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Overview
Aerodynamic Particle Sizer LMADP-A100 offers a 7-step system with an additional membrane stage for complete analysis. Incorporated with a 0.5 L/min low-flow rate for optimal aerosol measurement efficiency. It features parameters like Mass Median Aerodynamic Diameter (MMAD) and Geometric Standard Deviation (GSD). Our Aerodynamic Particle Sizer is designed for advanced phase sampling and animal exposure evaluations.
Features :
Wide Particle Size Range
High Sensitivity detection
Inertial Impact Mechanism
Low Sample Volume Requirement
Durable Construction
Specifications :
| Type | Low-flow particle size analyzer |
| Principle | Inertial impact |
| Sampling Flow Rate | 0.5 L /min |
| Intended Purpose | stage sampling, aerosol particle weighing and animal exposure testing |
| Number of Stages | 7 stages + membrane stage |
| Stage 1 Cutting Diameter | 5.1 μm |
| Stage 2 Cutting Diameter | 3.1 μm |
| Stage 3 Cutting Diameter | 1.9 μm |
| Stage 4 Cutting Diameter | 1.2 μm |
| Stage 5 Cutting Diameter | 0.77 μm |
| Stage 6 Cutting Diameter | 0.50 μm |
| Stage 7 Cutting Diameter | 0.33 μm |
| Calculated Parameters | MMAD, GSD |
Standard Accessories :
| Model No. | Accessory | Unit | Quantity |
| LMADP-A100-M1 | Membrane Filter | Each | 1 |
| LMADP-A100-C1 | Collection Plates | Each | 7 |
| LMADP-A100-F1 | Flow Control Valve | Each | 1 |
| LMADP-A100-S1 | Sample Tubing | Set | 1 |
| LMADP-A100-C2 | Calibration Kit | Set | 1 |
| LMADP-A100-C3 | Cleaning Brushes | Set | 1 |
| LMADP-A100-P1 | Power Cable | Each | 1 |
Applications :
Aerodynamic Particle Sizer LMADP-A100 is ideal for measuring airborne particulates, analyzing aerosol nanoparticles and facilitates inhalation exposure testing in animals for laboratory research.
Selection Guide :
Aerodynamic Particle Sizer LMADP-A100 is best suited for research and experiments requiring real-time measurement of airborne particles ranging from airborne particles ranging from 0.5 to 20 microns. Widely applied in aerosol science, environmental monitoring, pharmaceutical aerosol delivery, and filtration studies, it supports applications like inhalation research, cleanroom control, and combustion analysis. Its high-resolution sizing and velocity tracking make it suitable for experiments involving aerosol dynamics, drug delivery systems, and air quality assessments. Apart from the typical applications, its testing range can be tailored to meet specific material and performance requirements, making it a versatile and dependable tool for a wide variety of particle analysis tasks.
