Details
Title
CFD simulations of heat transfer in internally helically ribbed tubesJournal title
Chemical and Process EngineeringYearbook
2016Volume
vol. 37Issue
No 2 JuneAuthors
Keywords
heat transfer coefficient ; helically internally ribbed tubes ; power boilersDivisions of PAS
Nauki TechniczneCoverage
251-260Publisher
Polish Academy of Sciences Committee of Chemical and Process EngineeringDate
2016Type
Artykuły / ArticlesIdentifier
DOI: 10.1515/cpe-2016-0020 ; ISSN 2300-1925 (Chemical and Process Engineering)Source
Chemical and Process Engineering; 2016; vol. 37; No 2 June; 251-260References
Dzierwa (2014), Optimum heating of thick wall pressure components of steam boilers United States Paper No POWER, ASME Power Conference POWER, 28, doi.org/10.1115/2014-32080 ; Ansys (null), ( www com ), ansys. ; Wacławiak (2014), Influence of selected parameters on ash particle trajectories when modelling deposition on superheater tubes in pulverised coal boilers using Fluent code, Chem Process Eng, 35, doi.org/10.2478/cpe-2014-0023 ; Grądziel (2011), Determination of temperature and thermal stresses distribution in power boiler elements with use inverse heat conduction method, Arch Thermodyn, 32, 191, doi.org/10.2478/v10173-011-0022-4 ; Pan (2011), Experimental investigation on heat transfer characteristics of low mass flux rifled tube with upward flow Transfer, Int J Heat Mass, 54, doi.org/10.1016/j.ijheatmasstransfer.2011.03.002 ; Majewski (2013), Concept of a measurement and test station for determining linear pressure drop and heat transfer coefficient of internally ribbed tubes, Power Technol, 5, 340. ; Modliński (2014), Computational modelling of a tangentially fired boiler with deposit formation phenomena, Chem Process Eng, 35, doi.org/10.2478/cpe-2014-0027 ; Nowak (2013), Mineral matter transformation in oxy - fuel coal combustion, Chem Process Eng, 34, doi.org/10.2478/cpe-2013-0032 ; Taler (2009), Identification of local heat flux to membrane water - walls in steam boilers, Fuel, 88, doi.org/10.1016/j.fuel.2008.08.011 ; Taler (2014), Mathematical modeling of cross - flow tube heat exchangers with a complex flow arrangement, Heat Transfer Eng, 35, doi.org/10.1080/01457632.2013.876874 ; Węglowski (2014), Monitoring of the stress state in the boiler drum using finite element method, Advanced Materials Research, 875, doi.org/10.4028/www.scientific.net/AMR.875-877.1176 ; Trojan (2014), Modeling of superheater operation in a steam boiler United States Paper No POWER, ASME Power Conference POWER, 28, doi.org/10.1115/2014-32093 ; Ocłoń (2014), Simplified numerical study of evaporation processes inside vertical tubes, Therm Sci, 23, doi.org/10.1007/s11630-014-0693-7 ; Jensen (1999), Experimental investigation of turbulent heat transfer and fluid flow in internally finned tubes Transfer, Int J Heat Mass, 42, doi.org/10.1016/S0017-9310(98)00243-9 ; Zdaniuk (2008), Experimental determination of heat transfer and friction in helically - finned tubes, Exp Therm Fluid Sci, 32, doi.org/10.1016/j.expthermflusci.2007.09.006 ; Pilarczyk (2014), Possibility of coal power plants dynamics properties improvement in the context of increasing RES contribution in Polish power supply system ( in Polish ), Rynek Energii, 115. ; Ocłoń (2013), Numerical simulation of water evaporation inside vertical circular tubes th International Conference of Numerical Analysis and AIP, Applied Mathematics Conf Proc, 21, doi.org/10.1063/1.4826029 ; Zima (2006), Simulation of dynamics of a boiler steam superheater with an attemperator, Proc Inst Mech Eng Power Energy, 220, doi.org/10.1243/09576509JPE268 ; Dzierwa (2015), Taler Optimum heating of pressure vessels with holes Pressure Vessel, Technol, 137, doi.org/10.1115/1.4027584 ; Taler (2011), ( Ed Procesy cieplne i przepływowe w dużych kotłach energetycznych, PWN, 14. ; Carnavos (1980), Heat transfer performance of internally finned tubes in turbulent flow, Heat Transfer Eng, 1, doi.org/10.1080/01457638008939566Editorial Board
Editorial Board
Ali Mesbah, UC Berkeley, USA 
0000-0002-1700-0600
Anna Gancarczyk, Institute of Chemical Engineering, Polish Academy of Sciences, Poland 0000-0002-2847-8992
Anna Trusek, Wrocław University of Science and Technology, Poland 0000-0002-3886-7166
Bettina Muster-Slawitsch, AAE Intec, Austria 0000-0002-5944-0831
Daria Camilla Boffito, Polytechnique Montreal, Canada 0000-0002-5252-5752
Donata Konopacka-Łyskawa, Gdańsk University of Technology, Poland 0000-0002-2924-7360
Dorota Antos, Rzeszów University of Technology, Poland 0000-0001-8246-5052
Evgeny Rebrov, University of Warwick, UK 0000-0001-6056-9520
Georgios Stefanidis, National Technical University of Athens, Greece 0000-0002-4347-1350
Ireneusz Grubecki, Bydgoszcz Univeristy of Science and Technology, Poland 0000-0001-5378-3115
Johan Tinge, Fibrant B.V., The Netherlands 0000-0003-1776-9580
Katarzyna Bizon, Cracow University of Technology, Poland 0000-0001-7600-4452
Katarzyna Szymańska, Silesian University of Technology, Poland 0000-0002-1653-9540
Marcin Bizukojć, Łódź University of Technology, Poland 0000-0003-1641-9917
Marek Ochowiak, Poznań University of Technology, Poland 0000-0003-1543-9967
Mirko Skiborowski, Hamburg University of Technology, Germany 0000-0001-9694-963X
Nikola Nikacevic, University of Belgrade, Serbia 0000-0003-1135-5336
Rafał Rakoczy, West Pomeranian University of Technology, Poland 0000-0002-5770-926X
Richard Lakerveld, Hong Kong University of Science and Technology, Hong Kong 0000-0001-7444-2678
Tom van Gerven, KU Leuven, Belgium 0000-0003-2051-5696
Tomasz Sosnowski, Warsaw University of Technology, Poland 0000-0002-6775-3766