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Product Categories
- Chemical ionization mass spectrometry
- Proton transfer flight mass spectrometry
- Ammonia analyzer
- peroxide
- free radical
- Photochemical reaction, secondary aerosol reaction flow tube
- Collaborative control of ozone pollution
- ion source
- Photolysis rate meter
- Nitrogen pentoxide analyzer
- Nitric acid analyzer
- HONO nitrous acid online monitoring
Beijing Zhichen Technology Co., Ltd
Photochemical reaction, secondary aerosol reaction flow tube
NegotiableUpdate on 02/01
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Overview
The flow tube for photochemical reactions and secondary aerosol reactions can be used to study the impact of photochemical reactions on the atmospheric environment. For example, it can be used to simulate photochemical reactions in the atmosphere to understand the transformation patterns and impact mechanisms of different pollutants under light conditions. This is of great significance for evaluating atmospheric environmental quality, predicting pollution trends, and developing effective pollution control measures.
Product Details
Detailed introduction of product specifications and models:
Flow tube type: conical cylinder (wall loss is only 1-2%, with some materials even as low as 0%)
Reactor material: polished high transparency quartz glass tube
Stay time: up to 2 minutes, efficient static mixing
Specification: Customized according to customer needs
Operation mode: Light source intensity, gas distribution, can be freely set according to needs
Temperature control method: Integrated control system control
Light source: artificial simulated light source, various frequency bands
Humidity range: According to customer requirements, conventional RH10% -90%
Note: We accept customization of various specifications from customersPhotochemical reaction, secondary aerosol reaction flow tubeCustomize various types of atmospheric photochemical and aerosol reaction flow tube reactors.
Photochemical reaction, secondary aerosol reaction flow tubeIt has important applications in multiple fields.
Firstly, in the field of environmental science, photochemical reaction flow tubes can be used to study the impact of photochemical reactions on the atmospheric environment. For example, it can be used to simulate photochemical reactions in the atmosphere to understand the transformation patterns and impact mechanisms of different pollutants under light conditions. This is of great significance for evaluating atmospheric environmental quality, predicting pollution trends, and developing effective pollution control measures.
Secondly, in industrial production, photochemical reaction flow tubes are widely used in chemical synthesis and process optimization. By simulating the photochemical reaction conditions in actual production processes, researchers can gain a deeper understanding of the reaction mechanism and kinetic characteristics, thereby optimizing production processes, improving product quality, and reducing costs.
In addition, photochemical reaction flow tubes can also be used in fields such as materials science, biomedical, and energy research. In materials science, it can be used to study the optical properties and photochemical reaction characteristics of new materials; In biomedicine, it can be used to study the photodegradation mechanism and phototoxicity of drugs; In energy research, it can be used to develop new light energy conversion technologies and improve energy utilization efficiency.
