CN108675841A - A kind of production technology that liquid fertilizer being made using skeletal grain waste water - Google Patents

Abstract

The invention discloses a kind of production technology that liquid fertilizer being made using skeletal grain waste water, preparation process is as follows：S1, infusion after taking skeletal grain waste water to be mixed in proportion with cane suger obtain preliminary treatment skeletal grain waste water；S2 takes preliminary treatment skeletal grain waste water to be filtered, after filtering under normal temperature state cooling gluey semi-finished product；S3 is mixed gluey semi-finished product with cane suger, ferment bacterium and soya bean juice by following weight ratios：0.5~1.5 part of gluey semi-finished product；0.02~0.04 part of 0.01~0.02 part of ferment bacterium and soya bean juice；The mixture of S3 is placed in the fermentation of round interior sealing by S4；S5 ferments and started the mixture to ferment in every 24 hours agitated fermentation vessels to the 4th day；S6 is got product after object complete fermentation to be mixed.Manufacture craft of the present invention is simple, at low cost, environmentally protective, effectively improves soil, increases fertility of land, and increases yield, improves the advantages that product mouthfeel, notable to salt-soda soil experiment effect, in the experimental verification of northwest Helan County agricultural technology extension service centre.

Description

A kind of production technology that liquid fertilizer being made using skeletal grain waste water

Technical field

The present invention relates to fertilizer technical field of manufacturing process, specially a kind of life that liquid fertilizer being made using skeletal grain waste water Production. art.

Background technology

Remaining a large amount of waste water after the skeletal grain of skeletal grain product processing enterprise production at present after testing, are found containing rich in waste water Protein, ammonia, phosphorus, potassium and trace copper, iron, zinc, boron, magnesium, the molybdenum of richness, calcium.General manufacturing enterprise by waste water straightly discharging rivers, Ditch or the row of falling deserted mountain gully, smelly water crossing current, because mosquitos and flies grows, bacterium mass propagation and seriously pollute environment, give human health It causes to seriously affect.And waste water contains abundant protein, and trace element passes through further technical finesse, and waste water is made to be filled Divide and utilizes.It is not easy to absorb nutrition by original plant to be converted into and can be absorbed by plants nutrition.It two obtains to realize, can both protect at one stroke Ecological environment can turn waste into wealth again.It is to contribute greatly human society one.

Invention content

The purpose of the present invention is overcoming the above-mentioned prior art, one kind is provided and is skillfully constructed, is sent out using skeletal grain waste water The production technology for the liquid fertilizer that the nutrient absorbed is easy containing plant is converted to after ferment, technological process is simple and environmentally friendly.

The present invention can be achieved through the following technical solutions：

A kind of production technology that liquid fertilizer being made using skeletal grain waste water, is comprised the following steps that：

S1, after taking skeletal grain waste water to be mixed in proportion with cane suger infusion make sugarcane by infusion to get preliminary treatment skeletal grain waste water Sugar is dissolved completely in skeletal grain waste water, while being sterilized to skeletal grain waste water by high temperature；

S2 takes the preliminary treatment skeletal grain waste water that S1 processing obtains to be filtered, and cooling obtains glue under normal temperature state after filtering Semi-finished product, gluey semi-finished product can be described as " bone essence " semi-finished product, containing abundant protein, ammonia, phosphorus, potassium and trace copper, iron, Zinc, boron, magnesium, molybdenum, calcium.

