SelectScience
Join Free
Accelerating Science
NewsLab Automation

Agilent and Grabner Instruments Provide Innovative Mobile Testing Solution for the Petroleum Industry

Agilent Technologies

Agreement focuses on an innovative mobile testing solution for in-field analysis of lubricating oils and greases

17 Jul 2018
Amelia Arberry
Administrator / Office Personnel

Industry news

Grabner Instruments, based in Austria, is well known for developing and manufacturing automatic petroleum testing equipment. In this partnership, Grabner will focus on lube and grease analysis, an area that requires specific and specialized expertise in method development.

“We are very pleased to be working with a partner of the caliber of Grabner to provide more specific tools that will meet the needs of the in-field testing market”, said Phil Binns, vice president and general manager of Agilent's Spectroscopy and Vacuum Solutions Division.
“This new global agreement makes perfect sense for both organizations and our customers,” said Werner Müller-Veith, managing director of Grabner. “By combining Agilent’s proven mobile FTIR technology with Grabner’s test methods and global channel reach, we will be able to offer rugged go-anywhere solutions that deliver the highest analytical accuracy while being simple to use.”

Based on Agilent’s robust handheld FTIR systems, Grabner has developed MINISCAN IR LOG, a highly versatile FTIR analyzer for monitoring the condition of lubricating oils and greases at petroleum refineries. The analyzer is capable of quickly and accurately measuring the levels of water in oil–without using hazardous reagents. Agilent’s Dialpath sampling technology–a key factor to the agreement–makes it easy to analyze viscous liquids (such as thick greases and lubes), with the added ability to carry out in-field testing of lubes and greases.

For more news on viscous liquid analysis, visit our Environmental Community >>

Links

Agilent TechnologiesCompany website

Tags

Atomic Absorption / Emission SpectroscopyAtomic absorption spectroscopy (AAS) and atomic emission spectroscopy (AES) — also called optical emission spectroscopy (OES) — are used to detect the elemental constituents in samples. Both techniques involve the atomization of a sample. Atomic absorption spectrometers may use a flame or furnace to create an atomic vapor of the sample before irradiation with spectral light. Optical emission spectrometers may use a flame, inductively coupled plasma (ICP), microwave plasma (MP) or spark arcs to atomize and excite the sample. At higher excitation energies, electrons can be emitted instead of photons, which can be useful for samples that can’t be atomized and for surface analysis. Explore electron spectroscopy equipment such as Auger spectrometers and photoelectron spectrometers for surface elemental analysis of samples. Find the best atomic absorption, photoelectron and optical emission spectrometers in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Infrared / IR SpectroscopyInfrared (IR) spectroscopy measures the interaction of infrared light with a sample, including transmission, reflectance & absorbance, facilitating the identification of analytes. Equipment used for quantitative analysis includes Fourier-transform infrared (FTIR) spectrometers, infrared cameras, FTIR gas analyzers, as well as attenuated total reflectance (ATR) accessories and pellet or film presses. Find the best IR spectroscopy products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Mass SpectrometryMass spectrometry (MS) is a powerful analytical technique used to identify and quantify molecules based on the mass-to-charge ratio of gas-phase ions. It provides detailed information about the structure, composition, and properties of compounds and is widely used across fields such as environmental monitoring, materials science, drug discovery and development, food and beverage testing, and wider chemical research. Key MS techniques include tandem mass spectrometry (MS/MS), liquid chromatography–mass spectrometry (LS-MS) and inductively coupled plasma (ICP-MS). Choosing from these wide range of techniques and technologies can be a daunting task, so keep up to date with scientific applications, performance expectations, and customer reviews here all in one place. Visit our product directory to receive quotes direct from the manufacturer. Spectroscopy LampsMonochromators, filters and spectroscopy lamps are available for specific applications of spectroscopy instruments. Available spectroscopy lamps include xenon, hollow cathode, ultraviolet, tungsten, halogen, mercury and deuterium.Data AnalysisData analysis hardware and software is available to make data processing straight-forward yet powerful. Data software can be used for math and stats, technical graphing and image analysis. In addition, software is available for specific data analysis of electrophoresis, densitometry, ELISA and DNA sequencing.Chem / BioinformaticsCheminformatics and bioinformatics are computational techniques used in chemistry and biology, respectively, for data acquisition, processing and storage. Cheminformatics focuses on compound information, whereas bioinformatics is mainly applied to analysis and modeling of genomics, genetic and sequencing information. Hardware and software is available for data acquisition, analysis, management and storage.Automated Liquid HandlingAutomated liquid handling equipment is used to mix, dilute and dispense allotted volumes of liquid into microplates and other vessels automatically. The robotic, liquid handling arms can dispense from single channel to 3456 multichannel as well as operate nanoliter dispensing, enabling high throughput of samples. Find the best automated liquid handlers in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Particle CharacterizationParticle characterization instruments are used to determine particle size distribution, shape, surface area, zeta potential, density and porosity of particles and materials. Multiple tecchniques are available for determining particle size, shape and count including dynamic light scattering (DLS), laser diffraction, electrozone (Coulter technique), imaging particle analysis and single particle optical sensing. Determine the density of your material with a gas pycnometer or examine its surface area and porosity with gas adsorption analyzers and mercury porosimeters. Find the best particle characterization instruments in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.SpectroscopySpectroscopy is a technique that analyzes the interaction of light with matter to study molecular properties, concentrations, and structural information. Widely used in chemical, pharmaceutical, and environmental analysis, spectroscopy offers insights into molecular composition and helps identify unknown compounds. It plays a key role in quality control, research, and diagnostics. Browse our peer-reviewed product directory to compare spectroscopy tools, read reviews, and get prices directly from manufacturers.Liquid HandlingLiquid handling involves the precise transfer, mixing, and dispensing of liquids in laboratory settings. It is essential for accurate and consistent results in biological, chemical, and pharmaceutical research. Automated liquid handling systems improve efficiency and reduce human error in sample preparation and analysis. Explore liquid handling tools in our peer-reviewed product directory; compare products, read customer reviews, and get pricing directly from manufacturers.

Related articles

Agilent and Grabner Instruments Provide Innovative Mobile Testing Solution for the Petroleum Industry