TW201803970A - American high-tech land recovery and soil remediation technical method capable of restoring soil structure through the intermolecular antagonism/coordination/adsorption and permeation - Google Patents

Abstract

The invention discloses an American high-tech land recovery and soil remediation technical method, which provides powder containing soil nanometer small-molecular trace elements (72 rare mineral elements). The powder serving as a mineral species is rich in natural glaucophane-schist composed of tens of huge and trace elements such as oxygen, calcium, magnesium, ferrum, selenium and germanium. At least 26 qualitative and quantitative active mineral trace elements are researched and developed as a blending basis, and various beneficial microorganisms are researched and developed to match the effect and characteristic application. Through the intermolecular antagonism/coordination/adsorption and permeation, the soil structure can be restored, and the soil is remediated to be utilized permanently, thereby enhancing the physiques of crops, increasing the yield and improving the quality.

Description

U.S. high-tech georeduced soil rejuvenation technology method

The invention relates to a high-tech georeduced soil rejuvenation technology method in the United States, and particularly to a method that utilizes the element plutonium (exchange) action of soil trace elements to make heavy metal pollution and acidification and barren soil can be reduced.

"Heavy metal" generally refers to metal elements with a density greater than 5g / cm, such as: arsenic, cadmium, chromium, mercury, nickel, lead, zinc, copper, etc. The heavy metal will enter the human body through the path of diet, breathing, or direct contact. In addition, heavy metals can easily accumulate in the brain, kidneys and other organs after entering the human body, gradually damaging the normal functions of the body; most of the heavy metals in the human body will be combined with human proteins, nucleic acids (DNA, RNA), and the role of proteins in the body. It is mainly the enzyme reaction. When these enzymes are combined with heavy metals, the enzyme activity will disappear or weaken. In addition, when heavy metals are combined with nucleic acids, the structure of nucleic acids will change, causing genetic mutations, affecting cell heredity, and producing teratoes or cancers.

In today's social environment, due to the development of industrial and commercial industries, waste and waste water produced during the production and use of many industries, or waste gas generated during the combustion of petrochemical industry, waste hardware, etc., will cause different degrees of soil damage. Heavy metal pollution, which is absorbed by plants and enters the human body through the food chain, which seriously affects people Physical health.

In view of this, the inventor of the present case has been engaged in the manufacturing and development and design of related products for many years. In view of the above-mentioned objectives, after detailed design and careful evaluation, the present invention has indeed been practical.

The main object of the present invention is to provide an American high-tech georeduction soil rejuvenation technology method, which utilizes the element plutonium (exchange) action of soil trace elements, so that heavy metal pollution and acidification and barren soil can be reduced.

According to the above purpose, a method of regenerating soil for high-tech georeduction in the United States of the present invention is based on the enrichment of natural oxygen in a powder of soil nano-small molecular trace elements (72 rare mineral elements), Calcium, magnesium, iron, selenium, germanium and other dozens of huge and trace element components, by spraying the powder into the soil contaminated by heavy metals, acidified and barren, through the element of the powder's physical potential (electrolyte) characteristics 颉 颃(Exchange) action, so that heavy metal pollution and acidification and soil in barren soil can be reduced, so when planting crops, plants will not absorb even the heavy metal pollution existing in the soil, and crops can rely on the original trace elements in the soil growing up.

The powder has at least 26 qualitative and quantitative active mineral trace elements, of which 26 kinds of active mineral trace elements include: an iron (Fe) element, a nickel (Ni) element, a manganese (Mn) element, and a copper ( Cu), zinc (Zn), boron (B), molybdenum (Mo), chlorine (Cl), oxygen (O), sodium (Na), magnesium (Mg) ) Element, an aluminum (Al) element, a silicon (Si) element, a phosphorus (P) element, a sulfur (S) element, a potassium (K) element, a calcium (Ca) element, and a europium (Sc) element Element, a titanium (Ti) element, a chromium (Cr) element, a vanadium (V) element, a gallium (Ga) element, a selenium (Se) element, One element of germanium (Ge), one element of lanthanum (La), one element of rhenium (Sm), one element of cobalt (Co), etc .; these active mineral trace elements are used in combination with various beneficial bacterial microbiota for their functions and characteristics. The intermolecular synergy / coordination / adsorption and infiltration can not only restore the earth's soil structure, allow the soil rejuvenation to be used permanently, but also strengthen the crop physique, increase its yield and improve its quality.

