Super Potassium Humate Shiny Flake is a natural organic substance derived from leonardite, a type of oxidized lignite that is rich in humic acid. Here are some key points about it:
Characteristics
Appearance: Typically, it comes in shiny, dark, flaky form.
Solubility: It is water-soluble, making it easy to incorporate into various agricultural applications.
Usage Tips
Follow package instructions for the correct application rate, as excessive use can lead to nutrient imbalances.
Can be applied directly to soil or mixed in with water for easy distribution.
| Appearance |
Black Flake/Powder |
| Product code |
JFHA-KFA-2-F/P |
| Water solubility |
100% |
| Potassium(K2O dry basis) |
10.0% min |
| Humic Acid(dry basis) |
60%min |
| Fulvic Acid(dry basis) |
15%-20%min |
| Moisture |
15.0%max |
| Particle size |
1-2mm / 2-4mm |
| Fineness |
80-100 mesh |
| pH |
9-10 |
SRS CERTIFICATE
JINGFENG HUMIC ACID has SRS certificate lately.
Standards Compliance: The certification ensures that the products comply with both international and national organic standards, which may include regulations set by the USDA, EU Organic, and other organic certifying bodies.
Inspection Process: Farms or facilities seeking certification undergo a thorough inspection by certified inspectors. This process evaluates their organic practices, honesty in labeling, and record-keeping.
Organic Practices: Certification requires adherence to specific agricultural practices:
No synthetic pesticides or herbicides
Organic fertilizers and inputs
Sustainable farming methods
Crop rotation and biodiversity practices
Traceability: Products must be traceable from the farm to the consumer, ensuring transparency in the supply chain.
Annual Recertification: Organic certification is not permanent; certified entities must undergo annual inspections to maintain their status and ensure ongoing compliance with organic standards.
The production process of Super Potassium Humate involves several steps to convert natural materials into a concentrated, usable form of this organic compound. Here's a breakdown of the typical production process:
1. Raw Material Selection
- Source: Super potassium humate is primarily derived from leonardite, a type of oxidized lignite that has a high concentration of humic acids.
- Quality Control: The raw material must be tested for purity and humic acid content to ensure high-quality product outcomes.
2. Extraction
- Humic Acid Extraction: The raw leonardite is subjected to an extraction process where it is treated with water or chemical solvents (like potassium hydroxide) to dissolve humic substances.
- Filtration: After extraction, the solution is filtered to separate the liquid humic acid from insoluble residues.
3. Potassium Activation
- Potassium Incorporation: The extracted humic acid solution is treated with a potassium source, often potassium carbonate or potassium hydroxide. This process converts the humic acid into potassium humate, making it more soluble and enhancing its effectiveness as a soil amendment and fertilizer.
4. Concentration
- Evaporation: The solution is concentrated through evaporation to remove excess water, increasing the humate content in the final product. This step helps achieve a higher concentration of potassium humate, which improves its efficacy.
- Re-crystallization: In some processes, the concentrated solution may undergo re-crystallization to enhance the purity of the final product.
5. Drying
- Paste or Flake Production: The concentrated potassium humate solution is either spray-dried or air-dried to form flakes or a powder. The drying method can affect the final product's texture and solubility.
6. Quality Control
- Testing: The final product undergoes rigorous quality control testing to ensure it meets specified standards for humic acid content, potassium concentration, and physical characteristics.
7. Packaging
- Final Packaging: Once approved, super potassium humate is packaged in moisture-proof bags or containers to ensure its longevity and prevent degradation.
8. Distribution
- Commercialization: The packaged product is then distributed to retailers, agricultural suppliers, and farmers for use in soil enhancement and crop production.
1.Potassium humate uses in soil
Used as base fertilizer: Use super potassium humate granule like crystal or column for root fertilization, supply potassium element, plenty of organic matter to soil, help to improve soil condition.10-20 kgs per 666m2.
It increases soil organic matter and improves soil structure. So it promotes soil buffering capacity to a great extent. In barren sandy soil, potassium humate can maximize the fixation of easily lost water and nutrient elements and then transform it into a form that is easy to be absorbed by plants. Potassium humate in clay can help to form aggregate structure to increase its water retention and air permeability.
2.Potassium humate uses in seeds and roots system
Soaking seed, soaking root: Dissolve into water to make 1:2000 concentration solution. Soak 10-24 hours.
Potassium humate can promote seed germination. It is called natural rooting powder. So it has good effect on seed soaking and transplanting. Potassium humate can promote germination of seeds in a very short period of time called natural rooting powder, especially for those crops with lower survival rate.
3.Effects on the body of crops
Water flush fertilizer: 5-10kgs per time per 666m2. Dissolve evenly into fertilizer bucket or wash directly with water. Generally apply fertilizer during seedling stage, growth period, flowering phase and fruiting period, total 4-5 times.
Greatly increase plant stress resistance and reduce the impact of disease and insect disasters and drought and waterlogging disasters on crops. Potassium humate can adjust the stomatal opening and water transpiration of leaves.
