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Method for using saponin waste water to improve soil and plant blueberries

A technology for improving soil and wastewater, applied in botany equipment and methods, land preparation methods, applications, etc., can solve problems such as high concentration of organic pollutants, environmental pollution saponin industrial production, and difficult treatment, so as to improve economic benefits, The improvement cycle is shortened and the operation is simple and easy.

Active Publication Date: 2016-05-11
SHAANXI UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the environmental pollution caused by saponin wastewater is also a bottleneck problem in saponin industrial production.
Saponin wastewater has the characteristics of large chroma, high concentration of organic pollutants, high acidity, and high temperature. It is difficult to treat and causes great pollution to the surrounding water and soil.
[0005] So far, although there are many reports on saponin wastewater treatment technology, the commonly used methods include physical and chemical pretreatment technology and biochemistry, neutralization-anaerobic biological treatment (UASB)-aerobic biological treatment (SBR), two-phase anaerobic + Aerobic combined process, absorption biodegradation method (AB method), sequencing batch activated sludge method (SBR), etc., but the development and utilization of saponin wastewater as a resource has not been reported

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0024] The method for using saponin waste water to improve soil for planting blueberries comprises the steps:

[0025] The first step, take the material

[0026] Take diosgenin wastewater and irrigation water, wherein the pH value of diosgenin wastewater is 0.1, the sugar content is 1%, and the COD value is 110000mg / L; the diosgenin wastewater and irrigation water are processed according to the volume ratio of 1:100000 Mix to obtain mixed water with a pH of 4 to 5;

[0027] The second step is to improve the soil

[0028] Use the mixed water obtained in the first step to irrigate the soil, and use 50m mixed water per mu of soil 3 , so that the pH of the soil is adjusted to 4.5-5.5, and then add peat and straw to the soil and perform deep plowing, wherein the mass ratio of peat and straw to the soil is 0.03:1; improve soil porosity and obtain improved soil;

[0029] The third step, colonization

[0030] Dig a planting hole in the improved soil obtained in the second step, se...

Embodiment 2

[0034] The method for using saponin waste water to improve soil for planting blueberries comprises the steps:

[0035] The first step, take the material

[0036] Take diosgenin wastewater and irrigation water, wherein the pH value of diosgenin wastewater is 3.5, the sugar content is 5%, and the COD value is 20000mg / L; the diosgenin wastewater and irrigation water are treated according to the volume ratio of 1:10 Mix to obtain mixed water with a pH of 4 to 5;

[0037] The second step is to improve the soil

[0038] Use the mixed water obtained in the first step to irrigate the soil, and use 200m of mixed water per mu of soil 3 , so that the pH of the soil is adjusted to 4.5-5.5, and then add rice husks to the soil and perform deep plowing, wherein the mass ratio of rice husks to soil is 0.1:1; improve soil porosity and obtain improved soil;

[0039] The third step, colonization

[0040] Dig a planting hole in the improved soil obtained in the second step, select 1-2 year ol...

Embodiment 3

[0044] The method for using saponin waste water to improve soil for planting blueberries comprises the steps:

[0045] The first step, take the material

[0046] Take diosgenin wastewater and irrigation water, wherein the pH value of diosgenin wastewater is 0.2, the sugar content is 4%, and the COD value is 60000mg / L; the diosgenin wastewater and irrigation water are processed according to the volume ratio of 1:100000 Mix to obtain mixed water with a pH of 4 to 5;

[0047] The second step is to improve the soil

[0048] Use the mixed water obtained in the first step to irrigate the soil, and use 100m of mixed water per acre of soil 3 , so that the pH of the soil is adjusted to 4.5-5.5, and then add leaves to the soil and perform deep plowing, wherein the mass ratio of leaves to soil is 0.08:1; improve soil porosity and obtain improved soil;

[0049] The third step, colonization

[0050] Dig a planting hole in the improved soil obtained in the second step, select 1-2 year o...

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PUM

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Abstract

The invention discloses a method for improving soil to plant blueberries by using saponin wastewater. The method comprises four steps of fetching the saponin wastewater and irrigation water, improving the soil, performing field planting and performing regular watering. By the adoption of the method for improving the soil to plant the blueberries by using the saponin wastewater, the cost input is mainly the transportation cost of the saponin wastewater, 0.01 m<3>-0.5 m<3> of the saponin wastewater is needed by per mu of land, one truck transports 8 m<3> wastewater at a time, the transportation expense is 100 yuan at a time, and then people need to input 0.125-6.25 yuan averagely per mu of land. Compared with a traditional improved method in which the soil improvement cost is 10,000-50,000 yuan per mu of land, the cost input in the method for improving the soil to plant the blueberries by using the saponin wastewater can be regarded as zero-cost input basically, and the economic benefits can be directly increased by 10,000-50,000 yuan per mu of land. Moreover, in the method, the field soil is improved in an irrigated mode, compared with a traditional mode of shedding and mixing sulphur powder, operation is more convenient, and the improvement cycle is substantially shortened. The required improvement time in the traditional improvement method is 6-12 months, while the required improvement time in the method is only 7 days. The method is easy and convenient to implement, and the management of a blueberry garden is facilitated.

Description

technical field [0001] The invention belongs to the technical field of blueberry planting methods, and in particular relates to a method for using saponin wastewater to improve soil and plant blueberries. Background technique [0002] Blueberry is a fruit with very high nutritional value and economic value. It is rich in nutrients such as vitamins, proteins and minerals. Among them, the unique and precious anthocyanin pigment in blueberry is more than 20 times that of other fruits. The reputation of the king of green vegetables and fruits. However, blueberry growth and development conditions are harsh, and the development area is limited. There are two biggest constraints. The first is the requirement of acidic soil conditions, that is, pH4.2~5.5; the second is the climatic conditions, that is, the annual rainfall is above 800mm and the low temperature below 7.2℃ is above 500h. [0003] There are very few areas suitable for blueberry planting in my country, and most areas...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A01G1/00A01B79/02
CPCA01B79/02A01G22/00
Inventor 陈志远邸丽俊党娅曾海涛陈小华
Owner SHAANXI UNIV OF TECH
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