Soil particles carry both positrons and positrons. When the pH is increased, the acid radicals are induced to dissociate into positively charged protons (releasing H +) and become negatively charged, which helps to adsorb other cations. Conversely, when the pH decreases, -NH ₂ accepts protons and becomes positively charged, which helps to adsorb other anions.

The soil aeration is divided into four levels by using the soil redox potential: (1) well aerated soil, + 700mv- + 400mv, (2) moderately reduced soil + 400mv-+ 100mv, (3) reduced soil, + 100mv- --100mv, (4) pole reduced soil -100mv --- 300mv. Generally, the redox potential of the soil is sufficient at about + 340mv, nitrate starts to reduce at + 225mv, manganese ions begin to reduce at + 200mv, iron ions begin to reduce at + 120mv, and sulfate starts to reduce at 颉 颃 150mv. ) Role allows the land to be balanced.

In order that the reviewing committee can further understand and understand the purpose, shape, structural device features and functions of the present invention, the embodiments are provided in conjunction with the drawings. The details are as follows:

11‧‧‧ granular

Figure 1 is a schematic diagram of the powder of the present invention sintered into particles.

The present invention relates to a "technical method for soil regeneration of high-tech georeduction in the United States". This method is based on the enrichment of natural oxygen, calcium, Dozens of huge and trace element components such as magnesium, iron, selenium, and germanium, by spraying the powder into the soil contaminated by heavy metals, acidified and barren, through the element of the powder's physical potential (electrolyte) properties (exchange) ), So that the heavy metal pollution and acidification and the soil in the barren soil can be reduced, so when planting crops, even if the heavy metal pollution originally exists in the soil, the plant will not absorb it, and the crops can grow on the original trace elements in the soil.

The powder has at least 26 qualitative and quantitative active mineral trace elements, of which 26 kinds of active mineral trace elements include: an iron (Fe) element, a nickel (Ni) element, a manganese (Mn) element, and a copper ( Cu), zinc (Zn), boron (B), molybdenum (Mo), chlorine (Cl), oxygen (O), sodium (Na), magnesium (Mg) ) Element, an aluminum (Al) element, a silicon (Si) element, a phosphorus (P) element, a sulfur (S) element, a potassium (K) element, a calcium (Ca) element, and a europium (Sc) element Element, a titanium (Ti) element, a chromium (Cr) element, a vanadium (V) element, a gallium (Ga) element, a selenium (Se) element, a germanium (Ge) element, a lanthanum (La) element , One element (Sm), one element (Co), etc .; the role and characteristics of these active mineral trace elements with various beneficial bacteria Application, through intermolecular synergy / coordination / adsorption and infiltration, can not only restore the earth's soil structure, allow soil recultivation to be used permanently, but also strengthen the crop physique, increase its yield and improve its quality.

Once the soil's soil structure changes, the soil contacts water, air, and fertilizer, and it makes farming easier. With the intermolecular attraction, it "infiltrates" ... "makes the soil into a soft flake" ...

Soil particles carry both positrons and positrons. When the pH is increased, the acid radicals are induced to dissociate into positively charged protons (releasing H +) and become negatively charged, which helps to adsorb other cations. Conversely, when the pH decreases, -NH ₂ accepts protons and becomes positively charged, which helps to adsorb other anions.

The soil aeration is divided into four levels by using the soil redox potential: (1) well aerated soil, + 700mv- + 400mv, (2) moderately reduced soil + 400mv-+ 100mv, (3) reduced soil, + 100mv- --100mv, (4) pole reduced soil -100mv --- 300mv. Generally, the redox potential of the soil is sufficient at about + 340mv, nitrate starts to reduce at + 225mv, manganese ions begin to reduce at + 200mv, iron ions begin to reduce at + 120mv, and sulfate starts to reduce at 颉 颃 150mv. ) Let Land can be balanced.

