1、How is Jiaxing Mineral

Jiaxing mineral-based fulvic acid granulation technology is a granulation process that combines mineral-based fulvic acid with fertilizers, aimed at enhancing fertilizer efficiency and nutrient utilization.

2、Exogenous fulvic acid enhances stability of mineral

Compared with the effect on complex-ation of oxide minerals, our results showed that fulvic acid plots had greater values of IOCC and AOCC than manure plots (Fig. 2), indicating fulvic acid had stronger effects on stabilizing MAOM via iron/aluminum oxide complexation than manure.

3、Interaction of fulvic acid with soil organo

In soil, adsorption of FA is limited by the binding to external surfaces of nano-aggregates. The overall adsorption of FA is pH independent and has a relatively low affinity. In acid soils, FA prefers direct interaction with soil oxide particles, releasing phosphate.

4、中国矿业大学主页平台系统 gongguanqun

Pre One: Characterization of coal-based fulvic acid and the construction of a fulvic acid molecular model Next One: Experimental Study on the Transmittance of the Supernatant of...

Exogenous fulvic acid enhances stability of mineral

Fulvic acid application increased MAOM stability by promoting mineral oxide complexation by 20.33% and manure application improved MAOM stability via increasing humus stabilization by 21-25%.

Exogenous fulvic acid enhances stability of mineral

Mineral-associated soil organic matter (MAOM) is seen as the key to soil carbon sequestration, but its stability often varies with types of exogenous organic materials. Fulvic acid and manure are ones of the exogenous organic materials used for the improvement of degraded soil.

Application of fulvic acid

This study synthesized a ternary polymer material composed of alginic acid, acrylic acid, and fulvic acid (AAF). Catalytic polymerization yielded a material that effectively binds calcium ions. AAF can bind up to 8.7 times its mass in calcium ions and has multifunctional agricultural applications.

Exogenous fulvic acid enhances stability of mineral

Fulvic acid application increased MAOM stability by promoting mineral oxide complexation by 20.33% and manure application improved MAOM stability via increasing humus stabilization by 21–25%.

Interaction of fulvic acid with soil organo

For more insight into the interaction of natural organic matter (NOM) with metal (hydr)oxides and oxyanions, the adsorption of added fulvic acid (FA) and the corresponding release of phosphate (PO4) were studied for a series of agricultural soils (∼0 – 25 cm), strongly varying in soil properties.

Efficient optimization of brown coal fulvic acid extraction

This study addresses the key technical bottlenecks in the high-value utilization of brown coal resources and develops a new efficient fulvic acid (FA) extraction process based on the stepwise synergistic action of H2O2 and NaOH.

Jiaxing mineral-based fulvic acid granulation technology is a granulation process that combines mineral-based fulvic acid with fertilizers, aimed at enhancing fertilizer efficiency and nutrient utilization. This technology holds broad application prospects in agriculture, particularly for improving soil fertility and promoting plant growth. Below is a detailed introduction to Jiaxing mineral-based fulvic acid granulation technology.

1. Definition and Characteristics of Mineral-Based Fulvic Acid

Mineral-based fulvic acid is a natural organic substance derived from the decomposition of plant residues, animal manure, and other organic matter. It is rich in essential nutrients such as nitrogen (N), phosphorus (P), potassium (K), trace elements, and organic matter. Its key characteristics include:

• High Organic Content: It contains carbon (C), hydrogen (H), oxygen (O), nitrogen (N), sulfur (S), vitamins, amino acids, and other bioactive compounds.
• Adsorption Capacity: Effectively adsorbs heavy metal ions and harmful substances in soil.
• Slow-Release Property: Gradually releases nutrients in soil, reducing nutrient loss and improving fertilizer utilization.
• Soil Structure Improvement: Increases soil organic matter, enhances soil structure, and improves water-and-nutrient retention.

2. Sources and Features of Jiaxing Mineral-Based Fulvic Acid

Jiaxing’s abundant agricultural resources provide superior conditions for producing mineral-based fulvic acid. The region’s diverse crops and organic waste (e.g., crop straw, livestock manure) serve as rich raw materials. Key features of Jiaxing mineral-based fulvic acid include:

• Rich Nutrients: High levels of N, P, K, trace elements, and organic matter.
• Adsorption Capacity: Strong ability to adsorb heavy metals and pollutants.
• Slow-Release Property: Sustained nutrient release, minimizing losses.
• Soil Enhancement: Boosts organic matter, improves soil structure, and enhances fertility.

3. Principles and Process of Jiaxing Mineral-Based Fulvic Acid Granulation Technology

This technology integrates mineral-based fulvic acid with chemical fertilizers through granulation. The process involves:

1. Mixing: Combining mineral-based fulvic acid with chemical fertilizers in specific ratios.
2. Granulation: Forming particles using a granulator.
3. Drying and Cooling: Treating granulated material to optimal temperature and humidity.
4. Packaging and Storage: Preparing dried particles for use.

4. Advantages and Disadvantages of the Technology

Advantages:

• Improved Fertilizer Efficiency: Slow-release properties reduce nutrient loss.
• Soil Health: Increases organic matter, enhances soil structure, and improves water/nutrient retention.
• Environmental Protection: Adsorbs heavy metals and reduces pollution.
• Plant Growth: Provides essential nutrients (N, P, K) for robust plant development.

Disadvantages:

• High Costs: Requires advanced technology and equipment, leading to higher production costs.
• Limited Applicability: Suitable only for specific soil and crop types.
• Stability Issues: Prone to degradation under external conditions.

5. Application Areas of the Technology

• Organic Fertilizer: Improves soil quality and crop yields.
• Compound Fertilizer: Combines with chemical fertilizers for enhanced efficiency.
• Soil Amendment: Remediates soil structure and organic content.
• Biopesticide: Reduces pesticide residues by stabilizing biological agents.

6. Future Trends and Prospects

With modern agriculture’s evolution, this technology holds significant potential:

• Technological Innovation: Lower costs and improved stability through R&D.
• Expanded Use Cases: Applications in forestry, aquaculture, and eco-friendly materials.
• Sustainability: Integration with environmental protection efforts.
• Policy Support: Government incentives to promote research and adoption.

Jiaxing mineral-based fulvic acid granulation technology is a promising agricultural innovation. With ongoing optimization, it is poised to contribute significantly to sustainable agriculture.