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NIR Analyses Applications

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    Chromatography laboratory instrumentation for food & beverage

    Effective measures against food fraud, efficient and healthy food processing and the development of functional food and neutraceuticals are just few of many challenges in modern F&B production and analysis. BUCHI offers classical reference methods and near infrared spectroscopy (NIRS) for food analysis, but also visualization of production processes using spray drying and encapsulation.

    By BÜCHI Labortechnik AG based in Postfach, SWITZERLAND.

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    Recycling sorting solutions for the wire recovery

    Previously, cable and wire materials were often lost in the treatment and sorting process, resulting in a financial loss due to the high proportion of copper they contain. TOMRA sorting technologies are capable of detecting these wires, transferring them to a metal product and then finally sorting them in a further step into a cable fraction of outstanding purity.

    By TOMRA Sorting GmbH. based in Mülheim-Kärlich, GERMANY.

  • Percent Aromatics in Gasoline #3008

    The aromatic content of gasoline determines many of its combustion properties. Since it also impacts the environmental characteristics of the fuel it is desirable to have accurate measurements of this parameter. The traditional analytical method for measuring aromatics is either gas chromatography (GC) or an older method entitled fluorescent indicator adsorption (FIA), both of which are time and labor intensive. This note will discuss the use of Guided Wave hardware and software tools for the measurement of % aromatics in fuel products using fiber optic-based, Near-Infrared (NIR) spectroscopy. NIR can be applied in real time directly in process monitoring or as a laboratory procedure. In either case NIR is a time and money saving alternative to traditional methods. Request Application Note #3008

    By Guided Wave, Inc. based in Rancho Cordova, CALIFORNIA (USA).

  • Cloud Point of Diesel Fuel #3074

    The Cloud Point of a diesel fuel is the temperature below which wax forms giving the fuel a cloudy appearance. This parameter is an important property of the fuel since the presence of solidified waxes can clog filters and negatively impact engine performance. The traditional laboratory methods for the measurement of Cloud Point are optical in nature, but rely on cooling the fuel for the wax formation to occur. Guided Wave’s process analyzers can measure compositional changes in the fuel that will be directly related to the wax formation and hence the Cloud Point. This note will discuss the use of Guided Wave hardware and software tools for the measurement of the Cloud Point of diesel fuel using fiber optic-based, near-infrared (NIR) spectroscopy. NIR can be applied in real time directly in process.

    By Guided Wave, Inc. based in Rancho Cordova, CALIFORNIA (USA).

  • Octane Number of Gasoline using NIR Spectroscopy #3012

    When every second counts and performance is on the line Guided Wave's NIR analyzers allow for easy measurement of octane numbers in gasoline and refinery production units using fiber optic -based, near-infrared (NIR) spectroscopy. *Fast and reliable measurement of the octane number of gasoline (RON & MON). * Control gasoline production in real-time directly with in process monitoring. * Certify gasoline meets specification before release. *Gain significant improvements in process control. *Minimize the need for laboratory sample collection and the labor intensive "knock engine" method. The measurement of the octane number of gasoline using NIR spectroscopy is both fast and reliable utilizing Guided Wave analyzers. Results are available in real-time (seconds) for multiple parameters in complex streams. Request Application Note #3012

    By Guided Wave, Inc. based in Rancho Cordova, CALIFORNIA (USA).

  • Hydroxyl Number in Polyols (OH#) #3013

    The use of polymeric polyols is commonplace in the manufacturing of polyurethanes and other specialty polymers. The hydroxyl number (OH#) is a measure of the concentration of the hydroxyl groups on the polyol. This is an important parameter to monitor and control during polyol production. The laboratory method that is commonplace for hydroxyl number determination is both time consuming and involves the use of hazardous materials. This note will discuss the use of Guided Wave hardware and software tools for the measurement of hydroxyl number in polyols using fiber optic-based, Near-Infrared (NIR) spectroscopy. NIR can be applied in real time directly in process or as a laboratory procedure. In either case NIR is a time and money saving alternative to traditional methods. NIR also offers the benefit of increased safety over traditional methods. For well established process measurements, a Guided Wave ClearView® db multi-wavelength photometer can be used to achieve similar results.

    By Guided Wave, Inc. based in Rancho Cordova, CALIFORNIA (USA).

  • Cetane Number of Diesel Fuels #3010

    The Cetane number of a diesel fuel is a measure of the ignition properties and is an important specification that must be met during fuel production. The traditional laboratory method for Cetane number determination is the knock engine method in which the fuel is burned and its combustion characteristics compared to known standards. This method is time and labor intensive, and provides no ability for real time control of production. This note discusses the use of Guided Wave hardware and software tools for the measurement of Cetane number in diesel fuel using fiber optic-based, Near-Infrared (NIR) spectroscopy. NIR is applied in real-time directly in process monitoring or as a laboratory procedure. In either case NIR is a time and money saving alternative to traditional methods.

    By Guided Wave, Inc. based in Rancho Cordova, CALIFORNIA (USA).

  • Classification and identification of recyclable material

    This level is expected to reach over 4 million tons by 2010. Companies that specialize in recycling carpet require a fast, reliable and accurate means of identifying the carpet face fiber type entering recycling streams. Collection of plastics for recycling is increasing rapidly. Plastic recycling faces one huge problem, plastic types must not be mixed for recycling. Even a small amount of the wrong type of plastic can ruin the melt. Whether it is a carpet or plastic, classification and identification of recyclable material can be achieved using Bruker Optics` state of the art spectrometer systems. Bruker Optics has applied the FT-NIR technology and experience to this demanding requirement, and offers the Carpet Analyzer as a dedicated solution for the recycling industry.

    By Bruker Corporation based in Billerica, MASSACHUSETTS (USA).

  • FT-NIR spectroscopy for the biofuels industry

    FT-NIR spectroscopy is a widely used technique that can do rapid and non-destructive measurements in seconds. This technique can achieve multiple analysis results per measurement and determine real–time chemical information at-line and in-line.

    By Bruker Corporation based in Billerica, MASSACHUSETTS (USA).

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