Stimulate the absorption of potassium ions. Promote metabolism. Promote respiratory intensity, photosynthesis intensity. Promote the activity of plant enzymes. And can improve the drought resistance of crops. So that the capacity of water retention can be increased by 30%. And the ability of plants to resist drought, cold and diseases and insect pests can be improved.
1. Supply ability: 5000 MT/month
2. 1kg, 5kgs, 10kgs printing aluminium foil bag + 10kgs, 20kgs printing carton box.
3. 20kgs/25kg woven/paper bags with inner liner.
4. 20kgs/25kg color printing PP/PE bags with inner liner.
5. 1MT,1.1MT jumbo bags with discharge hole.
6. According to customers'requirement.
2004 Started theHead Company
Almost 20 years ago we started as ahumic acid factory with one man. Notmuch later a seals group joined theteam and from that point we began togrow fast. SHANDONG JINGFENGHUMIC ACID & SHANXIJINGFENGRUINONG.
JINGFENG focus on green agriculture , human health . We are committed to humic acidproducts development , producing and selling. We have achieved remarkable results ondevelopment and application of the agriculture humic acid series , feed farming humic acidseries ,pharmaceutical grade humic acid.We have a professional analytical laboratory that can conduct comprehensive analysis ofdifferent humic acid series products, and can provide a complete set of extraction plans fordifferent humic acid raw materials.
Regarding the application of humic acid in agriculture, we can analyze the soil quality, waterquality and crop conditions in different regions, and then formulate fertilizers according to individual cases.
Quality Assurance:
Jingfeng products often come with certifications that affirm their organic status and compliance with agricultural standards.
FAQ
The main factors affecting fertilizer efficiency and the way.
The utilization rate of chemical fertlizer is affected by many factors, such as fertilizer application rate,
fertilizer type, soil characteristicscrop varieties etc.
The utlization rate of nitrogen and phosphorus is very low in some areas.
Measures should be taken to improve theutilization rate of chemical fertilizer in field production.
Only by making good use of fertlizer, we can reduce costs and increase benefits.
1. Main reasons affecting Fertilizer efficiency
-
- - The fertilization structure was not reasonable. The proportion of nitrogen, phosphorus and potassium was unbalanced. At present, some farmers are still applying fertilizer according to the traditional experience. There are serious blind and random. The amount of fertilizer is increased. The yield is not increased. And serious waste is caused.
- - The method of fertilizing is not scientific. Farmers often pay attention to the application of base fertilizer and rarely apply topdressing. Which not only reduces the fertilizer utilization rate. But also makes the phenomenon of runing out of nutrients in the later growth stage of crops and affects the yield of crops. In addition, they do not understand the characteristics of fertilizer itself. And the shallow depth of fertilizer is also an important reason for the low utilization rate of chemical fertilizer.
- - Trace elements have not received the attention they deserve. Because the trace elements in soil can not be supplemented for a long time. The content of trace elements can no longer meet the needs of crop growth. According to the theory of "equal important law and minimum nutrient law" of soil fertilizer. Even if the proportion of nitrogen, phosphorus and potassium is reasonable. The yield of crops will be affected.
2. Effective ways to improve the Utilization ratio of Chemical Fertilizer (fertilizer efficiency)
Vigorously popularize the technology of formula fertilizer.
- - According to the law of crop fertilizer demand, the reasonable amount and proportion of nitrogen, phosphorus, potassium and humic acid fertilizer were adjusted. So that the crop could get comprehensive and reasonable nutrient supply. Give full play to the potential of crop yield increase and improve economic benefit. For example, wheat and corn are more sensitive to nitrogen, phosphorus and potassium, while beans and rape are more sensitive to phosphorus, potato, tobacco and other crops are sensitive to potassium. The more sensitive the element, the higher the absorption and utilization ratio.
In sandy soil, humic acid fertilizer and phosphate fertilizer were used as base fertilizer.
- Half of humic acid fertilizer and nitrogen fertilizer were used as base fertilizer, the other half was used as topdressing fertilizer in the process of growth and development, and then the amount of water should not be too large, so as to avoid the leakage of fertilizer. In clay soil, humic acid fertilizer and phosphate fertilizer and two-thirds of nitrogen fertilizer were used as base fertilizer, one-third of humic acid fertilizer and nitrogen fertilizer were used as topdressing stage, anhydrous dry land conditions, humic acid and nitrogen and phosphorus were used as base fertilizer. In fertile soil, it is necessary to control the amount of nitrogen fertilizer properly and apply it early in order to prevent the late ripening due to excess nitrogen fertilizer in the later stage of crops, and to increase the amount of phosphorus and potassium fertilizer.
Chemical fertilizer, humic acid fertilizer combined application.
- - Chemical fertilizer, fertilizer efficiency fast; humic acid fertilizer, fertilizer efficiency lasting. The mixed application of chemical fertilizer and humic acid fertilizer can complement each other to meet the supply of nutrients in the whole growth period of crops, and can also make use of the buffer of humic acid fertilizer and the ability of lasting fertilizer efficiency to reduce the loss of fertilizer nutrients and thus improve the utilization rate of chemical fertilizers.
JINGFENG HUMIC ACID COMPANY MAIN PRODUCTION
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