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Analytical Instrumentation


Grabner distillation method included in ASTM specifications for diesel and jet fuels Vienna, Austria – October 4th, 2018. AMETEK Grabner Instruments distillation method has been included in ASTM specifications for diesel and jet fuels. The recognition of the Grabner mini method as alternative to the traditional distillation test method D86 gives petroleum refineries, the automotive and the aviation industry a competitive edge: Measuring time and sample waste is reduced, while measurement precision and safety in the lab is increased.


The mini method ASTM D7344 was designed in 2007 by Grabner Instruments, a subsidiary of AMETEK Inc. In 2017 a revision of the method was released: Based on the results of a large interlaboratory study, precision of the ASTM D7344 method was found to be comparable or better than the precision of the classical D86 method. As a result, ASTM D02 committee voted to accept the Grabner method as alternative distillation method for ASTM D975 Diesel and ASTM D1655 jet fuel specifications.


The benefits of the new design go beyond improved repeatability und reproducibility. D7344 requires only 6 mL sample for true atmospheric distillation measurements. Paired with the automatic filling and dosing systems of Grabner’s D7344 MINIDIS ADXpert distillation apparatus, the small sample also promotes a faster analysis. Distillation runs on a D7344 MINIDIS ADXpert apparatus typically take less than 30 minutes and thus are a lot faster than tests with other distillation apparatus. The analyzer is portable and the small sample and the sealed distillation cycle eliminate the risk of fire and the need for a fire extinguisher during distillation runs.


Petrochemical, mining and aviation companies profit greatly from the automatic heater regulation of the D7344 analyzers, because they often test problematic samples that do not distill well under D86. “We have purchased the Grabner D7344 MINIDIS as an alternative to traditional D86 distillation units. It has proven its performance and reliability in our lab. Easy to use with automated sample handling, low maintenance costs, using only little space on our lab bench: My staff loves the MINIDIS!”, says Jim Koscielniak, manager at Plains All American Pipeline.


Grabner Instruments’ success is based on the development of portable, rugged and easy-to-operate fuel and oil analyzers for accurate quality control in the laboratory as well as for fast on-site tests in mobile lab facilities. For more information about MINIDIS ADXpert and other analytical instruments, visit Grabner’s website.


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An alternative to Pensky-Martens: MINIFLASH Touch’s flashpoint testing method D7094


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MINIFLASH Touch can be used to determine the flashpoint of class 3 flammable liquids. According to the Department of Transportation in the United States, the instrument’s mini-method is an acceptable alternative to Pensky-Martens when testing the flashpoint of fuels and hazardous liquids.


Flashpoint is defined as the lowest temperature at which a sufficient amount of a substance is vaporized to ignite in air. Flashpoint testing was originally used to show that kerosene was a fire hazard, but current regulations call for the control of a variety of substances sold commercially. Determining the flashpoint of a substance, especially that of class 3 flammable liquid is important for both secure storage and transportation.


Developed by Grabner Instruments, a subsidiary of AMETEK Inc., MINIFLASH Touch’s mini-method uses spontaneous pressure to determine the flashpoint. The instrument uses a closed-cup and no open flame – two characteristics that increase the safety of testing fuels and other flammable liquids.


“With classical methods of flashpoint testing, the open flame produced during the tests that poses a high risk, especially for refinery laboratories. For example, an operator testing jet fuel with a flash point of about 50 Celsius, but in fact running naphtha, which has a flash point of -20 Celsius risks an explosion. Commonly, such incidents happen when samples are contaminated with highly volatile components such as the presence of gasoline in diesel fuel”, explains Oliver Sauer, Director of Sales at Grabner.


The American definition of class 3 flammable liquids in 49 FCR § 173.120 includes substances that have a flashpoint of not more than 60 degrees Celsius as well as material in a liquid phase, that has a flashpoint equal to or above 37.8 degrees Celsius and is intentionally heated and transported at or above its flashpoint a bulk package. Besides chemicals and solvents, certain diesel fuels also fall under the category of class 3 flammable liquids.


The highly reproduceable results achieved with MINIFLASH Touch first received recognition in 2004. At that time, the American Society for Testing and Materials (ASTM International) codified the mini-method for flashpoint testing under D7094 and stated that “there is no statistically significant bias observed between D7094 and D93 Procedure A”.


In 2013, ASTM International reiterated its confidence in the mini-method and included D7094 in the specifications for diesel fuels D975, D396, D2880 and D3699 and into specifications for biodiesel blends ASTM D7467. The inclusion of D7094 in diesel fuel specifications guaranteed that petrochemical and transportation companies had an alternative to the traditional Penky-Martens method.


“According to the round robin performed for ASTM D6450, the repeatability is 1.9 C and the reproducibility is 3.1 C. For ASTM D7094, the repeatability is 4.1 C and the reproducibility is 5.5 C. The repeatability and reproducibility for the Pensky-Martens tester for the same sample set were 4.1 C and 6.9 C, respectively”, says Sauer.


MINIFLASH Touch presents a series of advantages over other flashpoint analyzers available on the market. In contrast to the 70-75 milliliters samples required by instruments from other manufacturers, Grabner’s MINIFLASH Touch runs accurate tests on 1-2 milliliter samples.


The procedure for determining the flashpoint of a substance also takes less time when completed with Grabner’s analyzer. Typically, no more than 1.5 minutes hands-on time are required for a MINIFLASH Touch measurement, compared to 13 minutes of continuous attendance by an operator, who is testing with a Pensky-Martens unit. This is mainly owed to the fact that the MINIFLASH method is a much safer procedure, because there is no open flame and only a minimum of sample is used per test.


The short hands-on time amount to great savings for large refineries and transportations companies: considering 20 measurements per day, the use of MINIFLASH Touch in place of competing flashpoint analyzers can generate up to 60,000 USD per year in savings.


For more information on safe and cost-efficient flashpoint testing contact Grabner Instruments at grabner.sales@ametek.comor visit the website www.grabner-instruments.com. For More Info, email:


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OCTOBER / NOVEMBER • WWW.PETRO-ONLINE.COM


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