S3, the gluey semi-finished product that S2 processing is obtained are with cane suger, ferment bacterium and soya bean juice by following weight part ratios Example mixing：0.5~1.5 part of gluey semi-finished product；0.02~0.04 part of 0.01~0.02 part of ferment bacterium and soya bean juice；It is sweet by being added Sucrose, soya bean juice are added ferment bacterium and are fermented using the nutriment of addition, nutriment is decomposed as nutriment For small-molecular-weight nutriment, it is more advantageous to plant absorption, meets needs of the plant growth to Nutrient Absorption, it is especially sugared Molecule was that a molecule glucose and a molecule fructose are combined into originally, this is higher due to molecular weight, it is difficult to be inhaled by plant cell It receives, and cane suger is decomposed the very strong glucose of viablity and fructose by the invertase in ferment bacterium, is conducive to plant absorption；

The mixture of S3 is placed in the fermentation of round interior sealing by S4；Sealing allows ferment bacterium to carry out aerobic fermentation to nutriment；

S5 ferments and started the mixture to ferment in every 24 hours agitated fermentation vessels to the 4th day；Stirring mixture makes outside air Into in round, so that ferment bacterium is in aerobic environment and ferment, and be conducive to ferment bacterium breeding, keeps fermentation more abundant.

S6 is got product after object complete fermentation to be mixed.Organic substance in skeletal grain waste water after fully fermenting by making not The organic matter for being easy to be absorbed by plants is converted to plant and is easy inorganic nutrients and the trace elements such as the nitrogen, phosphorus, the potassium that absorb, uses Trickle irrigation may be used in journey, can also be absorbed by the pore of sprayed plants blade, reach nutritional ingredient and fully absorbed, It is skillfully constructed, manufacture craft is simple, at low cost, and social benefit, economic benefit and Ecological Effect Yidu are very notable.

Further, the S1 is first boiled with high heat to skeletal grain waste water temperature during infusion reaches 100 DEG C, is cooled to By S2 processing after room temperature.It is first boiled with high heat to skeletal grain waste water temperature and achievees the effect that 100 DEG C can reach effective sterilizing, it is cooling The nutriment in skeletal grain waste water can be made to be precipitated to room temperature, the loss of a large number of nutrients when avoiding follow-up S2 filtration treatments.

Further, the mixed proportion of the S1 skeletal grains waste water and cane suger is 3:1~2:1.It is preferred that skeletal grain waste water with it is sweet The mixed proportion of sucrose is 3:1, cane suger, which is first added, can increase the saturation degree of skeletal grain waste water with the dark conjunction of skeletal grain waste water, make skeletal grain Nutriment in waste water is more precipitated.

Further, gluey semi-finished product described in S3 press weight ratio below with cane suger, ferment bacterium and soya bean juice Mixing：1 part of gluey semi-finished product；0.03 part of 0.01 part of ferment bacterium and soya bean juice.It is mixture prepared by this weight ratio Organic matter contained by liquid fertilizer is substantially converted inorganic nutrients and trace element to be easy to be absorbed by plants, reduces object The waste of material.

Further, round described in S4 is close in a down-to-earth manner by round mouth with 2~3 layers of white gauze or other gas permeable materials Envelope.Be using white gauze or the sealing of other gas permeable materials in order to keep in round gas and the external world have it is certain be connected to, prevent Bulk gas is generated when ferment bacterium is fermented makes pressure increase in round that mixture be caused to spray round.

Further, the S5 mixings time are 10~20 minutes.Mixing time, which is shorter than 10 minutes, can not make outside air Completely into round, and the fermentation gas generated in round can not be discharged completely, mixing time is longer than 20 Minute then reduces working efficiency.

Further, in S6, the time needed for complete aerobic fermentation is 12~15 days.Aerobic fermentation can effectively will be organic Object be converted into plant be easy absorb inorganic matter and trace element, the time be shorter than 12 days then aerobic fermentation it is incomplete, cause to prepare Also contain large amount of organic in obtained liquid fertilizer, be unfavorable for plant absorption, reduce the effect of liquid fertilizer, the time is longer than 15 It then increases the production time.And since the phenomenon that fermenting, is more slow, it is difficult to once judge it is clear, by stirring, if gas Steep it is more and more and liquid surface also have bubble or mould then illustrate saccharomycete generate bacterium colony, if produce it is above-mentioned this A little phenomenons can then use.

