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Nitric acid is one of the most important chemical compounds in industrial production. It has diverse applications in numerous industries and is indispensable in modern economic life. In this blog post, we want to take a look at the significance and use of nitric acid in industry.

The Production of Nitric Acid

Nitric acid (chemical formula: HNO3) is a colorless, corrosive liquid composed of nitrogen and oxygen. It is produced industrially through the catalytic oxidation of ammonia (NH3). This process is also known as the Ostwald process and is named after the German chemist Wilhelm Ostwald, who developed the method in the early 20th century.

In the first step, ammonia is converted to nitrogen monoxide (NO) with air or pure oxygen at high temperatures and pressures. Subsequently, the nitrogen monoxide is oxidized with additional oxygen to nitrogen dioxide (NO2) in a second reaction step. Finally, concentrated nitric acid is formed by absorbing the nitrogen dioxide in water.

The Ostwald process remains the most commonly used production method for nitric acid to this day. It is characterized by high efficiency and cost-effectiveness and enables the production of large quantities of nitric acid.

Use of Nitric Acid in Industry

Nitric acid is versatile in industrial production. The most important areas of application include:

Fertilizer Production

A large portion of the nitric acid produced worldwide is used for the manufacture of nitrogen fertilizers. Through reaction with ammonia, ammonium nitrate is produced, which serves as the main component in many mineral fertilizers.

Explosives

Nitric acid is an important raw material for the production of explosives such as nitroglycerin, trinitrotoluene (TNT), or nitrocellulose. These are used in the mining and construction industries.

Dyes and Pigments

In the dye and pigment industry, nitric acid is used to produce nitro compounds, which serve as the basis for various color pigments.

Pharmaceuticals

Nitric acid is also required in the pharmaceutical industry. On one hand, it serves as a raw material for the synthesis of active pharmaceutical ingredients; on the other hand, it is used in the production of drug packaging.

Metal Processing

In metal processing, nitric acid is used for pickling, etching, and polishing metals. It removes oxide layers and impurities from the metal surface.

Cleaning and Disinfection

Due to its strong oxidizing effect, nitric acid is used in cleaning and disinfecting agents. For example, it is used in the food and beverage industry for disinfecting equipment and machinery.

Other Applications

Furthermore, nitric acid is used in the rubber, leather, and textile industries, in ceramic manufacturing, and in the electronics industry.

Safety Aspects in Handling Nitric Acid

Due to its corrosive and oxidizing properties, nitric acid is a hazardous substance that must be handled with caution. Improper handling can result in serious injuries from chemical burns to the skin and mucous membranes, as well as poisoning.

Therefore, strict safety regulations must be followed when handling nitric acid in industrial applications. These include, among others:

• Use of personal protective equipment such as safety goggles, gloves, and an apron
• Working in well-ventilated areas or under a fume hood
• Avoiding contact with flammable materials
• Safe storage in suitable containers
• Regular training and instruction of employees

Additionally, companies that handle nitric acid must have comprehensive hazardous substance management to minimize risks and be able to respond quickly in an emergency.

Conclusion

Nitric acid is a key chemical compound with diverse application possibilities in industrial production. It is indispensable in modern manufacturing processes and plays an important role in numerous industries. At the same time, handling this corrosive substance requires special safety measures to avoid dangers to humans and the environment.

Therefore, companies that use nitric acid must demonstrate a high degree of responsibility. Only in this way can the use of this valuable industrial raw material be long-term and sustainable.