UA134233U - METHOD OF INTEGRATION OF BIOGAS OUTPUT - Google Patents

Abstract

A method of intensifying biogas output involves the introduction into the organic waste of a stimulant. As a stimulator used fuz, which is added in a volume of 1.3% by weight of organically containing substance of the substrate at a temperature of digestion of 40 ° C.

Description

The useful model belongs to the field of waste processing, in particular to methods of obtaining biogas from organic waste.

The closest analogue was chosen (Patent No. 2351552, publ. 10.04.2009, Bul. No. 10, IPC

СоО2Е 11/04) a method of intensification of biogas output as a result of intensification of methane fermentation due to the introduction of purple amaranth phytomass as a stimulator.

The disadvantage of this method is that the use of amaranth phytomass, which is a valuable fodder for cattle and pigs (in the form of green mass and silage), as an additive to the substrate for biogas production, impoverishes the fodder base for the livestock industry. In addition, amaranth is a lateral crop, so the use of its phytomass as an additive to the substrate is not aimed at increasing soil fertility. The special cultivation of purple amaranth for use as an additive for the intensification of biogas output is associated with the unproductive use of arable land that could be grown for food and fodder crops.

The basis of a useful model is the task of creating a way to increase the maximum yield of biogas by adding a stimulating additive to the substrate, which would not have fodder and sideral value, would not occupy acreage during its cultivation, but would belong to substances that can be obtained from a plant source origin, while at the same time the question of intensification of the output of natural gas analog - biogas was solved. Fus belongs to such substances.

The task is solved by the fact that as a stimulating additive to the substrate for the production of biogas, fuzz is used, which is added in the amount of 1.3 956 from the mass of the substrate and fermented at a temperature of 40-50 76.

For a comparative analysis, a series of experiments was carried out on a laboratory biogas plant with a volume of a methane tank of 3 dm, operating on cattle waste products with a moisture content of 0.95-0.98 956 at thermophilic (52-58 70) and mesophilic (35- 40 C) temperature regimes.

The substrate for biogas production is prepared by mixing an organic substance (solid phase of cattle manure) and water to provide the necessary humidity. During mixing, fuze is added to the substrate in the amount of 1.3 95 from the weight of the substrate. Mixing ends when

From the formation of a homogeneous substance, without lumps and layers. Half of the substrate fermented for 9-11 days is replaced with the prepared substrate in order to preserve the microflora of methane-forming bacteria.

A comparative analysis of the intensification of biogas output is given on the graph.

It can be seen from the graph that without adding fuze to the substrate, there is a rapid intensification of biogas output, which, however, has not yet reached its maximum. In the case of adding fus to the substrate within 1.3 95 of the mass of the substrate, there is an increase in the biogas yield by 30 95, starting from the first day of fermentation, and by 200 l/kg of SOR manure, starting from the 15th day, while the biogas yield almost reaches its the maximum

The advantage of the proposed useful model is the fact that the maximum biogas output compared to the use of a substrate without a stimulating additive (depending on the temperature regime) increases by 200 l/kg.

Claims (1)

USEFUL MODEL FORMULA 45 The method of intensification of biogas output, which includes the addition of a stimulator to organic waste, which differs in that fuze is used as a stimulator, which is added in the amount of 1.3 95 of the mass of the organic substance of the substrate at a fermentation temperature of 40 "С.