OOO NPO Fundamentstroyarkos

Tyumen, Russia

OOO NPO Fundamentstroyarkos

Tyumen, Russia
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Dolgich G.M.,OOO NPO Fundamentstroyarkos | Okunev S.N.,OOO NPO Fundamentstroyarkos | Anikin G.V.,Russian Academy of Sciences | Spasennikova K.A.,Russian Academy of Sciences | Zalesskiy K.V.,ZAO Vankorneft
Earth's Cryosphere | Year: 2014

The numerical modelling of the work of "GET" system (horizontal system of soil temperature stabilization) has been accomplished on the example of the Fire depot building constructed on the Vankorsky oil-and-gas field. The results of modelling coincide with the data of thermometric monitoring, which confirms the overall efficiency of "GET" systems.


Dolgich G.M.,OOO NPO Fundamentstroyarkos | Anikin G.V.,Russian Academy of Sciences | Rilo I.P.,OOO NPO Fundamentstroyarkos | Spasennikova K.A.,Russian Academy of Sciences
Earth's Cryosphere | Year: 2015

The state of soils under the tank with oil has been calculated. The tank located at the Vankor oil field is cooled by "GET" systems (horizontal system of soil temperature stabilization) produced by OOO NPO "Fundamentstroyarkos". Considered are 48 scenarios for two years, each of which is generated by the Monte-Carlo method based on the distributions of meteorological parameters obtained by averaging of the archive data of the Igarka weather station. It has been demonstrated that the variation in the ground temperature is significant for a variety of options. Thus the conventional univariant forecast becomes doubtful. In this regard a method of stochastic forecasting, which allows identifying the worst-case scenario, is suggested to be used. This scenario must be considered in the design. In addition, the work of "GET" systems is simulated and their properties are investigated.


Dolgich G.M.,OOO NPO Fundamentstroyarkos | Okunev S.N.,OOO NPO Fundamentstroyarkos | Anikin G.V.,Russian Academy of Sciences | Spasennikova K.A.,Russian Academy of Sciences
Earth's Cryosphere | Year: 2013

The numerical calculation of unsteady temperature fields has been presented. The dynamics of work of the system with horizontal cooling of oil reservoir has been considered. The calculation was performed using the supercomputer NKS-30T in the Siberian Supercomputer Center (program "Termopole 3D"). Also the calculated and theoretical data were compared. The comparison has demonstrated that the calculated data and thermometric monitoring are in good agreement.

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