SOME SPECIFIC FEATURES OF THE DEVELOPMENT OF HIGH-VISCOSITY OILS MIRSHODI FIELD

The critical analysis of the theoretical and technological foundations
of traditional thermal methods made it possible to identify the prerequisites for
increasing oil production in high-viscosity oil fields, in particular in Mirshodi field,
which contributed to the development of new theories and innovative technologies for
their implementation.

Name of journalTechnical science and innovation
Number of edition2022,№1(11)
View count56

Web Address

DOI

Date of creation in the UzSCI system06-09-2022

Read count56

Date of publication30-06-2022

Main LanguageIngliz

Pages128-132

Tags

development

processing

geology

exploitation

location of field

English

The critical analysis of the theoretical and technological foundations
of traditional thermal methods made it possible to identify the prerequisites for
increasing oil production in high-viscosity oil fields, in particular in Mirshodi field,
which contributed to the development of new theories and innovative technologies for
their implementation.

Tags

development

processing

geology

exploitation

location of field

№ Author name position Name of organisation

1 Akhmedova N.A. teacher TSTU

2 Khodjiyev B.I. teacher TSTU

3 Fakhriddinov S.. teacher TSTU

№ Name of reference

1 A.K. Agzamov, A.K. Karshiev. Assessment of the possibility of reintroduction into development of long-term preserved fields with high-viscosity oil. “Oilfield Engineering”. -2016. 8

2 A.K. Agzamov, O.G. Khayitov, A.K. Karshiev. On the degree of influence of the rate of fluid extraction on the rate of net oil extraction at different stages of development of deposits represented by carbonate reservoirs. “Journal of mining”. 2016. 36

3 B.G. Azimov. Electric arc unit of water transformation into high-temperature steam - the basis for increasing the degree of oil and gas fields' recovery // State Republic scientific-practical conference mater. set. Modern technologies in the commissioning and operation of oil and gas fields. “Karshi engineering and economics Institute”. 2017. 242

4 B.G. Azimov, N.U. Botirova, N.A. Akhmedova. Improvement of technologies to improve oil recovery by electric arc unit of water transformation into hightemperature steam State Republic scientific-practical conference mater. set. Modern technologies in the commissioning and operation of oil and gas fields. “Karshi engineering and economics Institute”. 2017. 238

5 B.G. Azimov, H.S. Isakhodjaev, B.H. Yunusov, F.F. Fattoev. Technology of synthesis gas and gasoline methanol substitute production. International scientific practical conference "Innovation-2017". Collection of articles. “Publishing center”. 2017. 86

6 B.G. Azimov, I.H. Khalismatov, R.T. Zakirov, N.U. Botirova, N.A. Akhmedova. Innovative technology of synthesis-gas production and gasoline-methanol substitute. XVII International Scientific and Practical Conference "Russian science in the modern world". “Scientific-publishing center”. 2018. 60

7 V.I. Yampolsky, N.I. Belokon, B.N. Piliposyan. “Control and diagnostics civil aviation technology”. 1990. 182

8 M.M. Maslennikov, Y.N. Salman. Aircraft gas turbine engines. “Mechanical engineering”. 1975. 576

9 A.I. Sosunova. Failures and malfunctions of turbojet engines in operation. “Military Publishing House”. 1964. 368

10 P.P. Parhomenko, E.S. Sogomomnyan. Fundamentals of technical diagnostics. Book 1. “Models of objects, methods and algorithms of diagnosis”. 1976. 464

11 A.I. Evdokimov, S.M. Novicky, V.A. Popov. Characteristics of foreign objects that appear on the airfield cover in the process of operation. “Scientific and methodological materials on the design and control systems of gas turbine engines”. 1995

12 V.E. Rosenfeld, I.P. Isaev, N.N. Sidorov. Electric traction. “Trans Holder Publishing”. 1962

13 M.R. Barsky, I.N. Serdinova. Experimental study of the processes of skidding and skidding of electric locomotives. "Problems of improving the efficiency of transport". “Publishing house of the USSR academy of sciences”. 1953

14 A.N. Fedyaeva, S.Y. Matyushkov, G.V. Rogovtsev, A.N. Tarasov. Traction electric drive control at the limit of wheel-rail adhesion and suppression of frictional auto-oscillations. “Publishing house of VNU”. 2011. 31

15 P.P. Parhomenko, E.S. Sogomomnyan. Fundamentals of technical diagnostics. Book 1. “Models of objects, methods and algorithms of diagnosis”. 1976. 464

16 J.R. Camargo, C.D. Ebinuma, S.S. Cardoso. Mathematical Model of Direct Evaporative Cooling Air Conditioner. “International journal of heat and technology”. 2012. 25