The production technology of liquid fertilizer is made using skeletal grain waste water by the present invention, has following advantageous effect：

The first, manufacture craft is simple；Organic matter in skeletal grain waste water can be decomposed by the present invention by the operation of 6 steps to be conducive to plant The inorganic matter and trace element that object absorbs, preparation process is simple, and each operating procedure is not necessarily to additional specially treated, factory behaviour Making worker can skillfully be handled by simple training, be easy to promote the use of on the market；

The second, at low cost, it is environmentally protective；The present invention is fermented using the waste water generated in skeletal grain preparation process, will be in waste water Organic matter be converted to the inorganic nutritive element and trace element for being conducive to plant absorption, meet plant growth to nutrient inhale The needs of receipts, turn waste into wealth simultaneously, environmental protection, and the influence to ecological benefits, Social benefit and economic benefit is huge；

Third effectively improves soil, increases fertility of land；The present invention utilizes skeletal grain waste water, by the way that cane suger, soya bean juice and ferment is added Bacterium is fermented to obtain containing abundant inorganic nutritive element and trace element, and soil can be effectively improved after, improves ground Power improves yield of commercial crops, improves quality of agricultural product, extends product freshness date, has flower and fruit protecting effect to fruit tree, especially Northwest alkaline land soil, effect is very notable, crops can be made to reduce seedling death phenomenon using liquid fertilizer of the present invention, improve production Amount, to make increasing peasant income.

Specific implementation mode

In order that those skilled in the art will better understand the technical solution of the present invention, with reference to embodiment to this hair It is bright to be described in further detail.

Embodiment 1

A kind of production technology that liquid fertilizer being made using skeletal grain waste water, is comprised the following steps that：

S1 takes skeletal grain waste water with cane suger by 3:1 ratio mixing after infusion to 100 DEG C to get preliminary treatment skeletal grain waste water；

S2 takes the preliminary treatment skeletal grain waste water that S1 processing obtains to be filtered, and cooling obtains glue under normal temperature state after filtering Semi-finished product；

S3 is mixed gluey semi-finished product and cane suger, ferment bacterium and soya bean juice that S2 processing obtains by following weight ratios It closes：0.5 part of gluey semi-finished product；0.02 part of 0.01 part of saccharomycete and soya bean juice；

The mixture of S3 is placed in round and is sealed by fermentation round mouth in a down-to-earth manner with 2 layers of white gauze by S4；

S5 ferments to the 4th day and starts the mixture to ferment in every 24 hours agitated fermentation vessels, and each mixing time is 20 points Clock；

S6, object complete fermentation to be mixed are got product after 12 days.

Embodiment 2

A kind of production technology that liquid fertilizer being made using skeletal grain waste water, is comprised the following steps that：

S1 takes skeletal grain waste water with cane suger by 3:1 ratio mixing after infusion to 100 DEG C to get preliminary treatment skeletal grain waste water；

S2 takes the preliminary treatment skeletal grain waste water that S1 processing obtains to be filtered, and cooling obtains glue under normal temperature state after filtering Semi-finished product；

S3 is mixed gluey semi-finished product and cane suger, ferment bacterium and soya bean juice that S2 processing obtains by following weight ratios It closes：1 part of gluey semi-finished product；0.03 part of 0.01 part of ferment bacterium and soya bean juice；

The mixture of S3 is placed in round and is sealed by fermentation round mouth in a down-to-earth manner with 3 layers of white gauze by S4；

S5 ferments to the 4th day and starts the mixture to ferment in every 24 hours agitated fermentation vessels, and each mixing time is 20 points Clock；

S6, object complete fermentation to be mixed are got product after 15 days.

