A suitable aerodynamic diameter evaluation device for investigating the health effects of suspended particles.
The "Model 3321" is a device that uses the measurement principle of Time-Of-Flight (TOF) to calculate particle size by measuring the time it takes for particles to pass through a laser between two points, allowing for real-time measurement of particle size distribution. The measurable particle size range is from 0.5 to 20 μm, determined as Aerodynamic Diameter. Additionally, along with the Time-Of-Flight principle, the light scattering intensity of each particle is measured simultaneously. 【Features】 ■ Particle size range: 0.5 to 20 µm ■ Easy to handle and suitable for a wide range of applications ■ High classification capability: Total 52 channels (aerodynamic diameter) *For more details, please refer to the PDF document or feel free to contact us.
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basic information
【Specifications】 ■ Particle size type: Aerodynamic diameter ■ Particle size range: 0.5 to 20 µm ■ Classification capability ・ Total 52 channels (aerodynamic diameter) ・ Total 16 channels (light scattering intensity) ■ Concentration range: 0.001 to 10^3 particles / cc ■ Dimensions: H180×W300×D380mm ■ Weight: 10kg ■ Power supply: 100–240VAC 50–60Hz 100W or 24VDC * For more details, please refer to the PDF document or feel free to contact us.
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【Application】 ■ Research on toxic inhalation ■ Detection of biohazards ■ Research on environmental pollution ■ Monitoring of atmospheric aerosols ■ Monitoring of indoor air ■ Efficiency testing of filters and cleaners, etc. *For more details, please refer to the PDF materials or feel free to contact us.
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Company information
Tokyo Dairek Co., Ltd. primarily engages in the sale of equipment and systems for the analysis, measurement, generation, collection, and processing of nanoparticles and fine particles (aerosols) suspended in gases. The analysis of nanoparticles and fine particles (aerosols) not only aids in the assessment and resolution of environmental and health impacts caused by recent diesel particulates, tobacco smoke, asbestos, pollen, radioactive particles, and nanomaterials, but it is also attracting attention for the development of high-performance materials and nanomaterials that leverage the properties of ultrafine particles, the development of more effective pharmaceuticals and pesticides, load testing of ultra-precision equipment, and next-generation semiconductor manufacturing environments. At Tokyo Dairek, we offer a wide range of high-performance equipment and systems, and with the support of our experienced technical team possessing advanced expertise, we contribute to the research and development and industrial advancement of customers in various fields.
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