Mə­qa­lə­də, tər­ki­bi­nin zən­gin­li­yi­nə bax­ma­ya­raq, qaz-kon­den­sat qa­rı­şıq­la­rı dis­pers sis­tem ki­mi qə­bul edi­lə­rək sis­te­min dis­pers­ləş­mə və kon­den­sa­si­ya pro­ses­lə­ri­nə flüi­din qrup kom­po­nenti, frak­si­ya tər­ki­bi və ma­ye-qaz nis­bə­ti­nin tə­si­ri təd­qiq edil­miş və qaz-kon­den­sat ya­taq­la­rı­nın is­tis­marı pro­se­sin­də bu amil­lə­rin  ma­hiy­yə­ti qiy­mət­lən­di­ril­miş­dir. Araş­dır­ma­lar za­ma­nı Azər­bay­ca­n və Ru­si­ya Fe­de­ra­si­ya­sı­nın müx­tə­lif qaz-­kon­den­sat ya­taq­la­rı­na məx­sus mə­dən mə­lu­mat­la­rı və çox­say­lı ter­mo­di­na­mi­ki təd­qi­qatların nə­ti­cə­lə­ri mü­qai­sə­li şə­kil­də təh­lil edil­miş­dir. Alın­mış nə­ti­cə­lər xü­su­si eks­pe­ri­men­tal təd­qi­qat­lar va­si­tə­si­lə da­vam et­di­ri­lə­rək, di­fe­ren­si­al kon­den­sa­si­ya za­ma­nı lay sis­te­min­də baş ve­rən bə­zi fi­zi­ki-ter­mo­di­na­mi­ki amil­lə­rin nə­zə­ri-təc­rü­bi əsas­la­rı ge­niş­lən­di­ril­miş­dir.

Açar söz­lər: ret­roq­rad kon­den­sa­si­ya, dis­pers sis­tem, frak­si­ya tər­ki­bi, bir­fa­za­li hal, kon­den­sat­ve­ri­mi

 

Abasov M.T., Abbasov Z.Y., Fataliyev V.M. et al. Applied issues of thermodynamics during oil and gas production. Nafta-Press. Baku, 2013, 212 p. (in Russian).

Abbasov Z.Y., Jalalov G.I.,  Feizullayev Kh.A., Fataliyev V.M. et al. Modelling of bottom-hole treatment of gas condensate well by “dry” gas at different stages of reservoir development. AOE, № 3, 2013, pp. 49-55 (in Russian).

Abbasov  Z.Y., Fataliyev V.M. The effect of gas-condensate reservoir depletion stages on gas injection and the importance of the aerosol state of fluids in this process. Journal of Natural Gas Sciences and Engineering, V. 31, 2016, pp. 779-790.

Abbasov Z.Y., Fataliyev V.M., Hamidov N.N. The solubility of gas components and its importance in gas-condensate reservoir development. Petroleum science and technology, V. 35, Iss.3, 2017, pp. 249-256.

Brusilovsky A.I. Phase transformations during oil and gas field development. Graal. Moscow, 2002, 575 p. (in Russian).

Fataliyev V.M. Gas solubility’s effect on phase transformations in gas-condensate systems. Scientific Light, № 4, 2017, pp. 90-94 (in Russian).

Ghiasi M., Shahdi A., Barati P., Arabloo M. Robust modeling approach for estimation of  compressibility factor in retrograde gas condensate systems. Ind. Eng. Chem. Res., V. 53, Iss. 32, 2014, pp. 12872-12887.

Gritsenko A.I., Ostrovskaya T.D., Yushkin V.V. Hydrocarbon condensates of naturals gas fields. Nedra. Moscow, 1983, 263 p. (in Russian).

Ibemere U., Mmata B., Onyekonwu M. Evaluating the relationship between natural gas hydrocarbon heavy-ends condensation and its hydrocarbon dew point HDP. SPE. Nigeria Annual International Conference and Exhibition, SPE.doi:10.2118/184345-MS, 2-5 August, Lagos, 2016, 7 p.

Indo K., Hsu K., Pop J. Estimation of fluid composition from downhole optical spectrometry. SPE Journal, Society of Petroleum Engineers, V. 20, Iss.6, 2015, pp. 1326-1338.

Kats D.L., Veri J.A., Yelenbaas  J.R., Kobayashi R., Cornell D., Poettman F.Kh. et al. Guidelines for production, transport and natural gas processing. Nedra. Moscow, 1965, 765 p. (in Russian).

Li G., Yao Y., Zhang R. Improved model for the prediction of liquid loading in gas wells. Journal of Natural Gas Science and Engineering, V. 32, 2016, pp. 198-204.

Ramazanova E.E., Ibishov B.G. Study of phase condition of gas-condensate oil systems to model processes of phase transitions to strata fluids. “Khazarneftgasyatag-2002”, Reports of research and practical conference. Baku, 2002, pp. 276-283 (in Russian).