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First U.K. National Conference on Heat Transfer
The Institution of Chemical Engineers Symposium Series, Volume 2.86
1st Edition - January 1, 1984
Author: Sam Stuart
9 7 8 - 1 - 4 8 3 1 - 5 4 2 0 - 6
First U.K. National Conference on Heat Transfer, Volume 2, documents the proceedings of the conference organized by the U.K. National Committee for Heat Transfer—a joint committee… Read more
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First U.K. National Conference on Heat Transfer, Volume 2, documents the proceedings of the conference organized by the U.K. National Committee for Heat Transfer—a joint committee of the Institutions of Chemical and Mechanical Engineers and includes a member nominated by the Heat Transfer Society—held at the University of Leeds, on 3-5 July 1984. It is intended that the Leeds conference will be the first of a series of UK National Conferences which will be held at four-yearly intervals (1984, 1988, 1992 etc). Thus, for people working in the heat transfer field there will be an opportunity to present and discuss their work at a major conference every two years. This volume contains 52 papers that were presented during Sessions 11-20. The papers in Session 11 deal with enhanced heat transfer. Session 12 presents studies on two-phase flow and boiling. Session 13 contains papers on natural convection. Session 14 focuses measurement techniques in heat transfer while Session 15 deals with heat transfer in high temperature systems. The presentations in Session 16 cover heat transfer in combustion systems while those in Session 17 focus on convective heat transfer. Session 18 takes up heat transfer in cross-flow. Session 19 discusses papers on applied heat transfer. Session 20 deals with studies on industrial heat exchangers.
Contents - Volume 2 Session 11. Enhanced Heat Transfer 11.1 The prediction of heat-transfer performance in spirally fluted tubes: the turbulent flow regime 11.2 Heat transfer enhancement in shell/tube heat exchangers employing electrostatic fields 11.3 The Senftleben effect in the shell/tube heat exchanger 11.4 Conjugate laminar and/or turbulent forced convection heat transfer from rectangular fins 11.5 The FLUFF code for calculating finned surface heat transfer 11.6 Air-water mist flow over extended surface tubebanksSession 12. Two-Phase Flow and Boiling 12.1 Prediction of flow pattern boundaries in horizontal two-phase flow 12.2 A simple model for estimating two-phase momentum flux 12.3 Saturation nucleate pool boiling - a simple correlation 12.4 Dryout on the shell side of tube bundles 12.5 Transient critical heat flux in flow boiling 12.6 Critical heat flux characteristics for vertical steam generating tubes with circumferentially non-uniform heatingSession 13. Natural Convection 13.1 Numerical solutions for developing combined convection between uniformly heated vertical parallel plates 13.2 Heat transfer calculations including natural convection in porous insulation and thermal radiation 13.3 Measurements in a turbulent natural convection boundary layer 13.4 Natural convection heat transfer measurements in a trapezoidal water-filled-plenum 13.5 Natural convection caused by passive conductors in stably stratified fluids 13.6 A study of natural convection in narrow annuli using small scale water filled modelsSession 14. Measurement Techniques in Heat Transfer 14.1 Simulation of heat transfer in a partially blocked nine pin sub-channel using the electrochemical technique 14.2 Determination of heat transfer coefficients on film cooled flat surfaces using the swollen polymer technique 14.3 The application of the liquid crystal technique to the experimental modeling of forced convection heat transfer in industrial heating processes 14.4 A technique for the measurement of local heat transfer coefficients using copper foil 14.5 Insulation degradation errors in long, metal sheathed thermocouples: calculations and measurementsSession 15. Heat Transfer in High Temperature Systems 15.1 High temperature heat transfer: furnace performance assessment 15.2 Heat transfer from flames to convex surfaces 15.3 Combined radiative and convective heat transfer in an enclosure 15.4 Temperature field in solid forming an enclosure where heart transmission by convection and radiation is taking place 15.5 The radiation distribution factor: its calculation using Monte Carlo techniques and an example of its applicationSession 16. Heat Transfer in Combustion Systems 16.1 Thermal modeling of fossil-fired boilers 16.2 The effect of turbulence intensity on convective heat transfer from pre-mixed methane-air flames 16.3 Mathematical modeling of load-recuperative gas-fired furnaces 16.4 Transpiration cooling of gas turbine combustion chamber walls 16.5 Experiments and modeling of ignition on thermally thin plane-parallel pyrolizing solids under transient radiative heatingSession 17. Convective Heat Transfer 17.1 Low Reynolds number heat transfer in the entrance region of a parallel channel 17.2 A numerical study of the influence of thermal stratification on forced convection heat transfer in sodium 17.3 Heat transfer for laminar flow in the entrance region of a smooth pipe 17.4 The computation of momentum and heat transport in turbulent flow around pipe bends 17.5 Full coverage impingement heat transfer: the influence of impingement jet sizeSession 18. Heat Transfer in Cross-Flow 18.1 An Investigation of the Influence of freestream turbulence on the thermal characteristics around a single tube 18.2 The effect of longitudinal pitch upon the pressure drop across transverse rows of circular tubes 18.3 Convection heat transfer and flow resistance measurements in conventional and cross-inclined tube banks 18.4 The prediction of shellside flow distribution and pressure drop in a shell-and-tube heat exchanger 18.5 Pressure loss mechanism in resistances inclined to an air flow, with application to fintubesSession 19. Applied Heat Transfer 19.1 Boiling heat transfer at finned surfaces 19.2 'Appropriate' calculation methods for convective heat transfer from building surfaces 19.3 Heat transfer to protein concentrates 19.4 Acoustic resonance in air cooled heat exchangers 19.5 Hydraulic expansion of tube to tubesheet jointsSession 20. Industrial Heat Exchangers 20.1 Applications of novel, flexible, shell and tube heat exchangers 20.2 Graphite heat exchangers in the process industries 20.3 The plate heat exchanger: construction and design 20.4 The flow distribution in plate heat exchangers 20.5 Plate heat exchangers for heat recovery
No. of pages: 637
Published: January 1, 1984
eBook ISBN: 9781483154206
Dr. Sam Stuart is a physiotherapist and a research Fellow within the Balance Disorders Laboratory, OHSU. His work focuses on vision, cognition and gait in neurological disorders, examining how technology-based interventions influence these factors. He has published extensively in world leading clinical and engineering journals focusing on a broad range of activities such as real-world data analytics, algorithm development for wearable technology and provided expert opinion on technology for concussion assessment for robust player management. He is currently a guest editor for special issues (sports medicine and transcranial direct current stimulation for motor rehabilitation) within Physiological Measurement and Journal of NeuroEngineering and Rehabilitation, respectively.
Affiliations and expertise
Senior Research Fellow, Department of Sport, Exercise and Rehabilitation, Northumbria University, UK
Honorary Physiotherapist, Northumbria Healthcare NHS Foundation Trust, North Shields, UK