CN110249969A - It is a kind of native based on the planting technique that large-sized biogas engineering by-product biogas residue is raw material - Google Patents

Abstract

The present invention relates to garden engineering technology fields, it is especially a kind of based on the planting technique soil that large-sized biogas engineering by-product biogas residue is raw material, especially by raw material mixed fermentation, aerobic compost, turn over and throw ageing water removal and auxiliary material is mixed with the several steps of native finished product and completes preparation to planting technique soil；The present invention realizes the standardized production of afforestation native produce, and because using large-sized biogas engineering by-product biogas residue for raw material, consistency has been ensured from raw material, it can obtain standardized afforestation native produce, it solves the problems, such as that afforestation permeability of air is poor, water holding capacity is weak, lack nutrition and organic matter, increase the porosity of soil, organic matter contains and N-P-K content.

Description

It is a kind of native based on the planting technique that large-sized biogas engineering by-product biogas residue is raw material

Technical field

The present invention relates to garden engineering technology fields, more particularly to a kind of large-sized biogas engineering by-product biogas residue that is based on is original The planting technique soil of material.

Background technique

With the continuous aggravation of urbanization process, requirement of the people to ecological environment is more improved, landscape engineering Importance has a more obvious embodiment, and that there are standards is inconsistent, quality is irregular due to afforestation soil, management and Conserve the problems such as difficulty is big, using effect is undesirable；Greening used in domestic Garden Engineering is sufficiently complex with native source, a variety of Containing a large amount of raw-soil or stiff soil in afforestation soil, or even comprising various house refuses and building waste, shortage section in addition Management and various human activities cause the physicochemical character of afforestation soil and structure virtually being changed, and And there is a serious shortage of organic matters and all kinds of nutriments；The problem of greening soil embodies a concentrated expression of the following aspects: 1, gardens are green Change P in soil H value is excessively high, and mostly basic soil, high pH value can cause very detrimental effect to the growth of these plants；2, garden There is a serious shortage of organic matters and nutriment for woods green soil, and most of afforestation soil are all mountain soil or soil for building, are had Machine matter and nutritive element content are very few, seriously affect the normal growth of crop；3, afforestation is poor with native physicochemical character, and gardens are green The soil property of change is general, and gas permeability and water-retaining property are all on the weak side, and various lime, cement, stone are introduced in various work progress First-class impurity exacerbates the destruction to soil texture, leads to the physics and chemistry such as the soil weight is bigger than normal, porosity is small, size void ratio is low The problem of character difference occurs.

Summary of the invention

The purpose of the present invention is to solve exist in the prior art P in soil H it is excessively high and lack nutriment the shortcomings that, and It is proposed it is a kind of based on large-sized biogas engineering by-product biogas residue be raw material planting technique soil.

To achieve the goals above, present invention employs following technical solutions:

It designs a kind of based on the planting technique soil that large-sized biogas engineering by-product biogas residue is raw material, specific manufacture craft packet Include following steps；

Step 1: raw material mixed fermentation；The chicken manure of the wheat stalk of 650kg and 350kg are mixed and import anaerobic fermentation pond In, by 60 days hot fermentations, obtain the greening raw material biogas residue of soil；

Step 2: aerobic compost；Biogas residue, chicken manure, calcium superphosphate and dedicated aerobic fermentation bacterium are subjected to mixing aerobic compost, Specific implementation steps are as follows:

A, the biogas residue of 700kg, the chicken manure of 300kg, 50kg calcium superphosphate and the dedicated aerobic fermentation bacterium of 1kg are first taken, then will All raw materials are placed in premixing workshop and are sufficiently mixed, and carry out aerobic static composting 8 days or more；

B, mixed raw material feeding compost case is subjected to 15 days or more by a definite date pressure aerobic composts with forklift again, and passes through wind Machine passes through the internal temperature that temperature testing equipment monitors compost case to being supported, cooled down and dehumidified inside compost case, dimension Holding the time is 8-9 days；

C, finally, mixed raw material is sent into aging tank by forklift；

Step 3: turning over throwing ageing water removal；It is specific to implement by being carried out turning over throwing ageing water removal to material with large-scale turner Steps are as follows:

(1), large-scale turner is installed in aging tank, is turned over and is thrown in slot to mixed material progress in a formula by turner Throwing, daily turning and throwing once are turned over, and passes through the temperature and humidity of temperature and moisture detection apparatus monitoring material, until material is completely rotten Ripe and humification；

(2), decomposed material is put on material screening machine again and is sieved, remove stone particle and other sundries in material；

(3), finally decomposed material after screening is sent into crushing and carries out pulverization process, while by the decomposed material of conglomeration It is broken into tiny graininess；

Step 4: auxiliary material is mixed with native finished product；Decomposed material, coarse sand, thick vermiculite and fertile soil are mixed, specifically Implementation steps it is as follows:

A, it takes the fertile soil of the decomposed material of 250kg, the coarse sand of 360kg, the thick vermiculite of 50kg and 350kg to be sent into large size to stir It mixes in machine and is mixed；

B, start blender, so that mixed material is sufficiently mixed；

C, the revolving speed of blender is controlled, the stirring duration is 30-40 minutes, obtains the finished product of planting technique soil.

