Main pageFeedbackSite map–ůŮŮÍŤť
Search:
 

News Subscription
Your e-mail:
Modify subscription





Questionnaire










Full-fledged information and analytical status forecasting systems for gas pipelines



Kitayev S.V., Kuznetsova M.I. (Ufa State Oil Technical University (UGNTU), RF, Ufa), Kolotilov Yu.V. (Gubkin State Oil and Gas University)

E-mail: kolotilov_yury@mail.ru

This paper documents a full-fledged automatic dispatcher control system running gas transmission and delivery. It comprises a man-machine hierarchy covering the entire gas service area including data acquisition, conversion, transmission, and displaying information regarding current status and operation of target gas pipelines as well as generation of control inputs aimed to sustain reliable and economical gas transmission and target area service. Individual on-line SCADA systems are core elements of this hierarchy as they help gas dispatch centres to monitor and run gas transmission, analyse data inputs and events, and assess potential changes. This pipeline information flow covering both current status and expectations is set to ensure reliable gas dispatch operations.

References

 1. Seleznev V.E., Aleshin V.V., Pryalov S.N. Osnovy chislennogo modelirovaniya magistralínykh truboprovodov [Fundamentals of numerical modeling of main pipelines]. Moscow, KomKniga Publ., 2005. 496 p.
 2. Atavin A.A., Karasevich A.M., Sukharev M.G., et al. Truboprovodnye sistemy energetiki: modeli, prilozheniya, informatsionnye tekhnologii [Pipeline energy systems: Models, applications, information technology]. Moscow, Neftí i gaz Publ., 2000. 320 p.
 3. Galiullin Z.T. Razvitiye nauchnykh issledovaniy, tekhniki i tekhnologii v oblasti truboprovodnogo transporta gaza [The development of scientific research and technology in the gas pipeline transportation]. Moscow, Gazprom VNIIGAZ Publ., 2009. 208 p.
 4. Kolotilov Yu.V., Veliyulin I.I., Mitrokhin M.Yu., et al. Ekspertnaya sistema monitoringa lineynoy chasti magistralínykh gazoprovodov [Expert system for monitoring the linear portion of trunk pipelines]. Moscow, Izvestiya Publ., 2009. 445 p.
 5. Vashchev Yu.V., Vyshivanyi I.G., Kiselev V.K., et al. Diagnostika i monitoring tekhnicheskogo sostoyaniya gazoprovodov pri obespechenii nadezhnosti, ekologicheskoy bezopasnosti i upravlyayemosti transporta gaza [Diagnosis and monitoring of the technical state of gas pipelines, during ensuring reliability, environmental safety and controllability of gas transportation]. N. Novgorod, NNGU Publ., 2007. 204 p.
 6. Grigoríyev L.I., Kershenbaum V.Ya., Kostogryzov A.I. Sistemnye osnovy upravleniya konkurentosposobnostíyu v neftegazovom komplekse [System bases of management of competitiveness in the oil and gas industry]. Moscow, NING Publ., 2010. 374 p.
 7. Kitayev S.V. Nauchno-prakticheskiye osnovy obespecheniya energeticheskoy effektivnosti magistralínogo transporta gaza. Diss. dokt. tekhn. nauk [Scientific and practical foundations for ensuring energy efficiency of pipeline transmission of gas. Doct. Diss.]. Ufa, UGNTU Publ., 2011. 291 p.
 8. Pankratov B.C., Gerke V.G., Sardanashvili S.A., et al. Kompleks modelirovaniya i optimizatsii rezhimov raboty GTS [The complex of modeling and optimization of operating modes of the GTS]. Moscow, IRTs Gazprom Publ., 2002. 56 p.
 9. Sardanashvili S.A. Metody i algoritmy (truboprovodnyi transport gaza) [Methods and algorithms (pipeline transmission of gas)]. Moscow, Neftí i gaz Publ., 2005. 577 p.
 10. Pankratov V.S., Azhikin V.A., Stepanyan A.A. ASDU transportom gaza [ADCS of gas transport]. Moscow, Ekon-inform Publ., 2014. 661 p.
 11. Kholítsnagelí B., Sannikova L.V. Energeticheskoye pravo i energoeffektivností v Germanii i Rossii [Energy Law and Energy Efficiency in Germany and in Russia]. Moscow, Infotropik Media Publ., 2013. 216 p.
 12. Tsybulínik V.N., Kutyrev A.L. Programmno-vychislitelínyi kompleks matematicheskogo modelirovaniya protsessov transporta gaza ęAstragazĽ [Astra-Gaz: gas transmission model and software]. Gazovaya Promyshlenností Ė Gas Industry, 2013, no. 8, pp. 17Ė19.
 13. Semikin V.Yu. Modelirovaniye pokazateley energoeffektivnosti gazoperekachivayushchikh agregatov na osnove dannykh ot informatsionno-upravlyayushchey sistemy [Simulation of energy efficiency indicators of gas compressor units on data from the information management system]. Avtomatizatsiya v promyshlennosti, 2006, no. 12, pp. 13Ė15.
 14. Mokhort I.A., Semikin V.Yu. Razvitiye informatsionnoupravlyayushchey sistemy gazotransportnogo predpriyatiya [Information management developments: a gas transmission focus]. Gazovaya Promyshlenností Ė Gas Industry, 2007, no. 11, pp. 33Ė35.



Back to the section