HS Code for Glacial Acetic Acid and Its Applications in Industry and Commerce

Understanding Glacial Acetic Acid and Its HS Code

Glacial acetic acid, a key chemical substance, is widely recognized in both industrial and laboratory settings. Its chemical formula is CH₃COOH, and it appears as a colorless liquid with a distinct pungent odor. The term glacial refers to its ability to solidify at temperatures below 16.6°C (62°F), forming ice-like crystals. This property distinguishes it from other forms of acetic acid, primarily found in solutions.

Additionally, glacial acetic acid is instrumental in pharmaceuticals, acting as a solvent and reagent in various chemical reactions. It is involved in the synthesis of numerous active pharmaceutical ingredients, contributing to the formulation of medications. Its versatility is also evident in its use as a laboratory reagent, where it is employed in numerous chemical reactions and analyses.

To facilitate international trade and commerce, glacial acetic acid is classified under a specific Harmonized System (HS) code. The HS code is a standardized numerical method of classifying traded products, designed to be used by customs authorities and trade organizations worldwide. For glacial acetic acid, the HS code is typically 2915.21. This classification helps in the efficient tracking of trade statistics, identification of tariffs, and customs duties. By using HS codes, countries can monitor the flow of goods and implement policies that support their economic objectives.

The classification under the HS code 2915.21 encompasses not just glacial acetic acid but also its variants. This provides a clearer understanding of the global market dynamics and trade patterns related to this essential chemical. Importers and exporters must be diligent in correctly categorizing their products to avoid potential customs issues and ensure compliance with international regulations.

In conclusion, glacial acetic acid is a vital chemical substance with significant applications across multiple industries, including textiles, food, pharmaceuticals, and research. Understanding its properties, uses, and the importance of its HS code allows stakeholders in the supply chain to navigate the complexities of international trade effectively. As global demand for this versatile compound continues to rise, the importance of proper classification and adherence to trade regulations becomes even more critical.