RU2683226C1 - Method of obtaining compost based on sediment waste water - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: method for producing compost based on sewage sludge includes wastewater treatment with actinomycete Str. chromogenes sg 0832, mixing the resulting sediment with sawdust tree species and keratin waste - bird feather, further aerobic composting of the mixture. Sizes of sawdust are 2–5 mm, and keratin wastes are 5–10 cm. Mass ratio of sawdust, keratin wastes and sewage sludge is 2:0.5:1, respectively.EFFECT: invention provides a reduction in composting time and an increase in the fertilizer value of the final target product.1 cl, 3 ex, 3 tbl

Description

The invention relates to the field of agriculture and environmental biotechnology and can be used for the preparation of fertilizers from sewage sludge, poultry waste (bird feather), as well as the disposal of sewage sludge.

The active use of mineral nitrogen fertilizers has led to negative effects in nature, which include the influx of nitrates into groundwater, the accelerated mineralization of soil organic matter and, as a consequence, the imbalance of the nitrogen cycle that affects climate stability, and the subsequent changes in biosphere functions.

Therefore, biological farming is gaining increasing recognition: an increase in the share of ecologically clean and inexpensive “biological” nitrogen and a decrease in the use of mineral nitrogen fertilizers. The costs of producing and using an equal amount of “biological” nitrogen are 20-30 times less than “mineral”. Therefore, the use of environmentally friendly and cheap sources of "biological" nitrogen in most cases is justified not only environmentally, but also economically.

In this regard, it is worth paying attention to the precipitation formed after wastewater treatment. Their rational use will not only reduce the burden on aquatic ecosystems, but also use them in agriculture for enriching soils with nutritious organic substances.

Organic waste such as sewage sludge (WWS) is not inferior to litter manure in the quality of soil fertilizer. Due to the presence of organic and ash substances, WWS improves the chemical and physical properties of soils: the content of organic matter, moisture capacity and water permeability increase; structure improves; acidity is neutralized; the exchange capacity of cations, including many elements of the mineral nutrition of plants, is increasing; biochemical and biological activity increases.

A known method of producing fertilizers (PCT application No. 94/22789; IPC C05F 1/00; publ. 13.10.1994), which consists in grinding animal bones and mixing them with a humidifier (animal blood) and a stabilizer. The resulting mixture is decomposed in the composter for a long time.

Fertilizer prepared in a known manner enriches the soil with various useful substances, but does not improve its friability, aeration and hydration properties necessary for successful plant growth.

A known method of producing fertilizers from organic material (Pat. RF №2137735; IPC C05F 1/00; publ. 09/20/1999), including washing the feedstock with running water, drying, disinfection with hard long-wave ultraviolet radiation, grinding feathers of birds to fragments 2-5 see. After that, the mass is mixed with “poor” soil in a weight ratio of 1: 100 and composted, withstanding at least 1 month at elevated temperature (25-28 ° C) and high humidity (95-98%).

The disadvantages of this method are the complexity of the technological scheme and the high energy intensity of the process due to the washing of raw materials and the need for UV treatment.

A known method of processing sewage sludge (US Pat. RF No. 2508253; IPC C02F 11/14, B09C 1/08, C05F 7/00, C05F 17/00; publ. 02.27.2014), which uses sewage sludge with a humidity of 20 -40%, pre-fermented under natural conditions for at least three months, sodium bicarbonate is used as a binder in an amount of 2-3% of the dry mass of precipitation, a nitrogen source (urea) and a potassium source (potassium chloride) are used as mineral additives ) in the amount of respectively 5-7% and 5-6% of the dry mass of precipitation, and granulation is carried out at temperature 45-95 ° С.

The disadvantages of this method are the costs of preliminary fermentation of sewage sludge and the introduction of additional organic (urea) and mineral (potassium chloride) additives.

The closest to the proposed technical solution can be considered a method of preparing compost from sewage sludge (Pat. RF No. 2513558; IPC C05F 7/00; publ. 04/20/2014), including mixing fresh sewage sludge with an organic component, which is used as sawdust any tree species, and aerobic composting of the resulting mixture. Sewage sludge is stored for less than three years before composting. Before mixing the components, layer-by-layer laying of sawdust with a moisture content of 30-40% and a sewage sludge with a moisture content of 79-81% is made in a ratio of 3: 1, while the sawdust is bioactivated by spraying with a working solution of the EM-1 Baikal preparation at a flow rate 5 l per 1 t with its concentration in the working fluid of 0.0001%, in addition, aerobic composting of the resulting mixture is carried out in collars, while when the composted mixture reaches a temperature of 50-60 ° C, the mixture is incubated for 20 days, after which it is repeatedly interrupted a collar for two months with an interval of 15–20 days, followed by compost aging for 14–15 days. Adopted for the prototype.

The disadvantages of this method are the need for prolonged preliminary aging of sewage sludge with the aim of disinfection and bioactivation of sawdust with a solution of the drug EM-1 Baikal.

