Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier

Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier

In the call OPVaV-2008/2.2/01-SORO Operational Programme Research and Development - knowledge and technology transfer from research and development into practice (ITMS-26220220057), whose strategic goal is "Device to use low-potential geothermal heat without forced circulation of heat carrier d...

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Main Authors: Lenhard Richard, Jakubský Michal, Vantúch Martin, Malcho Milan
Format: Article
Language:English
Published: EDP Sciences 2012-04-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20122501030
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spelling doaj-774140501aad4a378bfde3d933e947302021-08-02T09:18:43ZengEDP SciencesEPJ Web of Conferences2100-014X2012-04-01250103010.1051/epjconf/20122501030Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrierLenhard RichardJakubský MichalVantúch MartinMalcho MilanIn the call OPVaV-2008/2.2/01-SORO Operational Programme Research and Development - knowledge and technology transfer from research and development into practice (ITMS-26220220057), whose strategic goal is "Device to use low-potential geothermal heat without forced circulation of heat carrier deep in the well "in the Department of Energy laboratory techniques to construct a simulator of transport low potential of geothermal energy in comparative test-drilling in the laboratory. The article describes a device that was designed as a scale model of two deep boreholes each of which withdraws the earth's heat by heat transfer technology and heat carrier. Device using forced circulation of heat carrier will respond in the construction of equipment currently used to transport heat from deep borehole. As the heat carrier will be used CO2. Facilities without using forced circulation of heat carrier, the new technology, which will be used as heat carrier ammonia (NH3).http://dx.doi.org/10.1051/epjconf/20122501030
collection DOAJ
language English
format Article
sources DOAJ
author Lenhard Richard
Jakubský Michal
Vantúch Martin
Malcho Milan
spellingShingle Lenhard Richard
Jakubský Michal
Vantúch Martin
Malcho Milan
Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier
EPJ Web of Conferences
author_facet Lenhard Richard
Jakubský Michal
Vantúch Martin
Malcho Milan
author_sort Lenhard Richard
title Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier
title_short Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier
title_full Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier
title_fullStr Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier
title_full_unstemmed Borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier
title_sort borehole model for simulation transport geothermal heat with heat pipe system and with forced circulation of heat carrier
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2012-04-01
description In the call OPVaV-2008/2.2/01-SORO Operational Programme Research and Development - knowledge and technology transfer from research and development into practice (ITMS-26220220057), whose strategic goal is "Device to use low-potential geothermal heat without forced circulation of heat carrier deep in the well "in the Department of Energy laboratory techniques to construct a simulator of transport low potential of geothermal energy in comparative test-drilling in the laboratory. The article describes a device that was designed as a scale model of two deep boreholes each of which withdraws the earth's heat by heat transfer technology and heat carrier. Device using forced circulation of heat carrier will respond in the construction of equipment currently used to transport heat from deep borehole. As the heat carrier will be used CO2. Facilities without using forced circulation of heat carrier, the new technology, which will be used as heat carrier ammonia (NH3).
url http://dx.doi.org/10.1051/epjconf/20122501030
work_keys_str_mv AT lenhardrichard boreholemodelforsimulationtransportgeothermalheatwithheatpipesystemandwithforcedcirculationofheatcarrier
AT jakubskymichal boreholemodelforsimulationtransportgeothermalheatwithheatpipesystemandwithforcedcirculationofheatcarrier
AT vantuchmartin boreholemodelforsimulationtransportgeothermalheatwithheatpipesystemandwithforcedcirculationofheatcarrier
AT malchomilan boreholemodelforsimulationtransportgeothermalheatwithheatpipesystemandwithforcedcirculationofheatcarrier
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