Diethanolisopropanolamine (DEIPA) is extensively utilized across diverse industries, primarily due to its multifunctional capabilities which include its role as a surfactant, corrosion inhibitor, and intermediate in chemical synthesis. Its adaptability makes it essential in the formulation of products that require stabilization and performance improvement.
In the cement and concrete industry, DEIPA is prized for its ability to enhance the efficiency of grinding aids and improve the strength of the cement. It functions by accelerating the hydration of cement, which thereby increases the early and final compressive strength of concrete. This is particularly valuable in precast concrete manufacturing and other applications where strength is critically important.
In the realm of personal care, DEIPA is incorporated in various skincare and cosmetic products. It acts as a pH adjuster and emulsification agent, stabilizing the formulations and allowing for an even distribution of other ingredients across the skin. Its buffering capacity also makes it suitable for products that need to maintain a specific pH level.
DEIPA is also a key component in industrial applications where it is used as a corrosion inhibitor, particularly in systems that are susceptible to acidic or caustic conditions. This property is highly valued in industries like petroleum refining and chemical processing, where maintaining the integrity of metal equipment is essential to operational safety and efficiency.
The market size of Diethanolisopropanolamine (DEIPA) has been showing a steady upward trajectory. Projections indicate the market will reach substantial figures by 2031, with a compound annual growth rate (CAGR) of around 3 to 5 percent. In 2030, the market is estimated to achieve a valuation of USD 395.8 million. This growth is largely driven by its increasing adoption in various industrial applications and a robust demand particularly highlighted in regional analyses like that of China, where the market size surpassed USD 165 million.
Yearly production volumes of DEIPA are not explicitly detailed, but the market expansion suggests a significant increase in output to meet rising global demands. Major exporting countries include China, which has prominently positioned itself as a crucial market player, both in production and supply capabilities. Conversely, the biggest importers of DEIPA consist of regions with substantial industrial sectors requiring this chemical for various applications.
Coupling the growth trajectory with economic indicators, the average price per metric ton of DEIPA appears to be influenced by market demand and production costs, showing fluctuations accordingly. While specific current prices are not precisely detailed, the general market conditions suggest a trend where prices could either stabilize or adjust based on raw material availability and market demand. The pricing trends are crucial for industry stakeholders for strategic planning and forecast analysis.
Sourcing Diethanolisopropanolamine (DEIPA) effectively requires an understanding of the major manufacturers and trade lines involved in its production and distribution. The chemical is predominantly used in applications like cement grinding aids and surfactants, and its suppliers are primarily concentrated in specific global regions.
China, India, and Singapore are pivotal in the global supply chain for DEIPA, hosting major manufacturers like VISWAAT Chemical, Nanjing Hongbaoli, and Jiahua Pacific Singapore. These regions' connectivity in international trade makes them critical hubs for sourcing DEIPA. For businesses looking to procure DEIPA, these countries offer robust manufacturing capabilities and established export markets.
Diethanolisopropanolamine (DEIPA) is a chemical substance subject to various regulations within the EU concerning its manufacture, use, and disposal. It is particularly monitored under REACH (Registration, Evaluation, Authorisation and Restriction of Chemicals), which mandates that substances such as DEIPA be registered and evaluated for environmental and health impacts. Compliance with REACH is essential for companies dealing with DEIPA within the EU.
In the European Union, DEIPA faces strict controls in terms of environmental and occupational health safety standards. Under the CLP Regulation (EC No 1272/2008), it is classified and labeled based on its physicochemical, environmental, and health hazards. Manufactures and importers of DEIPA must ensure that they provide Safety Data Sheets (SDS) complying with the standards set by REACH and CLP to communicate hazard information.
For businesses involved in the trading of DEIPA, understanding the tariff codes is important. Within the EU, tariffs and duties may apply when importing DEIPA from non-EU countries depending on the trade agreements in place. Export tariffs also vary, and businesses must adhere to these when exporting outside the EU. Current tariff information can be viewed on the European Commission's Taxation and Customs Union website.
It is crucial for stakeholders to stay informed about the constantly evolving regulatory landscape for DEIPA. The European Chemicals Agency (ECHA) provides comprehensive resources regarding the status of chemicals like DEIPA. For detailed, updated information on regulations, classifications, and more, interested parties should consult the ECHA website directly or utilize platforms like the EU's TARIC database for specifics on tariffs and trade-related information.
Diethanolisopropanolamine (DEIPA) is a chemical with various applications, primarily used in cement grinding aids and a variety of industrial processes. When handling DEIPA, it is vital to ensure comprehensive safety measures to prevent exposure and potential health risks.
Appropriate personal protective equipment (PPE) is essential when working with DEIPA. It is recommended to wear protective gloves, safety goggles, and protective clothing to minimize skin and eye contact. Ensure that adequate ventilation is in place to avoid inhalation of vapors.
In case of contact with skin, wash the area thoroughly with soap and water. If DEIPA comes into contact with the eyes, rinse immediately with plenty of water for at least 15 minutes and seek medical attention. If inhaled, move the exposed person to fresh air and seek medical advice if symptoms persist.
DEIPA should be stored in a cool, dry, and well-ventilated area away from incompatible substances. Containers of DEIPA should be tightly closed and properly labeled. Disposal of DEIPA must comply with local environmental regulations to prevent environmental contamination.
Diethanolisopropanolamine (DEIPA), an amine used in formulations and chemical synthesis, requires meticulous handling and suitable packaging to maintain its integrity and ensure safety. Proper storage and packaging are critical to prevent contamination, degradation, and exposure to incompatible substances.
DEIPA is commonly available in various packaging options to cater to different industrial needs. These include high-density polyethylene (HDPE) drums and Intermediate Bulk Containers (IBCs). HDPE drums are popular for their resistance to chemicals and are typically used for smaller quantities ranging from 5 to 200 liters. IBCs, on the other hand, are suitable for bulk handling and can store up to 1000 liters. These containers provide a balance between volume capacity and manageability, ensuring safe and efficient transport and storage.
For optimal preservation, DEIPA should be stored in a cool, dry, and well-ventilated area away from direct sunlight and extreme temperatures. It is essential to ensure that the storage environment remains free of sources of ignition and is segregated from incompatible materials such as acids and oxidizing agents. Adequate ventilation helps in preventing the accumulation of vapors and maintains the ambient at safe levels. Regular inspection of the storage containers for integrity and proper sealing plays a crucial role in avoiding leaks and spills.
During the handling of DEIPA, appropriate safety measures must be observed. Use of proper personal protective equipment (PPE), including gloves, goggles, and protective clothing, is crucial to avoid skin and eye contact. Operators should also ensure that there is adequate ventilation to minimize the inhalation of vapors. Spillage or accidental release measures should be in place to deal effectively with potential chemical release, maintaining environmental and workplace safety.
