Biochemical humic acid production process – chemical preparation method
A long time ago, people discovered that using chemical methods, substances similar to coal humic acid can be extracted from plant residues or agricultural and sideline product scraps, which is now generally referred to as biochemical humic acid. However, this discovery did not attract people’s attention, and a large number of natural organic resources were abandoned and lost.
Biochemical humic acid is produced by chemical methods, usually in acid hydrolysis, ammonia hydrolysis, oxygen hydrolysis, alkaline hydrolysis and other methods, which can degrade high-molecular organic matter into low-molecular organic acids and other water-soluble substances. Due to different plant raw materials, chemical agent types and treatment methods, the chemical degradation products obtained are also different, but they all contain different proportions of humic acid-like substances. If you want to obtain chemical degradation products with high biological activity and excellent stimulation and growth-promoting effects, you must use different chemical treatment methods to implement degradation treatment from various plant resources, and judge the activity of the degradation products to determine the best production resources and process methods.
In order to obtain valuable biochemical humic acid, researchers have adopted a combination of chemical and biological treatment methods to obtain a new biochemical product. This process adopts biological and chemical segmented treatment, which can complement each other’s advantages, promote each other, and achieve the effect of improving product quality. The treatment method of using both biology and chemistry derives a new concept from the definition of biotechnology to produce humic acid, that is, to use biological or chemical methods to produce biochemical humic acid or biochemical fulvic acid. This method is meaningful and necessary in the actual production action of developing and applying new humic acid resources, and will have a long-term impact on the development of new biochemical humic acid resources.