17 G.Q. Qiu, S.B. Riffat. Novel design and modelling of an evaporative cooling system for buildings. “International journal of energy research”. 2006. 985

18 K.A. Al-Saud, N.A. Al-Hemiddi. The effectiveness of natural evaporative cooling in improving internal thermal environment in hot-dry regions. “International journal of ambient energy”. 2003. 83

19 V.D. Lysenko. Thermal method of development of a high-viscosity oil deposit by injecting a heat carrier - hot water into the oil reservoirs. “Oilfield engineering”. 2008. 10

Waiting

№	Author name	position	Name of organisation
1	Akhmedova N.A.	teacher	TSTU
2	Khodjiyev B.I.	teacher	TSTU
3	Fakhriddinov S..	teacher	TSTU

№	Name of reference
1	A.K. Agzamov, A.K. Karshiev. Assessment of the possibility of reintroduction into development of long-term preserved fields with high-viscosity oil. “Oilfield Engineering”. -2016. 8
2	A.K. Agzamov, O.G. Khayitov, A.K. Karshiev. On the degree of influence of the rate of fluid extraction on the rate of net oil extraction at different stages of development of deposits represented by carbonate reservoirs. “Journal of mining”. 2016. 36
3	B.G. Azimov. Electric arc unit of water transformation into high-temperature steam - the basis for increasing the degree of oil and gas fields' recovery // State Republic scientific-practical conference mater. set. Modern technologies in the commissioning and operation of oil and gas fields. “Karshi engineering and economics Institute”. 2017. 242
4	B.G. Azimov, N.U. Botirova, N.A. Akhmedova. Improvement of technologies to improve oil recovery by electric arc unit of water transformation into hightemperature steam State Republic scientific-practical conference mater. set. Modern technologies in the commissioning and operation of oil and gas fields. “Karshi engineering and economics Institute”. 2017. 238
5	B.G. Azimov, H.S. Isakhodjaev, B.H. Yunusov, F.F. Fattoev. Technology of synthesis gas and gasoline methanol substitute production. International scientific practical conference "Innovation-2017". Collection of articles. “Publishing center”. 2017. 86
6	B.G. Azimov, I.H. Khalismatov, R.T. Zakirov, N.U. Botirova, N.A. Akhmedova. Innovative technology of synthesis-gas production and gasoline-methanol substitute. XVII International Scientific and Practical Conference "Russian science in the modern world". “Scientific-publishing center”. 2018. 60
7	V.I. Yampolsky, N.I. Belokon, B.N. Piliposyan. “Control and diagnostics civil aviation technology”. 1990. 182
8	M.M. Maslennikov, Y.N. Salman. Aircraft gas turbine engines. “Mechanical engineering”. 1975. 576
9	A.I. Sosunova. Failures and malfunctions of turbojet engines in operation. “Military Publishing House”. 1964. 368
10	P.P. Parhomenko, E.S. Sogomomnyan. Fundamentals of technical diagnostics. Book 1. “Models of objects, methods and algorithms of diagnosis”. 1976. 464
11	A.I. Evdokimov, S.M. Novicky, V.A. Popov. Characteristics of foreign objects that appear on the airfield cover in the process of operation. “Scientific and methodological materials on the design and control systems of gas turbine engines”. 1995
12	V.E. Rosenfeld, I.P. Isaev, N.N. Sidorov. Electric traction. “Trans Holder Publishing”. 1962
13	M.R. Barsky, I.N. Serdinova. Experimental study of the processes of skidding and skidding of electric locomotives. "Problems of improving the efficiency of transport". “Publishing house of the USSR academy of sciences”. 1953
14	A.N. Fedyaeva, S.Y. Matyushkov, G.V. Rogovtsev, A.N. Tarasov. Traction electric drive control at the limit of wheel-rail adhesion and suppression of frictional auto-oscillations. “Publishing house of VNU”. 2011. 31
15	P.P. Parhomenko, E.S. Sogomomnyan. Fundamentals of technical diagnostics. Book 1. “Models of objects, methods and algorithms of diagnosis”. 1976. 464
16	J.R. Camargo, C.D. Ebinuma, S.S. Cardoso. Mathematical Model of Direct Evaporative Cooling Air Conditioner. “International journal of heat and technology”. 2012. 25
17	G.Q. Qiu, S.B. Riffat. Novel design and modelling of an evaporative cooling system for buildings. “International journal of energy research”. 2006. 985
18	K.A. Al-Saud, N.A. Al-Hemiddi. The effectiveness of natural evaporative cooling in improving internal thermal environment in hot-dry regions. “International journal of ambient energy”. 2003. 83
19	V.D. Lysenko. Thermal method of development of a high-viscosity oil deposit by injecting a heat carrier - hot water into the oil reservoirs. “Oilfield engineering”. 2008. 10