Heat-Accumulation Stoves: Numerical Simulations of Two Twisted Conduit Configurations
|
|
- Merry Phillips
- 6 years ago
- Views:
Transcription
1 Heat-Accumulation Stoves: Numerical Simulations of Two Twisted Conduit Configurations *Scotton P., *Rossi D., **Barberi M., **De Toni S. *University of Padova, Department of Geosciences ** Barberi Srl, Trento (Italy) Rotterdam, Oct
2 INDEX Description of the Physical Problem; Hydrodynamic and Heat Transfer Equations; Results of twisted refractory pipe on a vertical plane refractory pipe spacially twisted Rotterdam, Oct
3 Heat storage and release P [W] Thermal Power [KW] Description of the Physical Problem Components of a heat accumulation stove Burning Process of Woody Material V, T V, T time HEAT STORAGE in the refractory HEAT RETURNED to the environment time [h] Rotterdam, Oct
4 Description of the Physical Problem Examples of heat accumulation stoves Modern stove Classical stove Historical heat accumulation stove Sfruz (Valle di Non, Trentino, Italy). Contemporary stove Rotterdam, Oct
5 Description of the Physical Problem The driving force acting on the flue gases Z = H air supply Z = 0 P P P A B A P P P H H B ρ ρ a f (T,P a (T,P f a a ) g ΔH ) g ΔH ρ (T,P ) -ρ (T,P ) gδh ρ -ρ gδh a a a f f a a f Rotterdam, Oct
6 curve Resistance number [-] E [m] Description of the Physical Problem Hydrodynamic flow aspects Temporal evolution of Reynolds number Sharp Curve Turbulent motion IRe = x/d = DP/g x/d [-] A Apii DE Rotterdam, Oct
7 Rotterdam, Oct Physics and Equations Transport Equations, k- model Reynolds-averaged Navier Stokes eq. F u u I p u u u u t u T ' ' 0 ) ( u t k k T P k k u t k k C P k C u t k T Turbulent energy eq. Turbulent Dissipation energy eq. where 2 k C T +
8 Physics and Equations Wall Functions Wall d w u d dw w dw influence of choosen mesh on the results Rotterdam, Oct
9 Physics and Equations Heat Transfer conduction q i k T x i Heat transfer is guaranteed by three terms: convection q h A T s T radiation q A 4 T s heat flux by conduction Equation of heat transfer T Cp : t T T p t u T q S u p Q p Equation of mass conservation t v 0 viscous heating.. the conserved property is the total energy not the heat H k T u qr u 0 heat flux by radiation total energy flux Rotterdam, Oct
10 Physical and numerical experiments Straight Steel Pipe Thermotechnical characteristics stainless steel black steel thickness [mm] emissivity [-] conductivity [W/mK] C-shaped refractory pipe Rotterdam, Oct Thermotechnical characteristics refractory calcespan density [kg/m 3 ] heat cap. [J/kgK] conductivity [W/mK] emiss. [ ]
11 Physical and numerical experiments Twisted Refractory Pipe on a vertical plane: numerical model Mesh properties Inlet section Radiation in participating media Discrete ordinate method: S2 Scattering = 0; absorption k = E-3 [1/cm] Modest, 83 Mass flow rate and temperature at the inlet section. Boundary conditions: 1. Mass flow rate + Temperature at the inlet face; 2. Pressure at the outlet face; 3. Convective cooling on the outer surface: ; 4. Surface to Ambient Radiation: ; Rotterdam, Oct
12 Physical and numerical experiments Twisted Refractory Pipe on a vertical plane: numerical results t= 76 min. Residual combustion activity inside the first vertical stretch? Rotterdam, Oct
13 Physical and numerical experiments Twisted Refractory Pipe on a vertical plane: numerical results Sp Sx CENTER Dx St Temperature gauges distribution inside an instrumented section S1 S2 S3 Rotterdam, Oct
14 Physical and numerical experiments Twisted Refractory Pipe on a vertical plane: numerical results MASS BALANCE ENERGY BALANCE ERROR 15% Rotterdam, Oct
15 Physical and numerical experiments Refractory Pipe spacially twisted: physical model Measurement positions of the temperature at the section 13. Thermotechnical properties of the materials. Temperature and mean velocity of the combustion air (pipe diameter = 0.16 m). Calculated flue gas mass discharge at section 01. Rotterdam, Oct
