NANO PRO™ Gas Chromatography System, Model 3
Overview
The next-generation NANO PRO Gas Chromatography System, Model 3 sets a benchmark comparable to leading international brands. It features advanced technologies such as electronic flow control, microfluidic plate management, and high-precision independent temperature control, delivering exceptional analytical performance and reliable stability to meet users' demanding requirements.
The NANO PRO GC Model 3 is equipped with intelligent features like self-diagnosis, leak detection, carrier gas conservation, and automated reminders, enabling you to monitor instrument status and address issues with ease. It is compatible with various pretreatment devices, including solid-phase microextraction, headspace sampling, and liquid samplers, offering expanded application possibilities tailored to your needs.
Key Features
- Ultra-Stable Liquid Injection Port
- High-Precision Electronic Pressure Controller (EPC)
- World-Class Column Oven
- Intuitive and User-Friendly Workstation Software
- Exceptional Human-Computer Interaction Experience
- Supports Multiple Detector Options (Up to Four Simultaneously)
Specification
| 1. System Performance | |
| Peak area repeatability | |
| Retention time repeatability | |
| 2 injection ports, 4 detectors and 3 detector signals can be installed at the same time. All inlet, detector and auxiliary gas path are controlled by electronic flow path, support pressure and temperature compensation; | |
| *The instrument can be upgraded to gas chromatography-single quadrupole mass spectrometer and gas chromatography-triple quadrupole mass spectrometer of the same brand as gas chromatograph. | |
| The detector uses electronic digital data output; | |
| ≥6 electronic flow control modules can be installed at the same time to provide ≥18 gas path control; | |
| There are 4 separate heating zones (excluding column oven). | |
| 2. Environmental Conditions | |
| Ambient operating temperature range | 5℃~35℃ or wider; |
| Ambient working humidity range | 5%-95%RH or wider; |
| Power supply requirements | 220 V±10%, 50 Hz±10%; |
| 3. Column Oven | |
| Temperature control range | room temperature +4℃~450℃ or wider; |
| Temperature setting accuracy | ≤0.1℃; |
| Temperature control accuracy | ≤0.01℃ |
| *Program level | 31 level /32 platform, can achieve program temperature and program cooling; |
| Maximum heating rate | ≥120 ℃/min; |
| Cooling rate | from 450℃ to 50℃ (room temperature 20℃) ≤6 min; |
| The ambient temperature changes by 1℃, and the average temperature of column temperature chamber changes by | |
| 4. Electronic Pressure Flow Controller (EPC) | |
| *Ruby damper; | |
| Pressure control accuracy | ≤± 0.001psi; |
| The pressure unit can be psi, kpa, bar; | |
| Gas path control mode | constant pressure, constant current, program boost and program lift steps ≥4 steps, can calculate the column average linear velocity; |
| Pressure control range | 0~100 psi or wider; |
| Flow monitoring range | Nitrogen 0~500 mL/min or wider, hydrogen or helium 0~1000 mL/min or wider. |
| 5. Split/splitless Inlet | |
| Maximum operating temperature | ≥450℃; |
| Temperature setting accuracy | ≤0.1℃; |
| Maximum split ratio | ≥ 1:12,500; |
| The sample inlet has automatic leak detection function; | |
| The injection modes can be split, splitless, pulse split, pulse splitless, etc. | |
| Applicable to all capillary columns (inner diameter 0.1mm ~ 0.53mm); | |
| The injector spacer and split plate can be replaced by manual maintenance without tools. | |
| 6. Detector | |
| Hydrogen Flame Ionization Detector (FID) | |
| Maximum operating temperature | ≥450℃; |
| Detection limit | -12 g C/s; |
| Linear range | ≥107; |
| Signal acquisition frequency | ≥200 Hz; |
| With automatic ignition function and flameout protection function; | |
| Hydrogen leakage protection. | |
| Flame Photometric Detector (FPD) | |
| Maximum operating temperature | ≥350℃; |
| Detection limit | -14 g/s (P), 5×10-12 g/s (S); |
| Linear range | ≥104 (P), ≥103 (S); |
| Signal acquisition frequency | ≥200 Hz; |
| With automatic ignition function and flameout protection function; | |
| With automatic ignition function and flameout protection function; | |
| Hydrogen leakage protection function. | |
| Electron Capture Detector (ECD) | |
| Maximum operating temperature | ≥350℃; |
| Detection limit | -14 g/ml; |
| Signal acquisition frequency | ≥200 Hz. |
| Thermal Conductivity Detector (TCD) | |
| Maximum operating temperature | ≥350℃; |
| Detection limit: | -6 g/ml; |
| Linear range | ≥104; |
| Signal acquisition frequency | ≥200 Hz. |
| 7. Assistant EPC Module | |
| Pressure control range | 0~100 psi or wider; |
| Pressure control accuracy | ≤± 0.001psi. |
| 8. Host Display | |
| *≥8 inches high resolution full color full touch capacitive screen, built-in intelligent operating system; | |
| The host control software is customized based on Android system, graphical UI, and intelligent functions such as self-diagnosis and reminder, self-leak detection, and carrier gas self-saving. | |
| 9. Workstation Software | |
| *Independent research and development software, according to user needs to develop special software; | |
| Collection software and analysis software can be installed separately and work independently. The workstation software occupies less than 1 GB of memory. | |
| The analysis software has the functions of data screening, batch processing, automatic calculation of statistical data, and drawing trend chart. | |
