The World’s First Industrial Batch of Arctic Diesel Fuel with Application Temperatures Down to –65°С

Until quite recently, Arctic diesel fuel was produced in accordance with GOST R 55475 with a cold filter plugging point down to –52°C using a depressant-dispersing additive. However, in the Arctic, the temperature drops to –60°C and below, and the use of depressant-dispersing additives provokes prod...

Full description

Saved in:
Bibliographic Details
Published inChemistry and technology of fuels and oils Vol. 58; no. 2; pp. 257 - 262
Main Authors Karpov, N. V., Vakhromov, N. N., Dutlov, E. V., Sharin, E. A., Sereda, V. A., Bubnov, M. A., Gudkevich, I. V., Koval’chuk, S. S., Gritsenko, A. I., Maksimov, A. L., Ratkin, L. S., Borisanov, D. V.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.05.2022
Springer Nature B.V
Subjects
Additives
Cetane number
Chemistry
Chemistry and Materials Science
Cold
Depressants
Diesel fuels
Dispersion
Geotechnical Engineering & Applied Earth Sciences
Industrial Chemistry/Chemical Engineering
Low temperature
Mineral Resources
Petroleum refining
Plugging
Technology
Viscosity
Arctic region
Russia
kinematic viscosity
Arctic diesel fuel
platinum catalyst
cold filter plugging point
isodewaxing
extremely low temperatures
cloud point
Online AccessGet full text

Cover

More Information
Summary:Until quite recently, Arctic diesel fuel was produced in accordance with GOST R 55475 with a cold filter plugging point down to –52°C using a depressant-dispersing additive. However, in the Arctic, the temperature drops to –60°C and below, and the use of depressant-dispersing additives provokes product stratification with a sharp deterioration in the properties of the lower layer. This limited the application of Arctic diesel fuel in the Arctic. For such conditions, the Ministry of Defense of the Russian Federation developed its own standards for Arctic diesel fuel without the use of depressant-dispersing additives, and suggesting values not higher than –65°C for the cloud point, pour point and cold filter plugging point. An obstacle for obtaining a product with such properties is the difficulty of simultaneously providing the required cetane number and the low temperature properties. This paper presents a method for obtaining Arctic diesel fuel with the desired properties based on deeply isomerized diesel fractions. To implement the project, the existing units at Slavneft-YANOS PJSC were analyzed, and a chain of units was assembled for primary oil refining, hydrotreating 80 atm and isodewaxing. In the course of a number of experiments new causes of the onset of cold filter plugging point were discovered, which were explained by an increase in the diesel fuel viscosity at extremely low temperatures. To reduce the viscosity of the product, hydrocracked kerosene was added to the formula. In May 2020, permits were received from the Ministry of Defense of the Russian Federation, and in October 2021, for the first time in the Russian Federation and in the world, the first industrial batch of 3,000 tons was successfully produced.
ISSN:0009-3092
1573-8310
DOI:10.1007/s10553-022-01376-6