Cost-effective Fuel Analysis
The Spectrum Two™ offers trouble-free analysis of biodiesel. Intuitive design features suited for demanding quantitative applications allow even inexperienced IR users to generate clear, high quality results.
This out-of-the box solution enables labs to get up and running faster, regardless of the level of expertise. This comprehensive compilation of materials includes detailed SOP’s, sampling accessories, calibrations, and quick reference guides, all brought together through the Touch App™ interface. This system includes:
- FT-IR Biodiesel Application Pack
- Spectrum Two Instrument
- Spectrum 10™ Software
FT-IR Biodiesel Application Pack
The FT-IR Biodiesel Application Pack contains all of the resources and components necessary to perform efficient biodiesel analysis using the Spectrum Two.
The Biodiesel Application Pack contains:
- 2-port Leur Lock transmission cell with BaF2 windows, 0.1 mm
- 2 x 2 mL Leur Lock syringes
- Assorted Teflon spacers
- Torque screwdriver
- HEX BIT, 3.0 mm
- IR Liquid Cell Leur Connected Waste Tube
- Fuels FT-IR Touch Apps™ Software Kit
The Touch Apps Software Kit includes the software and SOPs to support routine QA/QC analysis of fuels using FT-IR spectroscopy. Spectrum Touch software provides a simplified, workflow-driven operating environment; for faster, more reproducible analyses.
The Touch Apps software supports the following analyses:
- FAME (Fatty Acid Methyl Esters) in middle distillate fuels, according to EN 14078 (2009)
- Benzene in spark-ignition fuels, according to ASTM D6277 (2007)
Note: Does not support ASTM D7371. If this analysis is required, please refer to the Frontier Biodiesel FT-IR FAME Analyzer.
Spectrum Two Instrument
The Spectrum Two spectrometer with KBr optics and a standard, high-performance room temperature LiTaO3 (lithium tantalate) detector delivers a spectral scan range of 8,300 – 350 cm-1 whilst offering 0.5 cm-1 resolution and 9,300:1 peak-peak signal-to-noise ratio for a 5 second scan in a sleek, compact design.
Key features that allow for consistent performance of this system include:
- Dynascan™ interferometer – Fixed mirror-pair interferometer design does not require dynamic alignment to compensate for errors.
- OpticsGuard™ technology – Unique humidity shield design protects Spectrum Two from environmental effects, allowing it to be used in more challenging conditions. Our long-life desiccant ensures maximum instrument uptime, regardless of where your analysis takes place.
- Atmospheric Vapor Compensation™ (AVC) – Features an advanced digital filtering algorithm designed to compensate for CO2 and H2O absorptions in real time removing the need for instrument purging.
- Automatic Performance Verification™ (APV) – Optional feature comprising an integrated, fully automatic filter wheel containing traceable reference materials and software allowing for abscissa, ordinate, noise, ASTM, and USP tests to be performed.
- Absolute Virtual Instrument™ (AVI) – Optional AVI standardization using gas phase methane spectra ensures instruments are accurately calibrated. Unique standardization allows data to be transferred precisely between instruments, side-by-side or in remote locations.
- Sigma-Delta Conversion: The use of Sigma-Delta converters in the digitization of the FT-IR interferogram improves the dynamic range, reduces spectral artifacts, and increases ordinate linearity to provide accurate, reproducible results.
Spectrum 10™ Software
Included in this system is the Spectrum 10™ software, which enables you to control the instrument and to manipulate the spectra that you collect. The spectrometers can operate in ratio, single-beam, or interferogram mode.
From material and contaminant identification to quantitative analysis, the comprehensive Spectrum 10 software suite allows you to focus on what matters most – results. Designed for busy academic laboratories, this comprehensive FT-IR software package facilitates data collection, processing, results generation, basic and advanced data manipulation, spectral calculations, COMPARE spectral comparison, PLS/PCR/Beer’s Law predictions, Beer’s Law Quant method development, spectral search with starter libraries, and built-in online tutorials. The software enables users without scientific training to generate infrared spectra from a sample and validate them against reference spectra in minutes, or even seconds.