Preferably, in step 1, anaerobic fermentation pond is heated using steam, and fermentation generates biogas and provides fuel for boiler, and Boiler adds thermogenetic steam to be the heat supply of anaerobic fermentation pond and steam-electric power, to realize the cogeneration of heat and power of biogas.

Preferably, in step 1, the heating and temperature control in anaerobic fermentation pond is between 53.5 DEG C -55 DEG C, meanwhile, it protects Biogas in anaerobic fermentation pond is quickly discharged card, avoids biogas by high temperature spontaneous combustion.

Preferably, in step 2, raw material biogas residue investment compost case carries out in pressure aerobic composting process, and the last stage works as temperature When degree rises to 50 DEG C, start to start blower oxygen supply, oxygen-supplying amount is supplied according to the ratio of material and air capacity 1:3, wherein Compost case is according to internal oxygen situation, supplemental oxygen at any time；When temperature reaches 72 DEG C, oxygen feeding stop is then turned on blower, Cooled down and dehumidified, so that the moisture content of material should be between 35%-40%.

Preferably, in step 3, during material carries out turning over throwing in aging tank, when temperature is stablized at 40 DEG C hereinafter, containing When water rate is down to 30% or less, throwing is turned in stopping, at this point, material completes decomposed and humification.

It is proposed by the present invention a kind of based on the planting technique soil that large-sized biogas engineering by-product biogas residue is raw material, beneficial effect It is:

1, the standardized production of afforestation native produce is realized, and because uses large-sized biogas engineering by-product natural pond Slag is raw material, and consistency has been ensured from raw material, can obtain standardized afforestation native produce；

2, it solves the problems, such as that afforestation permeability of air is poor, water holding capacity is weak, lack nutrition and organic matter, increase Porosity, the organic matter of soil contain and N-P-K content.

Detailed description of the invention

Fig. 1 is a kind of work based on the planting technique soil that large-sized biogas engineering by-product biogas residue is raw material proposed by the present invention Skill flow chart.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

Referring to Fig.1, a kind of based on the planting technique soil that large-sized biogas engineering by-product biogas residue is raw material, specifically make work Skill includes the following steps；

Step 1: raw material mixed fermentation；The chicken manure of the wheat stalk of 650kg and 350kg are mixed and import anaerobic fermentation pond In, anaerobic fermentation pond is heated using steam, and fermentation generates biogas and provides fuel for boiler, and boiler adds thermogenetic steam to be to detest The heat supply of aerobe fermentation pond and steam-electric power, by 60 days hot fermentations, obtain greening soil to realize the cogeneration of heat and power of biogas Raw material biogas residue；

Step 2: aerobic compost；Biogas residue, chicken manure, calcium superphosphate and dedicated aerobic fermentation bacterium are subjected to mixing aerobic compost, Specific implementation steps are as follows:

A, the biogas residue of 700kg, the chicken manure of 300kg, 50kg calcium superphosphate and the dedicated aerobic fermentation bacterium of 1kg are first taken, then will All raw materials are placed in premixing workshop and are sufficiently mixed, and carry out aerobic static composting 8 days or more；

B, mixed raw material feeding compost case is subjected to 15 days or more by a definite date pressure aerobic composts with forklift again, and passes through wind Machine monitors the internal temperature of compost case by temperature testing equipment to being supported, cooled down and dehumidified inside compost case, preceding Stage starts to start blower oxygen supply, oxygen-supplying amount is carried out according to the ratio of material and air capacity 1:3 when temperature rises to 50 DEG C Supply, wherein compost case is according to internal oxygen situation, supplemental oxygen at any time；When temperature reaches 72 DEG C, oxygen feeding stop, so After open blower, cooled down and dehumidified, holding time is 8-9 days so that the moisture content of material should 35%-40% it Between；

C, finally, mixed raw material is sent into aging tank by forklift；

Step 3: turning over throwing ageing water removal；It is specific to implement by being carried out turning over throwing ageing water removal to material with large-scale turner Steps are as follows:

(1), large-scale turner is installed in aging tank, is turned over and is thrown in slot to mixed material progress in a formula by turner Throwing, daily turning and throwing once are turned over, and passes through the temperature and humidity of temperature and moisture detection apparatus monitoring material, material is in aging tank It carries out during turning over throwing, when temperature is stablized at 40 DEG C hereinafter, when moisture content is down to 30% or less, throwing is turned in stopping, at this point, object Material completes decomposed and humification；

(2), decomposed material is put on material screening machine again and is sieved, remove stone particle and other sundries in material；

(3), finally decomposed material after screening is sent into crushing and carries out pulverization process, while by the decomposed material of conglomeration It is broken into tiny graininess, the pH value of decomposed material is 8.0 or so at this time, 30%≤moisture≤45%, porosity >=60%, Organic matter >=50%, other indexs have reached or are more than professional standard；

Step 4: auxiliary material is mixed with native finished product；Decomposed material, coarse sand, thick vermiculite and fertile soil are mixed, specifically Implementation steps it is as follows:

A, it takes the fertile soil of the decomposed material of 250kg, the coarse sand of 360kg, the thick vermiculite of 50kg and 350kg to be sent into large size to stir It mixes in machine and is mixed；

B, start blender, so that mixed material is sufficiently mixed；

C, the revolving speed of blender is controlled, the stirring duration is 30-40 minutes, obtains the finished product of planting technique soil.

