RU2013125180A - METHOD FOR PROCESSING ORGANIC SUBSTRATES IN FERTILIZERS, BIOGAS AND TECHNICAL WATER AND CONSTRUCTION FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of processing organic substrates into fertilizers, biogas and industrial water, according to which the initial organic substrate is subjected to primary mechanical separation, the primary liquid fraction is sent to a pretreatment bioreactor, the resulting secondary substrate is subjected to secondary mechanical separation, the secondary liquid fraction is sent to an anaerobic bioreactor with immobilized microflora to obtain biogas and effluent, biogas is sent to the gas storage, the effluent is subjected to three mechanical separation with obtaining a supernatant, the solid fraction from the primary mechanical separation stage is subjected to grinding and sent to the solid-phase anaerobic bioreactor together with the solid fraction from the secondary and tertiary mechanical separation stages to obtain biogas and bio-sludge, the biogas is sent to the gas storage, the biological sludge is subjected to quaternary mechanical separation with recirculating water, the solid fraction from the stage of the Quaternary mechanical separation is directed to preparation of fertilizers, characterized in that the processing of the primary liquid fraction is carried out in a bioreactor in an autothermal aerobic mode to achieve at least mesophilic temperatures of the secondary substrate and produce moist gas, the secondary mechanical separation is carried out in two stages, the first stage being carried out in flotation mode using the effect residual gas evolution, the second stage of the secondary mechanical separation is carried out in the gravitational deposition mode together with the Quaternary

Claims (2)

1. A method of processing organic substrates into fertilizers, biogas and industrial water, according to which the initial organic substrate is subjected to primary mechanical separation, the primary liquid fraction is sent to a pretreatment bioreactor, the resulting secondary substrate is subjected to secondary mechanical separation, the secondary liquid fraction is sent to an anaerobic bioreactor with immobilized microflora to obtain biogas and effluent, biogas is sent to the gas storage, the effluent is subjected to three mechanical separation with obtaining a supernatant, the solid fraction from the primary mechanical separation stage is subjected to grinding and sent to the solid-phase anaerobic bioreactor together with the solid fraction from the secondary and tertiary mechanical separation stages to obtain biogas and bio-sludge, the biogas is sent to the gas storage, the biological sludge is subjected to quaternary mechanical separation with recirculating water, the solid fraction from the stage of the Quaternary mechanical separation is directed to preparation of fertilizers, characterized in that the processing of the primary liquid fraction is carried out in a bioreactor in an autothermal aerobic mode to achieve at least mesophilic temperatures of the secondary substrate and produce moist gas, the secondary mechanical separation is carried out in two stages, the first stage being carried out in flotation mode using the effect residual gas evolution, the second stage of the secondary mechanical separation is carried out in the gravitational deposition mode together with the Quaternary mechanical separation, the effluent before the tertiary mechanical separation stage is subjected to mixing with reagents and regenerative heating using moist gas as a coolant, providing an increase in pH to 10-11 units. and a temperature of at least 35 ° C, the condensate formed is drained into the supernatant, the supernatant is subjected to aeration using chilled moist gas to produce process water and an ammonia-rich gas mixture, the ammonia-rich gas mixture is used in the preparation of fertilizers. 2. A construction for implementing a method of processing organic substrates into fertilizers, biogas and industrial water, consisting of a primary mechanical thickener, a bioreactor pretreated in series with a liquid fraction equipped with mixing and removal of wet gas, a secondary mechanical thickener, an anaerobic bioreactor with immobilized microflora, a tertiary mechanical thickener, as well as a solid-phase anaerobic bioreactor equipped with mixing means, with an input the house of which all the outputs of the mechanical thickeners in solid fraction are connected, the output of which is connected to the input of the Quaternary mechanical thickener, as well as the fertilizer preparation unit, the input of which is connected to the output of the Quaternary mechanical thickener in the solid fraction, the output of anaerobic bioreactors connected to the gas storage, characterized in that the pretreatment bioreactor is additionally equipped with aeration means, the secondary mechanical thickener is made of two sections, the first section is structurally designed as a flotator equipped in the upper part with flotation concentrate removal means, the second section and the tertiary mechanical thickener are structurally designed as sedimentation tanks, the outputs of which in solid fraction are connected to the inlet of the Quaternary mechanical thickener, the Quaternary mechanical thickener is placed in one housing with a solid-phase anaerobic bioreactor in its upper part covering at least partially the body of the aerobic bioreactor and placed inside it coaxially the first and second section of the secondary mechanical a thickener, an anaerobic bioreactor with immobilized microflora, a tertiary mechanical thickener, and the tertiary mechanical thickener is made with a downward-upward movement of the effluent, the section with a downward movement is connected to the source of the pH correction reagent and equipped with a recuperative heat exchanger, the cavity of which is connected with the pretreatment bioreactor moist gas and by means of a steam trap with effluent flow, an aerator is provided in the section with upward movement, connected th with the exit of gas from the recuperative heat exchanger, and the upper part of the plot is connected to the fertilizer preparation unit via a steam line.