ICP, ICP-OES, ICP-AES, AAS, GC-MS, GC, HPLC, Inductively coupled plasma mass spectrometry, Inductively coupled plasma atomic emission spectroscopy, Inductively coupled plasma optical emission spectrometry, Atomic Absorption Spectrometer, Mass Spectrometer, High-performance liquid chromatography ,Gas Chromatography
Model GC8000 Gas Chromatograph
  • Trace toxics analysis, monitoring and research in environmental protection, atmosphere and water source pollution
  • Biochemistry, clinic application, pathology and toxicology research
  • Microorganism analysis and research in food ferment, and microelements analysis in beverage
  • Intermediate and finished product analysis in western medicine materials
  • Crude oil composition analysis and control in petroleum processing, petrochemical industry, petroleum geological industry, and geological prospecting research
  • Component research and production control in organic chemistry and organic synthesis
  • Analysis and research in sanitary quarantine, labor protection, and hazard detection
  • Monitoring, control and research in cutting-edge science and military technologies
  • Newly designed, high performance HRGC
  • Double FID detectors in the basic type with wide accessory options such as GC8000-TCD thermal conductivity detector, GC8000-ECD electron capture detector, GC8000-NPD nitrogen and phosphorous detector, GC8000-FPD flame photometric detector, converter, gas sample inlet valve, etc.
  • In the basic type, the instrument has dual packed columns, double samplers and dual gas path system structure, which can effectively restrain baseline fluctuation and drift in real time, suitable for temperature programming analysis. The instrument can work with three types of detectors at the same time. With different detector combination in different application, the instrument can support detectors working in either cascade or paralleled connection.
  • The instrument in the basic type is equipped with completed capillary analysis system and independent capillary split sampler, which includes diaphragm cleaning, split flow and auxiliary gas adjustment. It supports capillary split / splitless sampler, cold on-column sampler, and 0.53mm large diameter capillary column direct sampler. It's suitable for all kinds of capillary column of various diagrams, speculations, and lengths, and made of glass or flexible silicon glass.
  • The gas path of the instrument adopts high precision scale flow control valve, unloading valve and needle valve. It's easy to adjust flow capability and has better reproducibility and stability.
  • The instrument supports following injection methods:
    • Packed column: on-column sample injection, instantaneous vaporizing sample injection, gas sample injection
    • Capillary column: split injection, split less injection, large diameter column direct injection
  • Newly developed computer aided temperature control system. It can manage the temperature control of six path heating areas at the same time, including column, ion chamber, thermal conductivity detector, capillary column sampler, packed column sampler auxiliary and standby, with high precision (less than ±0.1°C) and wide range (up to 400°C), and temperature overload and deviation is less than 2°C or even lower.
  • The column has five-phase programmed temperature control, and the highest heating rate is up to 40°C/min.
  • The system has such functions as switch-off protection, temperature limit setup, temperature scanning, rapid automatic cooling, i.e. back opening door, and etc.
  • Open-end computer system can apply RS-232 interface and chromatogram workstation to achieve dual path communication control and data processing.
Specifications - Temperature Control
Temperature control range 7°C-400°C of room temperature (increment by 1°C)
Temperature control objects column, ion chamber, thermal conductivity, sampler A, sample B, auxiliary (standby)
Temperature programming phase 5
Temperature programming rate 0.1°C-0.4°C (min increment by 0.1°C)
Specifications of Flame Ionization Detector (FID)
Detection limit M≤5×10-11g/s (sample C16)
Optimal test result M≤5×10-12g/s
Baseline noise ≤5×10-14A
Baseline drift ≤6×10-13A/h
linear range ≥5×106