformation characteristics (standardized properties and composition) similar to sewage sludge.

Dry matter: 9 - 12%

Water content: 88 - 91%

Loss on ignition from dry matter:> 80%

No plastic debris

No sand and no stones> 250 pm

The substrate can be used, for example, for the production of biogas and without digestion, for example, for the production of fertilizer supplements, without altering the sludge stabilization process technology at the wastewater treatment plant.

The ultrasonic-treated slurry or a combination of alkaline hydrolysis and ultrasound can be produced outside the wastewater treatment plants and then conveyed to the wastewater treatment plants for recovery in the sludge stabilization process. Similarly, the technology can be assembled directly in a wastewater treatment plant, where the slurry made from biodegradable industrial and municipal waste and / or mixed municipal waste is then conveyed to the process by pipeline or tank vehicles, and excess activated activated sludge can also be advantageously used in the process. from a biological water purification process as described.

The method of treatment and recovery of biodegradable municipal and other wastes and / or mixed municipal wastes containing biodegradable substances in waste water treatment technology or biogas stations allows to reduce the time required for the decomposition of organic substances, i. j. to stabilize the sludge, to increase the useful capacity of the digesters, i. j. In a shorter time it is possible to evaluate more organic slurry and / or sludge more efficiently, to increase the efficiency of biogas production in sludge management of sewage treatment plants or biogas stations where more biogas is produced from the unit of raw material. digestate at the outlet,

85 increase digestate drainage rate - fewer residual organic matter in digestate means less bound water, save the environment where the recovery of biodegradable waste will reduce greenhouse gas production, / evaluate up to 50% of mixed municipal waste, reduce sorting and recovery costs biodegradable waste.

Industrial usability

The process according to this invention is most effective in particular for the treatment of biodegradable industrial and municipal waste and / or mixed municipal waste containing biodegradable substances, together with the operation of waste water treatment plants.

The efficiency of the plant is due to the consistent use of existing wastewater treatment plant capacities, the use of organic substances from industrial and urban environments, and from the reduction of the resulting waste substances compared to current processes. It will achieve the achievement of the program objective of the waste management program 15, reduce the amount of landfilled waste, as well as higher energy production in the form of biogas from the produced organic pollution.

Claims (3)

Process for the treatment of biodegradable wastes and / or mixed wastes containing biodegradable substances, in particular industrial and municipal biodegradable wastes and mixed municipal waste, characterized in that the biodegradable wastes and / or mixed wastes containing biodegradable substances are crushed, biodegradable substances in the form of a slurry are separated from the crushed waste by melting or pressing, then solid undesirable impurities are separated from the slurry, the separated slurry is subjected to ultrasound at a frequency of 20 kHz to 100 kHz, intensity from 25 to 50 W / cm ² wherein the sonication dose of the ultrasound is from 1 to 9 kWh / m ^{3 of the} treated suspension, depending on the composition of the biodegradable substances, after which it is fed to the sludge stabilization process at the sewage treatment plant. Method according to claim 1, characterized in that activated sludge separated from the biological waste water treatment stage in the waste water treatment plants is mixed into the slurry prior to the sonication. Method according to claim 1 or 2, characterized in that before the ultrasound treatment, alkaline agents from the group of hydroxides such as Ca (OH) 2, NaOH, KOH are added to the slurry or slurry mixed with the sludge to adjust the pH of the slurry. to pH 9-10.