The aim of the invention is the utilization, bioconversion of hardly decomposable organic waste from the enterprises of the meat subcomplex of the agro-industrial complex (keratin waste) and WWS generated after the wastewater from these enterprises into a safe and effective organic fertilizer.

The invention solves the problem of simplifying the technology for producing organic fertilizers and increasing the fertilizer value of the final target product, while accelerating the compost maturation by activating the microbial community of the compost, improving sanitary-bacteriological and agrochemical indicators.

This is achieved by the fact that in the method for producing compost based on sewage sludge, comprising mixing fresh sewage sludge with an organic component, which is used as sawdust of any wood species, and aerobic composting of the resulting mixture, according to the invention, a formed sewage sludge containing cells actinomycete Str. chromogenes sg 0832 is also mixed with keratin waste (bird feather), moreover, the size of sawdust is 2-5 mm, keratin waste is 5-10 cm, and the mass ratio of sawdust, keratin waste and sewage sludge is 2: 0 , 5: 1, respectively.

A method of producing compost based on sewage sludge is as follows.

Sewage sludge is formed as a result of wastewater treatment of meat plants containing a large amount of protein, actinomycete Str. chromogenes s.g 0832. This microorganism exhibits a high proteolytic activity to protein contamination of effluents (keratin protein). Then, the resulting precipitate is mixed with sawdust and bird feather, which is a source of organic nitrogen (keratin protein), and composted under aerobic conditions for 30 days.

As filler, sawdust of any tree species of 2-5 mm in size and keratinous waste of 5-10 cm in size are used, which are mixed with sewage sludge in a mass ratio of 2: 0.5: 1, respectively, and then the mixture is composted.

Compost obtained by the present method, promotes aeration and soil improvement, and actinomycete cells Str. chromogenes s.g 0832, contained in compost, inhibits the growth of pathogenic bacteria, protecting plants from disease, and provides access to the plant nutrients in an easily digestible form.

Studies of the protein component of WWS have shown that it is represented by a high content of free amino acids (Table 1). The introduction of WWS containing free amino acids enables plants to obtain the substances necessary for the synthesis in an accessible state and not to spend additional time on the breakdown of protein molecules.

A method of producing compost based on sewage sludge is carried out in one of the following ways.

Example 1

WWS obtained after wastewater treatment Str. chromogenes s.g 0832, mixes with sawdust and keratin waste (feather) (1: 2: 0.5 ratio), and the resulting mixture is placed in collars, the average collar height is 1 m. Humidity of the composted mixture is maintained at 70-80%. To maintain aerobic processes, the compostable mixture was mixed after 2 days. The composting period was 30 days. Then, the obtained compostable substrate was stabilized in boxes 30 cm high, 25 cm wide, 50 cm long for 30 days.

Example 2

WWS obtained after wastewater treatment Str. chromogenes s.g 0832, mixes with keratin waste (feather) (1: 0.5 ratio), and the resulting mixture is placed in collars, the average collar height is 1 m. Humidity of the composted mixture is maintained at 70-80%. To maintain aerobic processes, the compostable mixture was mixed after 2 days. The composting period was 30 days. Then, the obtained compostable substrate was stabilized in boxes 30 cm high, 25 cm wide, 50 cm long for 30 days.

Example 3

WWS obtained after wastewater treatment Str. chromogenes s.g 0832, is mixed with sawdust (1: 2 ratio), and the resulting mixture is placed in collars, the average collar height is 1 m. Humidity of the composted mixture is maintained at 70-80%. To maintain aerobic processes, the compostable mixture was mixed after 2 days. The composting period was 30 days. Then, the obtained compostable substrate was stabilized in boxes 30 cm high, 25 cm wide, 50 cm long for 30 days.

The composting temperature in all cases was 40-50 ° C. At this temperature, WWS disinfection and optimal synthesis of enzymes that break down the organic components of the mixture occur. The effect of composting WWS on the chemical composition of the resulting composts is presented in table. 2, for sanitary-bacteriological and parasitological indicators of composts - in table. 3.

An analysis of the chemical composition of composts shows that the proposed methods for the disposal of sewage sludge can produce safe organic fertilizers of high quality.

The advantages of the proposed method for producing compost on the basis of sewage sludge are that WWS, obtained immediately after purification and containing Str cells, is introduced into the compost mixture. chromogenes s.g 0832, which are bioactivator; sawdust is not pre-bioactivated; composting terms are reduced by 20 days; the content of nutrients (nitrogen, phosphorus, potassium) compost obtained by the claimed method exceeds the prototype 2.7-4.9; 6.1-7.6; 11.7-14.8 times, respectively; Converting organic waste into compost does not require sophisticated equipment or expensive additives.

Claims (1)

A method of producing compost based on sewage sludge, comprising mixing fresh sewage sludge with an organic component, which is used for sawdust of any tree species, and aerobic composting of the resulting mixture, characterized in that the resulting sewage sludge containing Str. chromogenes sg 0832, is also mixed with keratin waste - bird feather, and the size of sawdust is 2-5 mm, keratin waste is 5-10 cm, and the mass ratio of sawdust, keratin waste and sewage sludge is 2: 0, 5: 1 respectively.