Embodiment 3

A kind of production technology that liquid fertilizer being made using skeletal grain waste water, is comprised the following steps that：

S1 takes skeletal grain waste water with cane suger by 2:1 ratio mixing after infusion to 100 DEG C to get preliminary treatment skeletal grain waste water；

S2 takes the preliminary treatment skeletal grain waste water that S1 processing obtains to be filtered, and cooling obtains glue under normal temperature state after filtering Semi-finished product；

S3 is mixed gluey semi-finished product and cane suger, ferment bacterium and soya bean juice that S2 processing obtains by following weight ratios It closes：1.5 parts of gluey semi-finished product；0.04 part of 0.02 part of ferment bacterium and soya bean juice；

The mixture of S3 is placed in round and is sealed by fermentation round mouth in a down-to-earth manner with 3 layers of white gauze by S4；

S5 ferments to the 4th day and starts the mixture to ferment in every 24 hours agitated fermentation vessels, and each mixing time is 20 points Clock；

S6, object complete fermentation to be mixed are got product after 15 days.

Technique through the invention makes the organic substance in skeletal grain waste water make to be not easy to be absorbed by plants after fully fermenting Organic matter is converted to plant and is easy to inorganic battalion's part and the trace elements such as the nitrogen, phosphorus, the potassium that absorb, meets plant growth to nutrient The needs of absorption can also be absorbed by sprayed plants blade pore with trickle irrigation, be reached nutrition and fully absorbed, It is skillfully constructed, and manufacture craft is simple, at low cost, social benefit, economic benefit, and Ecological Effect Yidu is very notable.

Soil is effectively improved by liquid fertilizer made from the technique, increases agricultural output, improves quality of agricultural product, it is thorough Bottom changes that the agricultural product fruit gone out by chronic administration chemical fertilizer production is sweetless, meter Bu Xiang, the tasteless technical barrier of dish.It can also extend fresh Flower, fresh-keeping of vegetables phase.Especially northwest China salt-soda soil can reduce seedling death phenomenon using liquid fertilizer made from skeletal grain waste water, Improve the small shoot survival percent of crops, increase crop yield, effect it is really significant.

By testing present invention process resulting product, test data is as follows：

Experiment 1

Test site：Experiment is located at the progress of Huizhou Huidong County towns Duo Zhu Mingxi village, and experimental field soil property is sandy loam, fertilizer Under in power, preceding crop is pakchoi.

Experimental unit：Huidong County of Guangdong Province Institute of agricultural sciences

For studying object：Cabbage heart, kind are the sharp leaf oil blueness beet heart.

For trying fertilizer：The skeletal grain wastewater liquid fertilizer that the present invention is prepared contains 12%（N:2, P:6）, calcium 4%, by inventing People provides.

Experimental design

Experiment sets 3 processing, each handles 3 repetitions, random district's groups arrangement, plot area 20m², each processing designs as follows：

Processing one：The fertilizer for habits fertilization+start to be prepared every present invention process of 7 days foliage-sprays in cabbage heart seedling, Full period sprays 4 times altogether；

Processing two：Habits fertilization+and one same period of processing do not spray any fertilizer（Routine control）；

Processing three：Habits fertilization+and one same period of processing spray the clear water of equivalent（Clear water compares）.

Cultivation management：

Cabbage heart carried out machine sowing on May 26th, 2017, and 6.4 ten thousand plants of mu Basic Seedling, June 21, which received, to be finished, off-test.Everywhere Reason fertilising situation is as follows：It respectively handles equal mu and applies 250kg refined organic fertilizers and make base manure；Top dressing is primary, in 20kg welfares on June 10 Imperial composite fertilizer（17-5-23）Make top dressing.Processing one respectively sprays once respectively at June 1, June 7, June 13 and 19* days June The fertilizer that present invention process is prepared, spraying concentration 1:200, each mu fertilizer application amount is respectively first time 5kg/ mu, and rear three It is 20kg/ mus secondary；Handling for two same periods does not spray any fertilizer；Handling for three same periods sprays equivalent clear water.The time of infertility waters 20 times altogether, It sprays 3 times altogether.

