Sample Concentrator ADSCO-501 speeds up the concentration step by delivering nitrogen at a flow rate of 12L/min. It offers a wide temperature control range, ensuring flexibility for different processes. The pressure output is regulated to ensure consistent gas flow. This unit supports a single block for processing and operates within safe parameters. Our Sample Concentrator is ideal for applications requiring precise nitrogen flow and temperature control in industries.
| Nitrogen Flow Rate | 0 to 12L/min |
| Pressure | ≤ 0.2MPa |
| Block Quantity | 1 |
| Temperature Control Range | RT +5℃ to 150℃ |
| Temperature Set Range | 0℃ to 150℃ |
| Temperature Stability |
±0.3℃ at 40℃ ±0.5℃ at 100℃ ±1℃ at 120℃ |
| Heating Up Rate | ≤ 30min; 20℃ to 150℃ |
| Timer | 0 to 99h 59min |
| Power Consumption | 200W |
| Dimension (W×D×H) | 220×290×540 mm |
| Net Weight | 3.9kg |
Our Sample Concentrator ADSCO-501 can be used to concentrate chemicals or biological samples in analytical Chemistry.
Accessory (Tube diameter) Capacity Dimension Quantity 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 8 96.5×76.5×50 mm 1 Pc 6 96.5×76.5×50 mm 1 Pc 3 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 Pc 12 96.5×76.5×50 mm 1 PcTube 01 for 6 mm (φ6.5×47) Tube 02 for 7 mm (φ7.5×47) Tube 03 for 10 mm (φ10.5×47) Tube 04 for 12 mm (φ12.5×47) Tube 05 for 13 mm (φ13.5×47) Tube 06 for 15 mm (φ15.5×47) Tube 07 for 16 mm (φ16.5×47) Tube 08 for 19 mm (φ19.5×47) Tube 09 for 20 mm (φ20.5×47) Tube 10 for 26 mm (φ26.5×47) Tube 11 for 28 mm (φ28.5×47) Tube 12 for 38mm (φ38.5×47) Tube 13 for 0.2ml centrifuge tube (φ6.1×17) Tube 14 for 0.5ml centrifuge tube (φ8×23) Tube 15 for 1.5ml centrifuge tube (φ10.8×31) Tube 16 for 2ml centrifuge tube (φ10.8×31)
1. What is a Sample Concentrator?
A Sample Concentrator is a laboratory device used to reduce the volume of a sample by evaporating solvents, typically using heat, vacuum, or an inert gas like nitrogen. It concentrates the sample, making it more suitable for analysis in techniques like mass spectrometry or chromatography. This process is commonly used in chemistry, biology, and environmental science to prepare samples for more accurate results.
2. What is the flow rate of nitrogen in the Sample Concentrator?
The flow rate of nitrogen in a sample concentrator refers to the volume of nitrogen gas delivered to the system per unit of time, typically measured in Liters per minute (L/min). This flow is essential for the efficient evaporation of solvents during sample concentration or drying processes, as the nitrogen gas helps displace the solvent vapours and accelerates the evaporation without applying heat that could degrade sensitive analytes.
3. Can multiple needles be used at once with the Sample Concentrator?
Yes, Sample Concentrators are designed to accommodate multiple needles or sample vials simultaneously. This feature allows for parallel processing of multiple samples, which is particularly useful in high-throughput environments or when processing a large number of samples in a short amount of time.
4. What are the advantages of using the Sample Concentrator?
The Sample Concentrator offers several advantages that enhance laboratory workflows. It efficiently concentrates samples, saving time by enabling rapid processing of multiple samples at once. This precision in concentration ensures consistent and reliable results, which is especially crucial for sensitive samples in fields like analytical testing and molecular biology.
5. Is the Sample Concentrator suitable for large-scale operations?
Yes, our Sample Concentrators is designed to be scalable and suitable for large-scale operations. They can accommodate multiple samples simultaneously, allowing for high-throughput processing. This makes them ideal for industries such as pharmaceuticals, environmental testing, and food safety, where large numbers of samples need to be concentrated efficiently.
| Nitrogen Flow Rate | 0 to 12L/min |
| Pressure | ≤ 0.2MPa |
| Block Quantity | 2 |