Modeling of the modes of natural gas transportation by main gas pipelines in the conditions of underloading

Authors

  • О. B. Vasyliv Odessa National Academy of Food Technologies, 112, Kanatna Street, city of Odessa, Ukraine, 65039
  • О. S. Titlov Odessa National Academy of Food Technologies, 112, Kanatna Street, city of Odessa, Ukraine, 65039
  • Т. А. Sagala Odessa National Academy of Food Technologies, 112, Kanatna Street, city of Odessa, Ukraine, 65039

DOI:

https://doi.org/10.31471/1993-9868-2019-2(32)-35-42

Keywords:

gas transportation system, underloading, energy consumption, operating mode, optimization, MATLAB.

Abstract

The current state of transit of natural gas through the Ukrainian gas transmission system (GTS) is estimated in the paper. The prerequisites for further reduction of the GTS load in the coming years are considered, in particular in the direction of Europe through the gas measuring station "Orlivka" (south direction), taking into account the construction of alternative bypass gas pipelines. On the basis of the review of literature sources on the problem of efficient operation of gas pipelines under conditions of underloading, a method for determining the capacity and energy consumption of the gas pipeline for a given combination of working gas pumping units (GPU) was developed. The Ananyev-Tiraspol-Izmail gas pipeline at Tarutino-Orlivka section was selected as the object of research. The methodology includes the calculation of the physical properties of gas by its composition, the calculation of gas compression, the calculation of the linear part, the gas flow to the compressor station's own needs, and the calculation of the total power of the gas-pumping units under the specified technological limitations. With the help of the original software developed in the MATLAB programming language, cyclical multivariate calculations of the capacity and energy consumption of the gas pipeline were carried out and the operating modes of the compressor shop were optimized in the load range from 23 ... 60 million m3/day. Optimization criterion is the minimum total capacity of the GPU. Variable parameters at the same time are the speeds of the superchargers, different combination of working GPU, load factor. According to the results of the optimization graphical dependences were constructed: the optimum frequency of the rotor of the supercharger on the performance of the pipeline; changes in power and pressure depending on the performance of the pipeline when operating a different combination of superchargers. Recommendations have been developed to minimize fuel gas costs at the compressor station.

Downloads

Download data is not yet available.

References

MShU "Skolkovo": ODIN GOD DO ChASA «Ch»: v poiskah kompromissa po ukrainskomu gazovomu tranzitu – Dekabr 2018 // Https://nangs.org: Natsionalnaya Assotsiatsiya neftega-zovogo servisa: [Veb-sayt]. g. Hantyi-Mansiysk, 2018. URL: https://nangs.org/analytics/mshu-skolkovo-odin-god-do-chasa-ch-v-poiskakh-kompromissa-po-ukrainskomu-gazovomu-tranzitu-dekabr-2018-pdf

Seredyuk M. D., Ganzha M. Ye. Vybir energoefektyvnykh rezhymiv ekspluataciyi magistralnykh gazoprovodiv za yix nepovnogo zavantazhennya. Naukovyj visnyk Ivano-Frankivs`kogo nacional`nogo tekhnichnogo universytetu nafty i gazu. 2017. No 1. P. 67-72. – URL: http://nbuv.gov.ua/UJRN/Nvif_2017_1_9

Mykhalkiv V.B. Doslidzhennya rezhymiv roboty skladnoyi systemy gazoprovodiv u razi yiyi nedovantazhennya. Naftogazova galuz Ukraaluz Ukrayiny. Kyiv, 201Р. 26–29.

Mykhalkiv V. B. Optymalnyj rozpodil vytraty gazu mizh gazoperekachuvalnymy agregatamy kompresornykh stancij. Mizhnarodnyj naukovyj zhurnal "Internauka". 2017. No 8. P. 54-55. – URL: http://nbuv.gov.ua/UJRN/mnj_2017_8_14.

Obschesoyuznyie normyi tehnologiches-kogo proektirovaniya. Magistralnyie truboprovody. Chast 1. Gazoprovodyi : ONTP 51-1-85. [Vveden 1986-01-01]. M.: Mingazprom. 221 p.

Lurie M.V. Modeling of Oil Product and Gas Pipeline Transportation. WILLEY-VCH Verlag GmBH&Co, 2008. 214 p.

Mashyny i oborudovanie gazonefte-provodov [Tekst] = Machines and equipment of oil and gas pipelines : uchebnik / F.M. Mustafin i dr.; izd. 3-e, pererab. i dop. (Sooruzhenie truboprovodov). Ufa : GOFR, 2009. 576 p.

Seleznev V.E., Aleshin V.V., Pryalov S.N. Osnovyi chislennogo modelirovaniya magist-ralnyih truboprovodov / Pod red. V.E. Selezneva. Izd. 2-e, pererab. i dop. M.: MAKS Press, 2009. 436 p.

Dyakonov V. P. MATLAB. Polnyiy samouchitel. M.: DMK Press, 2012. 768 p.: il.

Gladun S. V. Modelyuvannya ta rozrakhunok optymalnykh parametriv roboty pidzemnogo skhovyshcha gazu v systemi magistralnykh truboprovodiv : dysertaciya na zdobuttya naukovogo stupenya kandydata tekhnichnykh nauk : 01.05.02 – matematychne modelyuvannya ta obchyslyuvalni metody / Sergij Valentynovych Gladun ; Nacionalna akademiya nauk Ukrayiny, Centr matematychnogo modelyuvannya Instytutu prykladnykh problem mekhaniky i matematyky im. Ya.S.Pidstrygacha. Lviv, 2017. 157 p.

Truboprovodnyiy transport gaza [Tekst] / otv. red. chl.-kor. AN SSSR N.S. Nametkin], AN SSSR. In-t neftehim. sinteza im. A.V. Topchieva ; S.A. Bobrovskiy, S.G. Scherbakov, E.I. Yakovlev i dr. M. : Nauka, 1976. 495 p. : il.

Published

31.08.2020

How to Cite

Vasyliv О. B. ., Titlov О. S., & Sagala Т. А. (2020). Modeling of the modes of natural gas transportation by main gas pipelines in the conditions of underloading. Oil and Gas Power Engineering, (2(32), 35–42. https://doi.org/10.31471/1993-9868-2019-2(32)-35-42

Issue

Section

SCIENTIFIC AND TECHNICAL PROBLEMS OF PETROLEUM ENGINEERING

Similar Articles

<< < 18 19 20 21 22 23 24 25 26 27 > >> 

You may also start an advanced similarity search for this article.