multi N/C® 2100/2100 S

multi N/C<sup>&reg;</sup> 2100more pictures

Description

The multi N/C® 2100 is the space-saving TOC/TNb analyzer which demonstrates its strength particularly in the field of environmental analysis. Along with VITA®, the FR NDIR detector and catalytic high temperature combustion up to 950 °C, multi N/C® 2100 is equipped with a perfect injection technique for particle containing samples. The integrated autosampler and the solid technique turn it into a compact routine analyzer.

Characteristics of multi N/C® 2100 and multi N/C® 2100 S

  • Focus Radiation NDIR detector 
  • VITA® Flow Management System (multi N/C® 2100 S) 
  • Easy Cal (multi N/C® 2100 S) 
  • Auto-protection 
  • Catalyst promoted high temperature combustion of up to 950 °C 
  • Sample feed by valve- and septum-free direct injection
  • Ideal for small as well as for large sample volumes 
  • Upgradeable for simultaneous determination of TNb (ChD oer CLD) 
  • Truly simultaneous determination of TOC and TNb with a single injection and using the same catalyst 
  • Available either for HT 1300 or double furnace technology for solid analysis
  • Space-saving system with fully automatic autosamplers of different capacity (optionally)

Software

multiWin®

The self-explanatory multiWin® software accompanies the user through all relevant menu points. The software monitors and regulates at the same time all the important system parameters and informs immediately about errors in the system configuration and about the input of inappropriate parameters, thus preventing any unusable results from the outset.

multiWin® checks for you the system performance and the quality of the analysis, delivers a clear display of the measurement results, and much more. multiWin® provides free evaluation of sample data even during running measurements, the automatic selection of the optimum calculation function, the fully automatic set up of calibration curves for the various measuring ranges as well as the possibility of individual recalculation of results.

  • Intuitive user guidance
  • Comprehensive user-oriented functions like multi-point calibration, blank value correction, recalculation of results, free choice of results dimensions, statistical functions
  • User management, audit trail and electronic signatures according to FDA 21 CFR part 11
  • Comfortable management and storage of data and parameters
  • Automatic or manual data export (LIMS, MS Excel)
  • Fully automatically control of maintenance intervals
  • Available as PC or as stand alone software version for operation via touch screen

Accessories

ChD or CLD — chemiluminescence detector (CLD) or the solid state chemodetector (ChD) for TNb

AS 60 — autosamplers with a high capacity of up to 116 samples á 2 mL

HT 1300 — High-temperature combustion (HTC) technology: HT 1300 for solid samples (separate module)

Double furnace technology — the ideal combination for water and solid samples without the need of an additional furnace

TIC solids Module — direct determination of TIC solid samples

To multi N/C® series accessories

Applications

Application Notes

  • SP_TOC_02_07_e
    .pdf | 513.27 kB

    TC and TNb Determination in Hydrogen Peroxide

  • SP_TOC_01_10_e
    .pdf | 51.46 kB

    TN Detection in the Soil Using the Suspension Method

  • SP_TOC_01_02_e
    .pdf | 120.47 kB

    TOC Analysis in Cement Eluates

  • SP_TOC_02_00_e
    .pdf | 127.06 kB

    TOC/TC Analysis in Solids

  • SP_TOC_02_10_e
    .pdf | 125.62 kB

    TOC Detection in Solids: Comparison of the TOC Suspension Method and Common Dry Combustion

Downloads

Videos

multi N/C® animation

multi N/C® — As Easy As It Gets! Easy use and safe, trouble-free and unattended sample analysis — these are more than ever requirements for a TOC/TNb analyzer. Operation of the instrument even without special knowledge or experience is no problem with a multi N/C®!

Tutorial multi N/C® series FR-NDIR Detector

The core element of the multi N/C® series models is the new Focus Radiation NDIR Detector® equipped with high-quality optics for precise detection of CO2. Energy-rich radiation is focused onto the microdetector with the help of integrated optics. The radiation density obtained in this way surpasses classical detectors many times. This results in higher sensitivity and precision over a wider measurement range.