Application of a Convective-Conductive Heat Transfer Model in the Heat Loss Analysis of a Heat Pipeline Under Flooding Conditions
| Parent link: | European Physical Journal Web of Conferences (EPJ Web of Conferences) Vol. 110 : Thermophysical Basis of Energy Technologies.— 2016.— [01064, 4 p.] |
|---|---|
| 1. autor: | |
| Korporacja: | |
| Kolejni autorzy: | |
| Streszczenie: | Title screen This paper describes the numerical modeling of a convective-conductive heat transfer the area placing of a heat pipeline under flooding conditions. We have established that the heat loss of a heat pipeline under flooding conditions increases in the range from 1.5 to 64.3%, depending on the volume fraction of water in the insulation structure. |
| Język: | angielski |
| Wydane: |
2016
|
| Hasła przedmiotowe: | |
| Dostęp online: | http://dx.doi.org/10.1051/epjconf/201611001064 http://earchive.tpu.ru/handle/11683/33398 |
| Format: | Elektroniczne Rozdział |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=647724 |
Podobne zapisy
Numerical Investigation of the Thermal Regime of Underground Channel Heat Pipelines Under Flooding Conditions with the Use of a Conductive-Convective Heat Transfer Model
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2018)
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2018)
Heat loss of heat pipelines in insulation moisture conditions with the evaporation
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2014)
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2014)
Numerical analysis of a heat loss of channel-free heat pipeline in the real application conditions
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2015)
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2015)
Numerical analysis of an engineering structure effect on a heat loss of channel free heat pipeline
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2015)
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2015)
Heat and mass transfer in a wetted thermal insulation of hot water pipes operating under flooding conditions
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2014)
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2014)
Numerical analysis of the heat loss of stop valves of heat networks
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2017)
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2017)
Convective heat transfer in droplets of fuel microemulsions during conductive heating
Wydane: (2021)
Wydane: (2021)
Conjugate Heat Transfer in a Closed Volume with the Local Heat Sources and Non-Uniform Heat Dissipation on the Boundaries of Heat Conducting Walls
od: Maksimov V. I. Vyacheslav Ivanovich
Wydane: (2016)
od: Maksimov V. I. Vyacheslav Ivanovich
Wydane: (2016)
Simulating a convectional heat transfer in buildings with radiant gas heating
od: Ermolaev A. N. Anton
Wydane: (Les Ulis, EDP Sciences, 2018)
od: Ermolaev A. N. Anton
Wydane: (Les Ulis, EDP Sciences, 2018)
Convective heat transfer in a lid-driven cavity with a heat-conducting solid backward step under the effect of buoyancy force
Wydane: (2017)
Wydane: (2017)
Convective heat transfer of micropolar fluid in a horizontal wavy channel under the local heating
Wydane: (2017)
Wydane: (2017)
Mathematical modeling of radiant heating of a closed rectangular area under conditions of convective heat transfer at the external boundaries
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2015)
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2015)
Heat and Mass Transfer in a Local Enclosed Operating Zone Under Radiant Heating Conditions
Wydane: (2024)
Wydane: (2024)
Heat Conduction
od: Hahn D. W. David
Wydane: (Hoboken, John Wiley & Sons, Inc., 2012)
od: Hahn D. W. David
Wydane: (Hoboken, John Wiley & Sons, Inc., 2012)
Conjugate Problems in Convective Heat Transfer
od: Dorfman A. S. Abram
Wydane: (New York, Taylor & Francis, 2010)
od: Dorfman A. S. Abram
Wydane: (New York, Taylor & Francis, 2010)
Convective heat transfer of ferrofluid in a lid-driven cavity with a heat-conducting solid backward step under the effect of a variable magnetic field
Wydane: (2017)
Wydane: (2017)
Heat and Mass Transfer in Wet Fibroporous Material Considering Moisture Evaporation
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2015)
od: Polovnikov V. Yu. Vyacheslav Yurievich
Wydane: (2015)
Hybrid Lattice Boltzmann Scheme for Conductive-convective-radiative Heat Transfer
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2025)
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2025)
About the possible options for models of convective heat transfer in closed volumes with local heating source
od: Maksimov V. I. Vyacheslav Ivanovich
Wydane: (2015)
od: Maksimov V. I. Vyacheslav Ivanovich
Wydane: (2015)
Determination of the critical conditions of heat transfer in a LED
od: Rudenko O. M. Oleg Maksimovich
Wydane: (2015)
od: Rudenko O. M. Oleg Maksimovich
Wydane: (2015)
Heat Transfer
od: Holman J. P.
