Heatmasstransfer to nearsurface geothermal systems
About authors
- 1 — Ph.D., Dr.Sci. professor Saint Petersburg State Mining Institute (Technical University)
- 2 — Ph.D. associate professor Saint Petersburg State Mining Institute (Technical University)
- 3 — Ph.D. associate professor Saint Petersburg State Mining Institute (Technical University)
Abstract
The paper is concerned with mathematical modeling of heat and mass transfer in subsurface geothermal systems. Heat exchanger is driven as a vertical channel in an impermeable rock massive. The temperature of rock is driven in accord with a usual thermal conductance equation on a cylinder coordinates basis. The boundary conditions between the rock and heat exchanger are given by the equality of a thermal flow.
Область исследования:
(Archived) Applied and fundamental research in physics and mathematics
Keywords:
heatmasstransfer
nearsurface geothermal systems
impermeable rock massive
numerical modeling
Funding:
None
References
- Boguslavskii E.I., Smyslov A.A., Hahaev B.N. Estimation and prospects of thermal development of nearsurface (up to 200-300 m depth) geothermal resources of Russia // Industrial heating devices problems. Kiev, 2007.
- Dyad’kin Yu.D., Gendler S.G., Smirnova N.N. Geothermal thermophysics. Saint Petersberg, 1993.
- LitvinenkoV.S., Boguslavskii E.I. Geothermal resources of Russia, technology and economics of development // Geofond-2003: International meeting. Moscow, 2003.
- Lykov A.V. Heat transfer theory. Moscow, 1967.
- Ortega J., Pul U. Introduction in numerical methods applied to differential equation. Moscow, 1986.
- Smirnova N.N. Nonstationary heat transfer under filtration in geterogeneous media. Novosibirsk, 1990.
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