What is the annual production of potassium hydroxide? Due to the fact that this material is very widely used. As a base, caustic potassium (potassium hydroxide) is stronger than caustic soda and its salts are more soluble. However, because it is expensive to manufacture, its applications are limited to the conditions that require these properties or the potassium cation required. The largest use of caustic potassium, potassium carbonate, has declined in recent years in the United States. The main application for potassium carbonate (about 40%) is the production of glass for cathode ray tube (CRT) tubes used in televisions and computer monitors, and several other special glasses in the last decade, and especially since 2000, the production of CRT. Asia has changed. In addition, CRTs are switched by flat panel displays in many applications. Meanwhile, potassium phosphates are in high demand and their annual growth is better than 4%. These phosphates are mainly used as detergents in liquid products for industrial and corporate cleaners. Liquid products have grown significantly due to their ease of measurement, mixing and dispersing Everything about potassium hydroxide.
Phosphates perform buffering, chelation and cleaning functions. These materials are soluble and allow concentrated products to be formulated. In the manufacture of potassium soaps, potassium hydroxide reacts with long-chain fatty acids (soap making) to produce potassium salts. These salts are more soluble than the corresponding sodium salts, which are made with caustic soda, and are therefore suitable for liquid soap products such as liquid hand soap. Potassium hydroxide is used in some liquid fertilizers. Potassium is one of the three main nutrients in the plant (other elements nitrogen and phosphorus). Potassium hydroxide is a source of potassium in these fertilizers and is used in plants that are sensitive to chloride ions such as tobacco, where potassium chloride is not tolerable. In recent years, the convenience of liquid fertilizers has led to new applications in higher value applications such as plant nurseries. The increasing need to increase crop productivity to feed an expanding population is a strong growth stimulant for potash fertilizers, and this increases the demand for potassium hydroxide. Burning potash, as a refining catalyst in oil refineries, offers lucrative opportunities for producer growth. The emergence of renewable sources increases the demand for biofuels and increases the production of potassium hydroxide.
With the exception of potassium carbonate, all functional parts of potassium hydroxide keep pace with GDP growth. The slow decline in potassium carbonate demand has slowed overall growth in recent years by about 1.9% per year. Thousands of tons of potassium hydroxide (KOH) are produced annually for commercial production through the electrolysis of potash (potassium chloride) using mercury cells or membranes. Due to the high chemical purity and no use of explosion-proof material, this product meets all the needs of raw materials for membrane electrolysis. Another area in which KOH has grown is the defrost market. Due to environmental concerns, potassium acetate, which is produced from caustic potash, is growing as a band de-icer. However, its use as an antifreeze on aircraft wings has been hampered by concerns about corrosion. One of the main concerns of potassium hydroxide production is the existence of a cost-effective alternative called sodium hydroxide. The global market for potassium hydroxide is projected to grow at a significant rate during 2021 and 2026. In 2021, the market is growing at a modest rate, and as the adoption of strategies by key players increases, it is predicted that it will track drivers, inhibitors and industry news such as mergers and acquisitions. The market for this material has intensified in the last few months, and manufacturers are trying to use its new power with the first price increase starting in almost two years. The continued growth of the trade also envisages several manufacturers that are expanding. The market for this substance in 2020 was about 2.4 million tons and is projected to reach about 2.9 million tons by 2027. Many factories around the world produce potassium hydroxide. Canada is the main producer with an annual production of about 9.5 million tons, Belarus with about 5 million tons, Russia with about 6.8 million tons and Jordan. In countries such as Iran, despite the rich sources of potassium hydroxide, the production of this substance is very low. With the constant demand for KOH, manufacturers continue to increase their capacity.