Wydane: (Boston, McGraw-Hill, 2010)
od: Holman J. P.
Wydane: (Boston, McGraw-Hill, 2010)
Analysis of Influence of Heat Transfer Conditions on the Upper Cover to Heat Transfer in Thermosyphon
od: Krasnoshlykov A. S. Aleksandr Sergeevich
Wydane: (2016)
od: Krasnoshlykov A. S. Aleksandr Sergeevich
Wydane: (2016)
Dynamic and kinematic characteristics of unsteady motion of a water-in-oil emulsion droplet in collision with a solid heated wall under conditions of convective heat transfer
Wydane: (2022)
Wydane: (2022)
MHD convective heat transfer in a discretely heated square cavity with conductive inner block using two-phase nanofluid model
Wydane: (2018)
Wydane: (2018)
The behavior of heat transfer and entropy in a thin layer of liquid under laser heating
Wydane: (2023)
Wydane: (2023)
Verification of Conjugate Heat Transfer Models in a Closed Volume with Radiative Heat Source
od: Maksimov V. I. Vyacheslav Ivanovich
Wydane: (2016)
od: Maksimov V. I. Vyacheslav Ivanovich
Wydane: (2016)
Advances in Two-Phase Flow and Heat Trasfer
od: Kakac S.
Wydane: (Boston, Martinus Nijhoff Publishers, 1983)
od: Kakac S.
Wydane: (Boston, Martinus Nijhoff Publishers, 1983)
Convective Heat Transfer in a Vertical Rectangular Duct Filled with a Nanofluid
od: Umavathi J. C.
Wydane: (2016)
od: Umavathi J. C.
Wydane: (2016)
Ignition conditions and characteristics for distillant fuel under to local conductive heating
od: Zakharevich A. V. Arkadiy Vladimirovich
Wydane: (2017)
od: Zakharevich A. V. Arkadiy Vladimirovich
Wydane: (2017)
Thermal conditions of a heat supply object with local heat supply to the working zone from a gas infrared emitter under mixed convection conditions
Wydane: (2021)
Wydane: (2021)
Modeling of radiative - conductive heat transfer in compositing materials
Wydane: (2017)
Wydane: (2017)
Heat Transfer in the Filtration Conditions in Heterogeneous Building Envelopes
od: Shalagin I. Yu. Igor
Wydane: (2015)
od: Shalagin I. Yu. Igor
Wydane: (2015)
Heat transfer under heating of a local region of a large production area by gas infrared radiators
Wydane: (2013)
Wydane: (2013)
Forming the Convective Flows and a Cluster of Particles under Spot Heating
Wydane: (2021)
Wydane: (2021)
Numerical Analysis of Three-Dimensional Natural Convection in a Closed Rectangular Cavity Under Conditions of Radiant Heating and Conjugate Heat Exchange
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2017)
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2017)
Research of heat and mass transfer processes in conditions of microwave heating of wet wood
Wydane: (2017)
Wydane: (2017)
Experimental Determination of Heat Transfer Coefficient Under Free Convection in an Unbounded Space
od: Timoshenko E. Evgenya
Wydane: (2016)
od: Timoshenko E. Evgenya
Wydane: (2016)
Numerical investigation of conjugate heat transfer in a local working area in conditions of its radiant heating
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2014)
od: Nee A. E. Aleksandr Eduardovich
Wydane: (2014)
Computational Heat Transfer
od: Jaluria Yo. Yogesh
Wydane: (New York, Taylor & Francis, 2003)
od: Jaluria Yo. Yogesh
Wydane: (New York, Taylor & Francis, 2003)
Engineering Heat Transfer
od: Annaratone D. Donatello
Wydane: (London, Springer, 2010)
od: Annaratone D. Donatello
Wydane: (London, Springer, 2010)