Professional Testing Makes Water-soluble Fertilizer Meet the Market Supervision

What is Water-soluble Fertilizer?

Water-soluble fertilizer (WSF), is a kind of multi-element compound fertilizer which can be completely dissolved in water. It can be quickly dissolved in water and can be easily absorbed by crops, and its absorption and utilization efficiency is relatively high. What is more important is that it can be used in facility agriculture such as spray and drip irrigation to achieve the integration of water and fertilizer and achieve the efficiency of water-saving, fertilizer-saving and labor-saving.

Types of Water Soluble Fertilizers

Characteristics of Water-soluble Fertilizer

Importance of Water-soluble Fertilizer Detection

There are mainly two kinds of production and processing methods of water-soluble fertilizer: physical configuration type and chemical synthesis type. at present, most of them are physical configuration type, and the finished product is formed by mixed configuration of many kinds of raw materials, and the process is relatively simple. Product quality completely depends on the purity of raw materials and the compatibility between raw materials. Therefore, the detection of water-soluble fertilizers not only meets the management and supervision of the fertilizer market, but also helps to improve the production and R&D technology of water-soluble fertilizers, which can more effectively guarantee the stability and safety of agricultural production.

Detection Methods of Water-soluble Fertilizer

Determination of Macroelement Content (Total Nutrient)

The content of macroelements refers to the sum of total N, P₂O₅ and K₂O. Water soluble fertilizer products should contain at least two kinds of macroelements, and the single macroelement content should not be less than 4.0%.

• Determination of total N content

The determination of total N content includes titration after distillation and Dumas combustion method, in which titration after distillation is arbitration method. The titration method after distillation is to use nitrogen alloy to reduce nitrate in alkaline medium and then distillation to produce ammonia, or to use mixed catalyst in acidic medium to digest and reduce nitrate with concentrated sulfuric acid, and then convert organic nitrogen or amide nitrogen into ammonium salt, and then distilled out ammonia.

• Determination of P₂O₅ Content

The content of P₂O₅ was determined by Quinoline Phosphomolybdate Gravimetric method. The content of P₂O₅ was calculated by the formation of a yellow quinoline phosphomolybdate precipitate from the n-phosphomolybdate ion in the water-soluble fertilizer and quinmolybdate caraganone in acid medium.

• Determination of K₂O Content

The K₂O content is determined by the Sodium Tetraphenylborate Gravimetric method, which uses sodium tetraphenylborate solution in a weakly alkaline medium to precipitate potassium ions in the water-soluble fertilizer sample, and calculates the K₂O content through the precipitate. It should be noted that there are a large number of cations in the water-soluble fertilizer samples, which will cause interference. It is necessary to add ethylenediaminetetraacetic acid disodium salt (EDTA) in advance to make the cations complex with EDTA to prevent interference.

Determination of middle element content

The content of middle element refers to the content of Ca or Mg or the sum of Ca and Mg. The product should contain at least one middle element, and a single middle element with a content of not less than 1.0% shall be included in the content of middle element. The contents of Ca and Mg are determined by atomic absorption spectrophotometry and plasma emission spectrometry, and atomic absorption spectrophotometry is the arbitration method. Atomic absorption spectrophotometry is that Ca and Mg are atomized in air-acetylene flame by using a certain amount of strontium salt as releasing agent in slightly acidic medium, then the characteristic wavelength light emitted by hollow cathode lamp is absorbed by atomic vapor, and the atomic concentration of different ground state is calculated by absorbance. It should be emphasized here that the characteristic wavelengths of Ca and Mg elements are different, Ca is 422.7nm and Mg is 285.2nm. It should also be noted that before using the atomic absorption spectrophotometer for determination, the mass concentration of each standard solution should be taken as the abscissa and the corresponding absorbance value should be the ordinate, draw the working curve, and do a blank test.