Potash refers to various water-soluble potassium salts, such as potassium chloride or potassium carbonate. Potash is mainly used as fertilizer, providing potassium—an essential nutrient—to plants. Additionally, it is used in the chemical industry and to produce medicine.
Potash is commonly mined from ore, deposited after ancient inland oceans evaporated. The potassium salt is then purified in evaporation ponds. At the end of this process, the potash is typically obtained as potassium chloride.
Historically, potassium is determined by precipitation with sodium tetraphenylboron (STPB). The disadvantage of this gravimetric method is the long waiting time until a result is obtained. Currently, the potassium content in potash is typically determined by flame photometry (F-AES) or ICP-OES. However, these techniques have high investment and running costs.
By applying the gravimetric precipitation reaction as a thermometric titration, it becomes possible to rapidly and inexpensively determine the potassium content in potash within minutes.
This application is demonstrated on different potash samples as well as pure potassium chloride. No sample preparation is required.
The analysis is carried out with an 859 Titrotherm equipped with a Thermoprobe. The titration is based on the precipitation of potassium with sodium tetraphenylboron (STPB).
An appropriate amount of sample is weighed precisely into the titration vessel. Deionized water is added to dissolve the sample, which is then titrated until after the exothermic endpoint with standardized STPB is reached.
Reproducible titration curves with clear exothermic endpoints are obtained. One exemplary titration curve is shown in Figure 2. Table 1 shows a summary of the results for different potash samples. As can be seen, all values agree well with the expected content.
|Potassium / % KCl||SD(rel) / %|
Thermometric titration is a very fast and accurate method to determine the potassium content in potash within minutes. Additionally, it provides an inexpensive alternative analysis method in comparison to F-AES or ICP-OES.
Internal reference: AW TI CA1-0155-112014