After the powder is sprinkled into the soil, the oxidation-reduction potential of the soil is -150mv, at this time, the sulfate radicals begin to reduce to produce a tritium effect, and the soil is balanced.

The powder can be sintered from 1200 to 1600 degrees, and sintered into particles 11 (the particles can be spherical, rectangular, triangular, long, etc.) (as shown in Figure 1), and sintered The following granular soil trace elements can have far-infrared growth light waves. Putting the granular soil trace elements into flower pots, hydroponic vegetables, and agricultural soil can help plants grow and restore soils polluted by heavy metals and acidified and barren It can be put into aquaculture ponds and can activate water quality to achieve green energy and environmental protection.

Trace element iron (Fe) element its function: chlorophyll synthesis, enzymes and enzyme constituent elements; trace element nickel (Ni) element its function: enzyme constituent elements, related to urea metabolism; trace element manganese (Mn) element Its functions: Activators of enzymes in photosynthesis and respiration; trace elements of copper (Cu); its functions: oxidase components in photosynthesis and respiration, promoting the use of proteins by plants; zinc (Zn) ) Elements and their functions: Coenzymes of plant physiological functions, the synthesis of autogrowth hormones, and carbohydrate metabolism; trace elements of boron (B), their functions: help the plant absorb inorganic nutrients, the formation of cell membranes, sugar Synthesis of similar species, fruit and seed development; Molybdenum (Mo) elements of trace elements and their functions: The nitrogen fixation and transformation of plants is related to vitamin C synthesis, photosynthesis, and respiration; and the functions of chlorine (Cl) elements of trace elements : Water absorption, photosynthesis, regulation of plant pH, auxin composition.

The above description is only the best embodiment of the present invention, but the structural features of the present invention are not limited to this. Any person skilled in the art can easily think of changes or modifications in the field of the present invention. The scope of patents in the following case.

11‧‧‧ granular

Claims (4)

An American high-tech georeduced soil rejuvenation technology method. This method is based on the enrichment of natural oxygen, calcium, magnesium, iron, selenium, and Dozens of huge and trace element components such as germanium, by spraying the powder into soil contaminated with heavy metals, acidification and barren soil, through the element rhenium (exchange) action of the powder's physical potential (electrolyte) characteristics, the heavy metals are contaminated The soil in acidified and barren soil can be reduced. In this way, when planting crops, the plant will not absorb even the heavy metal pollution existing in the soil, and the crops can grow on the original trace elements in the soil. According to the technical method of reducing soil rejuvenation described in item 1 of the scope of patent application, the powder has at least 26 qualitative and quantitative active mineral trace elements, of which 26 kinds of active mineral trace elements include: an iron (Fe) element, One nickel (Ni) element, one manganese (Mn) element, one copper (Cu) element, one zinc (Zn) element, one boron (B) element, one molybdenum (Mo) element, one chlorine (Cl) element, one Oxygen (O), sodium (Na), magnesium (Mg), aluminum (Al), silicon (Si), phosphorus (P), sulfur (S), potassium (K) element, a calcium (Ca) element, a scandium (Sc) element, a titanium (Ti) element, a chromium (Cr) element, a vanadium (V) element, a gallium (Ga) element, a selenium ( Se) element, a germanium (Ge) element, a lanthanum (La) element, a rhenium (Sm) element, a cobalt (Co) element, etc .; these active mineral trace elements are matched with various beneficial microbial flora and their functions and The use of characteristics, through the intermolecular co-ordination / adsorption and infiltration, can not only restore the earth's soil structure, allow the soil rejuvenation to be used permanently, but also strengthen the crop physique, increase its yield and improve its quality. The method for reducing soil rejuvenation as described in item 1 of the scope of patent application, wherein after the powder is sprinkled into the soil, the redox potential of the soil is -150mv, and the sulfur at this time The acid radicals begin to reduce and produce radon, so that the soil is balanced. According to the technical method of reducing soil rejuvenation described in item 1 of the scope of the patent application, wherein the powder can be sintered into a granular form by sintering at 1200 ° to 1600 °.