RU2006110378A - METHOD FOR ANAEROBIC PROCESSING OF ORGANIC WASTE AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Claims (3)

1. The method of anaerobic processing of organic waste, which consists in the fact that a moist pre-prepared organic biomass with anaerobic bacteria (sourdough) is placed in the anaerobic bioreactor and it is fermented with heat, while biogas and liquid organic fertilizer are selected from the anaerobic bioreactor, process control is carried out using a programmable computer, characterized in that the entire source biomass is pre-crushed and mixed, and also mixed with fermented sludge for additional insemination and preheated, after which it is placed in an anaerobic bioreactor and intensively mixed throughout the process with a frequency of several times per hour. 2. The method according to claim 1, characterized in that the anaerobic bioreactor is sealed and creates a constant vacuum in it from 0.05 to 0.90 atm at a temperature of from 40 to 56 ° C, maintaining these parameters throughout the process. 3. Installation of anaerobic processing of organic waste, containing an anaerobic bioreactor with a main biomass heater, a feed system, a biogas removal system with a vacuum pump, a liquid organic fertilizer removal system and a process control system made in the form of a programmable computer, characterized in that the anaerobic bioreactor is made in the form of a hermetically sealed container divided by vertical partitions (a heat exchanger partition installed in height from the bottom of the bioreactor body to the liquid mirror in the bioreactor, and a set of six overflow partitions perpendicular to it) to four sections hydraulically interconnected: the first (loading) section connected to the feed supply system, the second (preparatory) section, and the third section (intermediate) and fourth (drain), in communication with the liquid organic fertilizer removal system, while the first overflow partition is installed at the outlet of the loading section in height with a non-profit to the bottom of the body a bioreactor in excess of the mirror liquid in the bioreactor and bioreactor nedohodom to cover the housing, the second overflow baffle installed at the inlet of the preparatory section height from the bottom of the housing of the bioreactor with liquid nedohodom up mirror in the bioreactor, the third overflow baffle is installed at the outlet of the preparatory section in height with underflow to the bottom of the bioreactor body, with excess liquid above the mirror in the bioreactor and with underflow to the cover of the bioreactor, a fourth overflow baffle is installed at the outlet of the intermediate section in height from the bottom of the bioreactor body with non-income to the liquid mirror in the bioreactor, the fifth overflow baffle is installed at the entrance to the drain section in height with underflow to the bottom of the bioreactor body, with excess liquid above the mirror in the bioreactor and with underflow to the cover of the bioreactor, the sixth overflow weir is installed at the outlet of the drain section in height from the bottom of the bioreactor body with underflow to the liquid mirror in the bioreactor, additionally, a feedstock preparation system was introduced, connected to the input of the feedstock feed system, made in the form of a tank for receiving feedstock, equipped with a grinding device, a device for mixing and mixing the initial biomass with the transferred sludge and a device for its preliminary heating, while the output of the feed system the feedstock is connected to the cavity of the loading section of the anaerobic bioreactor, in addition, a device for intensive mixing of biomass inside the anaerobic bioreactor was introduced, made in the form of two pumps installed outside the body of the anaerobic bioreactor, the first of which is connected on one side to the outlet pipe of the preparatory section of the anaerobic bioreactor, and on the other hand is connected to the inlet pipe of the boot cavity section of the anaerobic bioreactor, while the second pump is connected on one side to the outlet pipe of the cavity of the drain section of the anaerobic bioreactor, and on the other hand, it is connected to the inlet pipe of the cavity of the intermediate section of the anaerobic bioreactor.