Test result：

Observation gained during experiment, cabbage heart plant height, leaf width and the leaf length for handling one are respectively 88.0%, 61.7%, 15.1%, leaf Piece width increasing degree is respectively 118.8%, 31.4%, 17.4%, length of blade increasing degree is respectively 88.9%, 61.2%, 12.4%；It is respectively 80.0%, 58.9%, 14.7% to handle two cabbage heart plant height increasing degrees.Width of blade increasing degree is respectively 113.3%, 37.5%, 15.9%, length of blade increasing degree is respectively 78.3%, 61.0%, 13.6%；Handle the growth of three cabbage heart plant heights Amplitude is respectively 78.4%, 60.4%, 13.0%, and width of blade increasing degree is respectively 100.0%, 34.4%, 16.3%, length of blade Increasing degree is respectively 76.6%, 61.4%, 14.2%.When harvest, one cabbage heart plant height of processing, width of blade, length of blade, blade Number is respectively than the increase by 6.7%, 5.9%, 2.7%, 1.6%, 0% of processing two；Respectively than processing three increase by 6.1%, 8.0%, 5.0%, 5.0%、0%.The result shows that the Growth of Brassica Parachinensis phase sprays the fertilizer that 4 present invention process are prepared altogether, the growth of cabbage heart can be promoted, Obviously increase cabbage heart plant height and width of blade.

Experiment 2

Test site：Experiment is located at the Ningxia Helan County townshiies Chang Xin and is carried out for outer Vegetable Base, and experimental field soil property is salt-soda soil, soil fertility Horizontal relatively low, irrigation condition is good, and experimental plot is long-term rice field, and last year carries out rice drought ring and makees maize planting.

Experimental unit：Ningxia Helan County agricultural technology extension center

For studying object：Cabbage heart, kind are 70 cabbage heart of base main breed Guangdong.

For trying fertilizer：The skeletal grain wastewater liquid fertilizer that the present invention is prepared contains 12%（N:2, P:4, K:6）, calcium 4%, by Inventor provides.

Experimental design

Base is divided into trial zone and contrast district, trial zone and contrast district select the adjacent 6 ridge cabbage heart, area to be respectively respectively 714m², convert into 1.07 mu.

Trial zone processing：Habits fertilization+start to prepare every present invention process of 4~6 days foliage-sprays in cabbage heart seedling Obtained fertilizer, full period spray 4 times altogether, and the wherein first time liquid fertilizer amount of spraying is 0.54kg, and the amount of spraying is for the second time 1.07kg, the amount of spraying is 1.61kg for the third time, and the 4th amount of spraying is 2.14kg；

Contrast district is handled：Habits fertilization+and one same period of processing spray the clear water of equivalent（Clear water compares）.

Cultivation management：

Cabbage heart carries out machine sowing in July, 2017, experimental plot top dressing, pour water, the management such as disease pest and weed is according to base Routine Management side Formula is managed collectively, and the time of infertility amounts to top dressing 2 times, spray（It fills）Water 30 times；Each processing does not break out disease pest and weed and natural calamity, Growth of Brassica Parachinensis is normal.

Test result：

Observation gained during experiment, before trial zone sprays, there are about 30% cabbage heart seedling growth is weaker, blade is yellowish, sprays 2 After secondary, these Brassica campestris leaves colors become strong green by faint yellow, and cabbage heart growing way is healthy and strong；After entire trial zone sprays 2 times, cabbage heart Leaf color is dark green compared with contrast district, this performance is until harvesting.

In 2~7 recovery process of August, before harvesting the middle and later periods investigate respectively 2 processing cabbage heart Major Developmental Traits （Except mu strain number）, after arranging survey data, the results are shown in Table 1.

The different cabbage heart Major Developmental Traits application forms of table 1

Processing	Mu strain number	Plant height	Stem length	Stem thickness	Weight per plant	Theoretical yield
							Trial zone	3.57	19.22	12.55	0.85	27.2	971.04
Contrast district	3.56	18.41	12.27	0.83	26.0	925.6

Note：Stem length is commodity cabbage heart stem length in table 1；Stem thickness is commodity cabbage heart diameter of stem.