Wherein, in step 1, the heating and temperature control in anaerobic fermentation pond is between 53.5 DEG C -55 DEG C, meanwhile, guarantee Biogas in anaerobic fermentation pond is quickly discharged, avoids biogas by high temperature spontaneous combustion.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (5)

1. a kind of based on the planting technique soil that large-sized biogas engineering by-product biogas residue is raw material, which is characterized in that specific production Technique includes the following steps；

Step 1: raw material mixed fermentation；The chicken manure of the wheat stalk of 650kg and 350kg are mixed and imported in anaerobic fermentation pond, warp The hot fermentation for spending 60 days obtains the greening raw material biogas residue of soil；

Step 2: aerobic compost；Biogas residue, chicken manure, calcium superphosphate and dedicated aerobic fermentation bacterium are subjected to mixing aerobic compost, specifically Implementation steps it is as follows:

A, the biogas residue of 700kg, the chicken manure of 300kg, 50kg calcium superphosphate and the dedicated aerobic fermentation bacterium of 1kg are first taken, then will be owned Raw material is placed in premixing workshop and is sufficiently mixed, and carries out aerobic static composting 8 days or more；

B, mixed raw material feeding compost case is subjected to 15 days or more by a definite date pressure aerobic composts with forklift again, and by blower to It supported, cooled down and is dehumidified inside compost case, while monitoring the internal temperature of compost case by temperature testing equipment, when maintenance Between be 8-9 days；

C, finally, mixed raw material is sent into aging tank by forklift；

Step 3: turning over throwing ageing water removal；By being carried out turning over throwing ageing water removal, specific implementation steps to material with large-scale turner It is as follows:

(1), large-scale turner is installed in aging tank, turns over to throw in slot in a formula by turner and mixed material is turned over It throws, daily turning and throwing once, and monitors the temperature and humidity of material by temperature and moisture detection apparatus, until material is completely decomposed And humification；

(2), decomposed material is put on material screening machine again and is sieved, remove stone particle and other sundries in material；

(3), finally the decomposed material after screening is sent into crushing and carries out pulverization process, while the decomposed material of conglomeration being crushed At tiny graininess；

Step 4: auxiliary material is mixed with native finished product；Decomposed material, coarse sand, thick vermiculite and fertile soil are mixed, it is specific real Apply that steps are as follows:

A, the fertile soil of the decomposed material of 250kg, the coarse sand of 360kg, the thick vermiculite of 50kg and 350kg is taken to be sent into large-scale blender In mixed；

B, start blender, so that mixed material is sufficiently mixed；

C, the revolving speed of blender is controlled, the stirring duration is 30-40 minutes, obtains the finished product of planting technique soil.

2. it is according to claim 1 a kind of native based on the planting technique that large-sized biogas engineering by-product biogas residue is raw material, It is characterized in that, in step 1, anaerobic fermentation pond is heated using steam, and fermentation generates biogas and provides fuel for boiler, and boiler adds Thermogenetic steam is the heat supply of anaerobic fermentation pond and steam-electric power, to realize the cogeneration of heat and power of biogas.

3. it is according to claim 1 a kind of native based on the planting technique that large-sized biogas engineering by-product biogas residue is raw material, Be characterized in that, in step 1, the heating and temperature control in anaerobic fermentation pond between 53.5 DEG C -55 DEG C, meanwhile, guarantee will be detested Biogas in aerobe fermentation pond is quickly discharged, and avoids biogas by high temperature spontaneous combustion.

4. it is according to claim 1 a kind of native based on the planting technique that large-sized biogas engineering by-product biogas residue is raw material, It is characterized in that, in step 2, raw material biogas residue investment compost case carries out in pressure aerobic composting process, the last stage, when temperature rises When to 50 DEG C, start to start blower oxygen supply, oxygen-supplying amount is supplied according to the ratio of material and air capacity 1:3, wherein compost case According to internal oxygen situation, supplemental oxygen at any time；When temperature reaches 72 DEG C, oxygen feeding stop is then turned on blower, is dropped Mild dehumidifying, so that the moisture content of material should be between 35%-40%.

5. it is according to claim 1 a kind of native based on the planting technique that large-sized biogas engineering by-product biogas residue is raw material, It is characterized in that, in step 3, during material carries out turning over throwing in aging tank, when temperature is stablized at 40 DEG C hereinafter, moisture content is low When to 30% or less, throwing is turned in stopping, at this point, material completes decomposed and humification.