Mathematical model of the natural gas absorption technological process

In the paper, a mathematical model of the absorption technological process as an object of management is obtained. This model describes the process of natural gas absorption and is designed to control this process automatically. The model is based on the equations of material and thermal balances. The results of numerical simulation confirm the sensitivity of the process behavior to automatic regulation.

1. Musakaev N. G., Hasanov M. K. Matematicheskoe modelirovanie processa dobychi gaza iz gazogidratnoj zalezhi s uchjotom obrazovanija l'da [Mathematical modeling of the process of gas production from a gas hydrate deposit under the formation of ice]. Vestnik Tjum. gos. un-ta: Fizikomatematicheskie nauki. Informatika. 2014, no. 7, pp. 43-50.

2. Shiljaev M. I., Tolstyh A. V. Modelirovanie processov absorbcii gazov v barbotazhnyh apparatah [Simulation of gas absorption processes in bubbling apparatuses]. Teplofizika i ajeromehanika. 2013, no. 5, pp. 575-586.

3. Abramkin S. E., Dushin S. E. Upravlenie tehnologicheskimi processami gazodobyvaju-shhih kompleksov [Control of technological processes of gas production complexes]. Materialy IX VNK «Sistemnyj sintez i prikladnaja sinergetika» [Materials of the IX VNK "System synthesis and applied synergetics"], Nizhny Arkhyz village, September 24-27, 2019, pp. 430-439.

4. Abramkin S. E., Dushin S. E., Pervuhin D. A. Problemy razrabotki sistem upravlenija gazodobyvajushhimi kompleksami [Problems of development of control systems for gas production complexes]. Izvestija vuzov. Priborostroenie. 2019, vol. 62, no. 8, pp. 685-692.

5. Abramkin S. E., Dushin S. E., Serditov Ju. N. Issledovanie fizicheskih processov v rektifikacionnoj kolonne pri regeneracii dijetilenglikolja 5 [Study of physical processes in a distillation column during the regeneration of diethylene glycol]. Izvestija JuFU. Tehnicheskie nauki. 2018, no. 5, pp. 69-78.

6. Ismagilov R. N., Abramkin S. E., Dushin S. E. Sostojanie i perspektivy razvitija avtomatizacii ustanovok kompleksnoj podgotovki gaza na UNGKM [State and prospects for the development of automation of complex gas treatment units at the UNGCF]. Perspektivnye napravlenija razvitija Urengojskogo kompleksa: sb. nauch. tr. OOO «Gazprom dobycha Urengoj». Moscow: Nedra, 2018, pp. 271-281.

7. Bashkirceva N. Ju. Pererabotka prirodnyh gazov: nastojashhee i budushhee [Processing of natural gases: present and future]. Gazovaja promyshlennost'. 2013, no. 6, pp. 86-87.

8. Bodryj A. B. Innovacii v oblasti adsorbcionnoj osushki uglevodorodnyh gazov [Innovations in the field of adsorption drying of hydrocarbon gases]. Materialy XXVI Vserossijskogo mezhotraslevogo soveshhanija. OAO «NIPIgazpererabotka» [Materials of the XXVI All-Russian Intersectoral Conference. OJSC NIPIgazpererabotka], Krasnodar, 2013, pp. 54-56.

9. Borodin A. V. Dobycha uglevodorodnogo syr'ja i perspektivy intensifikacii perera-botki poputnogo neftjanogo gaza [Production of hydrocarbon raw materials and prospects for intensification of associated petroleum gas processing]. Neftepererabotka i neftehimija. Moscow: OJSC "CNIITENEFTEKHIM". 2011, no. 4, pp. 56-59.

10. Abramkin S. E., Dushin S. E. Matematicheskaja model' massoteploobmennyh processov tehnologicheskogo kompleksa absorbcionnoj osushki gaza [Mathematical model of mass and heat transfer processes of the technological complex for absorption gas dehydration]. Materialy VI nauchnoj konferencii «Upravlenie i informacionnye tehnologii» [Materials of the VI Scientific Conference "Management and Information Technologies"]. St.Peterburg: St.Petersburg Electrotechnical University "LETI", 2010, pp. 220-224.

11. Betlinskij V. Ju., Zhidkov M. A., Ovchinnikov V. P. Dvuhpotochnye reguliruemye vihrevye truby v promyshlennyh ustanovkah ochistki i osushki gazov [Double-flow adjustable vortex tubes in industrial gas cleaning and drying plants]. Gazovaja promyshlennost'. 2008, no. 1, pp. 72-75.

12. Balavin M. A. Matematicheskoe modelirovanie i optimizacija tehnologicheskih processov podgotovki gaza k transportu [Mathematical modeling and optimization of technological processes of gas preparation for transport]: avtoreferat dissertacii kand. tehn. nauk. Samara, 2000, 24 p.

13. Zhorov Ju. M. Modelirovanie fiziko-himicheskih processov neftepererabotki i neftehimii [Modeling of physical and chemical processes of oil refining and petrochemistry]. Moscow: Chemistry, 1978, 376 p.

14. Spravochnik himika [Chemist's Handbook]. P. B. Nikol'skij [i dr.]. 2-e izd., pererab. i dop. Leningrad: Chemistry, 1968, vol. 5, 976 p.

15. GOST 10136-2019. Mezhdunarodnyj standart. Dijetilenglikol'. Tehnicheskie uslovija [International standard. Diethylene glycol. Specifications.]. Introduced 2020-05-01. Moscow, 2019, 19 p.