1 survey data of table is found out：Trial zone cabbage heart plant height is higher than contrast district by 4.4%, and stem length length 2.28%, single plant is heavy 4.62%, trial zone cabbage heart Major Developmental Traits are better than contrast district, and theoretical yield increases by 4.91%.

During harvesting, each processing harvests 3 times respectively, and the record of commodity yield of flowering Chinese cabbage is shown in Table 2.

Respectively processing market vegetables heart yield records table to table 2

Unit：Kg/ cells, kg/ mu

Processing	1st time	2nd time	3rd time	It is total	Roll over per mu yield
						Trial zone	347.4	318.5	172.9	838.8	783.93
Contrast district	325.2	304.3	166.7	796.2	744.11

Trial zone commodity yield of flowering Chinese cabbage is compared with contrast district volume increase 5.35%.

By above-mentioned experimental data as it can be seen that the liquid fertilizer that present invention process is prepared can make Brassica campestris leaves dark It is green, improve yield of flowering Chinese cabbage, hence it is evident that increase economic benefit.

The foregoing is only a preferred embodiment of the present invention, is not intended to limit the present invention in any form；It is all The those of ordinary skill of the industry can implement the present invention by the above and swimmingly；But all technologies for being familiar with this profession Personnel without departing from the scope of the present invention, a little change for being made using disclosed above technology contents, Modification and the equivalent variations developed, are the equivalent embodiment of the present invention；Meanwhile all substantial technologicals according to the present invention are to above The variation, modification and evolution etc. of any equivalent variations made by embodiment still fall within the protection model of technical scheme of the present invention Within enclosing.

Claims (7)

1. a kind of production technology that liquid fertilizer being made using skeletal grain waste water, it is characterised in that：It comprises the following steps that：

S1, infusion is to get preliminary treatment skeletal grain waste water after taking skeletal grain waste water to be mixed in proportion with cane suger；

S2 takes the preliminary treatment skeletal grain waste water that S1 processing obtains to be filtered, and cooling obtains glue under normal temperature state after filtering Semi-finished product；

S3 is mixed gluey semi-finished product and cane suger, ferment bacterium and soya bean juice that S2 processing obtains by following weight ratios It closes：0.5~1.5 part of gluey semi-finished product；0.02~0.04 part of 0.01~0.02 part of ferment bacterium and soya bean juice；

The mixture of S3 is placed in the fermentation of round interior sealing by S4；

S5, fermenting to the 4th day, it is primary to start the mixture to ferment in every 24 hours agitated fermentation vessels；

S6 is got product after object complete fermentation to be mixed.

2. the production technology according to claim 1 that liquid fertilizer is made using skeletal grain waste water, it is characterised in that：It is described S1 is first boiled with high heat to skeletal grain waste water temperature during infusion reaches 100 DEG C, is cooled to after room temperature by S2 processing.

3. the production technology according to claim 2 that liquid fertilizer is made using skeletal grain waste water, it is characterised in that：The S1 The mixed proportion of skeletal grain waste water and cane suger is 3:1~2:1.

4. the production technology according to claim 3 that liquid fertilizer is made using skeletal grain waste water, it is characterised in that：S3 institutes Gluey semi-finished product are stated to mix by weight ratio below with cane suger, ferment bacterium and soya bean juice：1 part of gluey semi-finished product；Ferment 0.03 part of 0.01 part of plain bacterium and soya bean juice.

5. the production technology according to claim 4 that liquid fertilizer is made using skeletal grain waste water, it is characterised in that：S4 institutes Round is stated to be sealed round mouth in a down-to-earth manner with 2~3 layers of white gauze or other gas permeable materials.

6. according to the production technology that liquid fertilizer is made using skeletal grain waste water described in claim 5, it is characterised in that：It is described S5 mixings time are 10~20 minutes.

7. the production technology according to claim 6 that liquid fertilizer is made using skeletal grain waste water, it is characterised in that：In S6 In, the time needed for complete aerobic fermentation is 12~15 days.