thermal oxidizer system for pharmaceuticals

熱酸化システム for pharmaceuticals

はじめに

The thermal oxidizer system plays a crucial role in the pharmaceutical industry, ensuring the safe and efficient disposal of harmful pollutants produced during pharmaceutical manufacturing processes. In this blog post, we will delve into the details of the thermal oxidizer system for pharmaceuticals, exploring its components, working principles, and benefits.

Components of a thermal oxidizer system

1. Primary Chamber: The primary chamber is the initial stage of the thermal oxidizer system, where the polluted air enters and is heated to the required temperature for combustion.
2. Burner: The burner provides the necessary heat to raise the temperature in the primary chamber, facilitating the oxidation of pollutants.
3. Secondary Chamber: The secondary chamber serves as the secondary stage of the thermal oxidizer system, ensuring complete combustion of pollutants and further reducing emissions.
4. Heat Recovery System: The heat recovery system captures and utilizes the heat generated during the oxidation process, increasing overall energy efficiency.
5. Control Panel: The control panel allows operators to monitor and adjust various parameters of the thermal oxidizer system, ensuring optimal performance.

Working principles of a thermal oxidizer system

1. Pollutant Inlet: The polluted air containing volatile organic compounds (VOCs) and other contaminants enters the thermal oxidizer system through the inlet.
2. Preheating: The incoming air is preheated using the heat from the combustion process, minimizing the energy required for complete oxidation.
3. Combustion: In the primary chamber, the preheated air encounters the burner, where it is brought to the ignition temperature for the combustion of VOCs.
4. Residence Time: The residence time in the chambers is carefully controlled to ensure sufficient contact between the pollutants and the high temperature, enabling complete oxidation.
5. Emission Treatment: After passing through the secondary chamber, any remaining pollutants are further oxidized, resulting in reduced emissions.

Benefits of a thermal oxidizer system for pharmaceuticals

1. Pollution Control: The thermal oxidizer system effectively eliminates harmful pollutants, ensuring compliance with environmental regulations and protecting public health.
2. Energy Efficiency: The heat recovery system maximizes energy efficiency by capturing and reusing the heat generated during the oxidation process, reducing overall energy consumption.
3. Cost Savings: By reducing energy consumption and minimizing the need for additional pollution control measures, the thermal oxidizer system helps pharmaceutical companies save on operational costs.
4. Enhanced Safety: The combustion process in the thermal oxidizer system eliminates the risk of hazardous emissions, creating a safer working environment for pharmaceutical industry personnel.

thermal oxidizer system image

会社概要

We are a high-end equipment manufacturing and new technology enterprise dedicated to the comprehensive management of volatile organic compounds (VOCs) waste gas and carbon reduction and energy-saving technology. Our core technical team comes from the Aerospace Liquid Rocket Engine Research Institute (Aerospace Sixth Institute), with more than 60 R&D technology personnel, including 3 senior engineer research fellows and 16 senior engineers. We have four core technologies including thermal energy, combustion, sealing, and self-control, and have the ability to simulate temperature fields, air flow fields, ceramic heat storage material performance, molecular sieve adsorption material comparison and VOCs organic matter high-temperature incineration and oxidation characteristics experiments and tests.

Our company has RTO technology research and development center and waste gas carbon reduction engineering technology center in the ancient city of Xi’an, and a 30,000m2 production base in Yangling. Our RTO equipment production and sales lead the world.

Our Research and Development Platforms

高効率燃焼制御技術テストベンチ： We have developed an intelligent target tracking flame detector with the characteristics of high sensitivity and strong anti-interference. The system uses an image processing algorithm to track the target flame in real time, realizing automatic flame control and improving combustion efficiency.
分子ふるい吸着効率試験ベンチ: We have developed a molecular sieve regeneration technology that can recover and reuse the molecular sieve. The desorption efficiency of the molecular sieve is increased by more than 30%, and the adsorption efficiency is maintained above 95%, effectively solving the problem of molecular sieve saturation.
高効率セラミック蓄熱技術テストベンチ： We have developed a high-efficiency ceramic heat storage material with a heat storage temperature of over 1000¡ãC and a heat storage density of over 1.5 times that of traditional heat storage materials. This material can be used in thermal energy storage and heat exchange devices, effectively reducing energy consumption.
超高温廃熱回収テストベンチ： We have developed an ultra-high temperature waste heat recovery technology that can recover waste heat above 1000¡ãC. This technology can be used in industries such as steelmaking, cement, glass, and ceramics, effectively reducing energy consumption and improving production efficiency.
気体流体シール技術テストベンチ： We have developed a gas fluid sealing technology that can effectively seal gas and fluid media in high-speed, high-pressure, and high-temperature environments. This technology can be used in industries such as aerospace, nuclear power, and petrochemical.

当社の特許と栄誉

On core technology, we have applied for 68 patents, including 21 invention patents, and the patented technology basically covers key components. Among them: 4 invention patents have been authorized, 41 utility model patents, 6 appearance patents, and 7 software copyrights.

当社の生産能力

鋼板およびプロファイルの自動ショットブラストおよび塗装生産ライン： Our production line is equipped with an automatic feeding and unloading system, and the shot blasting and painting process is fully automated. It can effectively remove the rust, oil, and impurities on the surface of the steel plate and profile, making the surface clean and smooth, and improving the coating adhesion.
手動ショットブラスト生産ライン: Our manual shot blasting production line can effectively clean the surface of steel plates and profiles, remove rust, oil, and impurities, and improve the coating adhesion.
除塵・環境保護設備： We have developed a series of dust removal and environmental protection equipment, which can effectively control various types of dust and waste gas, and meet the emission standards of various countries and regions.
Automatic painting booth: Our automatic painting booth is equipped with an automatic feeding and unloading system, and can automatically control the spraying process. It can effectively improve the spraying quality and reduce the amount of paint used.
乾燥室： Our drying room can effectively control the drying temperature and humidity, and can ensure the drying effect of various types of coatings.

We welcome customers to cooperate with us! Our advantages include:

Advanced technology and rich experience in VOCs waste gas comprehensive management and carbon reduction and energy-saving technology;
High-end equipment manufacturing and professional engineering team;
Perfect after-sales service system and efficient technical support;
International quality certification and environmental certification;
Successful cases and high customer satisfaction in various industries;
Continuous innovation and improvement, leading the development trend of the industry.

著者宮