Vol. 10 � 6, 2020 p 642-653| Science & Technologies: Oil and Oil Products Pipeline Transportation

Pages	Article name, authors, abstract and keyword
642-653	Traceability system formation in petroleum supply Alexey �. Bezrodny ^{a, b}, Van Tszin ^c, Renat R. Yunushev ^c, Anatoly M. Korolenok ^c ^a LUKOIL Belorussia, FLLC, 36 Nemiga Str., Minsk, 220004, Belarus ^b Belarusian State University, 4 Prospect Nezavisimosti, Minsk, 220030, Belarus ^c Gubkin Russian State University of Oil and Gas (National Research University), 65 Leninsky Prospect, Moscow, 119991, Russian Federation DOI: 10.28999/2541-9595-2020-10-6-642-653 Abstract: Nowadays so-called traceability systems that provide fixing of history, application, and location of a product during its life cycle are formed in many spheres. Large scale and territorial distribution of petroleum supply systems require some electronical sensor fields and the same for data receiving, processing, visualization, and situation identification. Example of this kind of systems is so called guaranteed petroleum product logistics automation control system that provides petroleum product preserve during tank truck deliverance from oil terminals to gas stations. In the sphere of petroleum supply also some technology development and successful in-Russia and abroad application experience tell us about possibility of express-determination of petroleum product quality characteristics by means of spectroscopy. This method provides increase of test speed of all of the samples possible or necessary and even take and investigate sample �in-flow� (physically in pipelines, logically by means of mobile laboratories, etc). Quality parameter magnitudes may be used by automation systems of various levels to increase control efficiency. The article deals with determination, analysis and synthesis of the traceability systems for quality control of petroleum product. Keywords: control of gas station nets, gas station nets, petroleum supply, multi-fuel station, fuel supply, quality control of petroleum products. For citation: Bezrodny A. �., Tszin V., Yunushev R. R., Korolenok A. M. Traceability system formation in petroleum supply. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation.2020;10(6):642�653. References: [1] Bezrodny A. A., Yunushev R. R., Korolyonok A. M. System cause-and-effect approach to structure development and control of gas station nets. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2019;9(2):218�226. (In Russ.) [2] Rezchikov A. F. Automation control system structures for industrial energy companies: in 2 volumes. Saratov: Saratov University Publ.; 1983. (In Russ.) [3] Tsvirkun �. D. Basics of complex systems synthesis. Moscow: Nauka Publ.; 1975. 432 p. (In Russ.) [4] Bezrodny A. �., Tszin V., Korolyonok A. M. Goal setting, stability and petroleum supply structure development. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2019;9(1):99�105. (In Russ.) [5] Bezrodny A. �., Tszin V., Korolenok A. M. Gas station control system structure improvement. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2019;9(6):710�717. (In Russ.) [6] Bezrodny �. �. Systematic cause and effect approach to the control of oil products supply enterprises plants. Saarbrucken: LAP LAMBERT Academic Publishing LAP; 2017. 328 p. (In Russ.) [7] Bezrodny �. �., Yunushev R. R., Korolyonok �. �. System analysis and efficient structure formation for gas station nets. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2020;10(1):96�105. (In Russ.)

Pages

Article name, authors, abstract and keyword

642-653

Traceability system formation in petroleum supply

Alexey �. Bezrodny ^{a, b}, Van Tszin ^c, Renat R. Yunushev ^c, Anatoly M. Korolenok ^c

^a LUKOIL Belorussia, FLLC, 36 Nemiga Str., Minsk, 220004, Belarus
^b Belarusian State University, 4 Prospect Nezavisimosti, Minsk, 220030, Belarus
^c Gubkin Russian State University of Oil and Gas (National Research University), 65 Leninsky Prospect, Moscow, 119991, Russian Federation

DOI: 10.28999/2541-9595-2020-10-6-642-653

Abstract: Nowadays so-called traceability systems that provide fixing of history, application, and location of a product during its life cycle are formed in many spheres. Large scale and territorial distribution of petroleum supply systems require some electronical sensor fields and the same for data receiving, processing, visualization, and situation identification. Example of this kind of systems is so called guaranteed petroleum product logistics automation control system that provides petroleum product preserve during tank truck deliverance from oil terminals to gas stations. In the sphere of petroleum supply also some technology development and successful in-Russia and abroad application experience tell us about possibility of express-determination of petroleum product quality characteristics by means of spectroscopy. This method provides increase of test speed of all of the samples possible or necessary and even take and investigate sample �in-flow� (physically in pipelines, logically by means of mobile laboratories, etc). Quality parameter magnitudes may be used by automation systems of various levels to increase control efficiency. The article deals with determination, analysis and synthesis of the traceability systems for quality control of petroleum product.

Keywords: control of gas station nets, gas station nets, petroleum supply, multi-fuel station, fuel supply, quality control of petroleum products.

For citation:
Bezrodny A. �., Tszin V., Yunushev R. R., Korolenok A. M. Traceability system formation in petroleum supply. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation.2020;10(6):642�653.

References:
[1] Bezrodny A. A., Yunushev R. R., Korolyonok A. M. System cause-and-effect approach to structure development and control of gas station nets. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2019;9(2):218�226. (In Russ.)
[2] Rezchikov A. F. Automation control system structures for industrial energy companies: in 2 volumes. Saratov: Saratov University Publ.; 1983. (In Russ.)
[3] Tsvirkun �. D. Basics of complex systems synthesis. Moscow: Nauka Publ.; 1975. 432 p. (In Russ.)
[4] Bezrodny A. �., Tszin V., Korolyonok A. M. Goal setting, stability and petroleum supply structure development. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2019;9(1):99�105. (In Russ.)
[5] Bezrodny A. �., Tszin V., Korolenok A. M. Gas station control system structure improvement. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2019;9(6):710�717. (In Russ.)
[6] Bezrodny �. �. Systematic cause and effect approach to the control of oil products supply enterprises plants. Saarbrucken: LAP LAMBERT Academic Publishing LAP; 2017. 328 p. (In Russ.)
[7] Bezrodny �. �., Yunushev R. R., Korolyonok �. �. System analysis and efficient structure formation for gas station nets. Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov�Science & Technologies: Oil and Oil Products Pipeline Transportation. 2020;10(1):96�105. (In Russ.)