1、How to Use Highly Water

The article details the application effects of this phosphate fertilizer in fertilizing various crops such as wheat, corn, and apples, and how it improves soil structure and nutrient status to enhance crop yield and quality.

2、A Review of the Latest in Phosphorus Fertilizer Technology

New sources of fertility will need to be affordable to produce, transport, and furnish P to soil solution in a manner well synchronized with crop demand. This paper provides a review of recent literature on cutting-edge phosphorus fertilizer technology.

3、Phosphate bacterial solubilization: A key rhizosphere driving force

Development of innovative PSB-Phosphate formulations is likely to sustain crop production. Increasing crop production to feed a growing population has driven the use of mineral fertilizers to ensure nutrients availability and fertility of agricultural soils.

How to Make Water Soluble Fertilizer

For producing NPK water soluble fertilizers, you can collect rich nitrogen, phosphorus and potassium as ingredients for plant growth. While selecting nitrogenous raw materials, you can use urea, ammonium nitrate and ammonium sulfate.

Calculate Phosphorus in Water

Learn how to calculate phosphorus composition in water-soluble fertilizers with accurate methods for optimal plant growth and sustainable agricultural practices.

How To Make Water Soluble Fertilizer

For producing different types of water-soluble fertilizers, you need to use the different raw materials. From the following, you can understand the raw materials needed to produce organic water-soluble fertilizer and NPK water-soluble fertilizers.

Understanding phosphorus fertilizers

How to manage phosphorus for profitable crop production in Minnesota. Covers phosphorus sources, strategies for determining fertilizer needs and more.

Mastering Water

Water-soluble fertilizers (WSFs) are key players in precision agriculture, allowing growers to apply nutrients exactly where and when crops need them. In this Q&A guide, we’ll tackle common questions about selecting and using WSFs to achieve the best results.

Enhancing maize phosphorus uptake with optimal blends of high and low

In this study, we conducted a 48-day pot experiment to explore how blending low-P fertilizers could optimize maize P utilization, using CMP to replace DAP in acidic soil, and SSP to replace MAP in alkaline soil, with five SSP+MAP and CMP+DAP mixtures tested.

Study on the preparation of high

This study uses wet-process phosphoric acid as raw material and chelation and suspension technology to prepare water-soluble fertilizer containing high-concentration ammonium phosphate.

Formulating a water-soluble fertilizer with high phosphorus, medium potassium, and low nitrogen is a relatively complex process that requires precise control of ingredient ratios. Below are the basic steps and precautions for preparing this type of fertilizer:

I. Ingredient Selection and Weighing

1. Determine Fertilizer Type: Based on plant growth requirements, select appropriate water-soluble fertilizers. Common options include potassium dihydrogen phosphate, potassium nitrate, etc.
2. Purchase Ingredients: Ensure ingredients are sourced from reputable suppliers and meet national and industry standards.
3. Accurate Weighing: Use an electronic balance or high-precision weighing equipment to measure ingredients accurately.

II. Dissolution Process

1. Prepare Solvent: Use distilled water or deionized water as the solvent, in amounts specified by the formula.
2. Dissolve Ingredients: Add weighed ingredients to a mixing tank and mix with the solvent. Use a stirrer to ensure complete dissolution.
3. Adjust pH: Monitor and adjust the solution’s pH during dissolution by adding acids or bases. The ideal pH for water-soluble fertilizers is near neutral.
4. Filtration: Filter the dissolved solution to remove impurities or precipitates.
5. Cooling: Allow the filtered solution to cool to room temperature before storage or use.

III. Packaging and Storage

1. Filling: Transfer the cooled solution into designated containers, ensuring no air bubbles form during filling.
2. Sealing: Seal containers with a sealing machine to prevent moisture loss and contamination.
3. Labeling: Clearly label containers with product name, ingredients, nutrient content, usage instructions, and shelf life.
4. Storage: Store packaged fertilizer in a cool, dry place, avoiding direct sunlight and high temperatures.

IV. Precautions

1. Ingredient Ratios: Strict adherence to formula-specified ratios is critical to avoid imbalances.
2. pH Control: Closely monitor pH during dissolution and adjust as needed.
3. Product Quality: Use high-quality ingredients to ensure stability and effectiveness.
4. Safety Protocols: Follow safety guidelines to protect personnel and equipment.
5. Environmental Awareness: Minimize environmental impact by preventing water and soil pollution during production.

formulating a high-phosphorus, medium-potassium, low-nitrogen water-soluble fertilizer requires meticulous control of ingredient ratios, dissolution processes, and packaging/storage conditions. Adherence to proper procedures and precautions ensures product quality and efficacy while minimizing environmental risks.