The raw material of Mineral potassium humate is a kind of small molecule organic compound extracted from lignite,which is after dead plant and animal through tens of millions of years of soil microbial transformation，which is mineral source potassium humate,
It is the most valuable part of humic acid for agricultural production and soil remediation. Biochemical products are currently made from sugar, monosodium glutamate and paper waste.
The amount of potassium humate in the mineral source is only 1/10 of the amount of biochemical biochemical potassium humate.
Taking the bottom application as an example, the amount of mineral source is 300-500g, and the biochemical is used more than 5-10kg.
The composition, because the source of potassium humate is mainly extracted from the lignite formed in billions of years, it is rich in hydroxyl, carboxyl, phenolic hydroxyl, methoxy and other functional groups, high activity, and biochemical potassium humate The main components are polysaccharides, lignin, protein, and the functional groups are few, so the effect of improving the quality of the crops, soil repair, etc., is naturally much better than ordinary biochemical potassium humate.
There are also 60-70 kinds of mineral elements from the source of potassium humate, which is what the soil needs to supplement.
There is also organic matter content, the source of potassium humate is the essence of the formation of animal and plant remains, the organic matter content is not biochemical humic acid high-heeled.
The source of potassium humate has a unique structure and is suitable for fertilizer addition. The mineral source potassium humate has a large void exchange capacity, can form a soil aggregate structure, improve fertilizer utilization, and does not absorb moisture. The biggest deficiency of biochemical potassium humateis that it is easy to absorb moisture.
When used as a functional fertilizer and compound fertilizer additive, 1 ton of more than 25 kg will cause the fertilizer to absorb moisture and agglomerate, or even become muddy.
This is determined by its innate structure, and there is currently no effective solution in the industry.