16 Physical and numerical experiments Refractory Pipe spacially twisted: numerical model OUTLET Tethraedical meshes INLET Radiation in participating media Discrete ordinate method: S2 Scattering = 0; absorption k = E-3 [1/cm] Boundary conditions: 1. Calculated mass flow rate + Measured temperature at the inlet face; 2. Pressure at the outlet face; 3. Convective cooling on the outer surface; 4. Surface to Ambient Radiation; Rotterdam, Oct
17 Physical and numerical experiments Refractory Pipe spacially twisted: numerical results t= 62 min. Mesh M2 Mesh M3 Mesh M3 Rotterdam, Oct
18 Physical and numerical experiments Refractory Pipe spacially twisted: numerical results MASS BALANCE ENERGY BALANCE Mesh M3 Mesh M3: ERROR 30% Mesh M2: ERROR 17% Mesh M3 Rotterdam, Oct
19 Conclusions The numerical results have been obtained considering the thermal- and the hydrodynamic equations, including buoyancy forces (Boussinesque approximation). Radiation has been considered both outside and inside the pipe; The software is able to describe correctly the mass balance until the time of occurrence of a numerical instability; The energy balance depends strongly on the mesh refinement. A refined mesh, realized with the use of a boundary layer, can induce an anticipated instability; The pressure variations are not significantly far from the measured ones (this experimental measure is very difficult); The mean velocity values along the pipes are coherent with the mean temperature values; The calculated mean temperature values along the pipes are generally much higher than the measured ones; the measured temperature variation inside the pipes are much larger than the measured ones; temperature variations inside the pipe, both measured and calculated, decrease increasing the distance along the pipe; The use of a boundary layer is not always the best choice, having an influence on the reduction of the stability period. Rotterdam, Oct
20 What s more Use of Comsol in the final stove configuration, where a radiant covering envelops the twisted pipe; Need of a higher computing power (now Dell T GB Ram) to reduce the energy loss and to hope to give technical importance in the design process. At the moment, due to the large calculation time, of the order of a week, is almost useless; Another road: decoupling the hydrodynamic equations relevant to the pipe from the thermal equations relevant to the refractory; Thank you for your attention Rotterdam, Oct
21 Description of the Physical Problem General Features of global system flue gas rad. heat exchanges conv. heat exchanges rad. heat exchanges conv. heat exchanges refractory walls of room air supply combustion Barberi Srl Rotterdam, Oct
22 Software version: Comsol 4.3 Computing machine: Workstation Dell T7500 equipped with two Intel R Xeon R Processor X5550 and 24GB DDR3 1333MHz ECC-RDIMM. Rotterdam, Oct
23 Temperature gauges distribution inside an instrumented section Rotterdam, Oct
24 THE MASS FLOW RATE HAS BEEN DETERMINED BY MEANS OF VELOCITY AND TEMPERATURE MEASURED UPSTREAM DEL COMBUSTION CHAMBER. The technical regulation pren15544 has been used. pren One off tiled/kachelofen stoves - Calculation method Rotterdam, Oct
25 Velocity measurement Propeller anemometer Hot wire anemometer Pitot Rotterdam, Oct
26 Pressure measurement Furness FC0332 Analogical piezometer Testo 521 Rotterdam, Oct
27 Temperature measurement Thermocouples k; Pt100; Pt1000. Rotterdam, Oct
Thermo-Fluid Dynamics of Flue Gas in Heat Accumulation Stoves: Study Cases
Thermo-Fluid Dynamics of Flue Gas in Heat Accumulation Stoves: Study Cases Scotton P. Rossi D. University of Padova, Department of Geosciences Excerpt from the Proceedings of the 2012 COMSOL Conference
More informationThermo-Fluid Dynamics of Flue Gas in Heat Accumulation Stoves: Study Cases
Thermo-Fluid Dynamics of Flue Gas in Heat Accumulation Stoves: Study Cases P. Scotton 1, *, D. Rossi 1, **, M. Barberi 2, ***, S. De Toni 2, *** 1 University of Padova, Department of Geosciences, Gradenigo
More informationINSTRUCTOR: PM DR MAZLAN ABDUL WAHID
SMJ 4463: HEAT TRANSFER INSTRUCTOR: PM ABDUL WAHID http://www.fkm.utm.my/~mazlan TEXT: Introduction to Heat Transfer by Incropera, DeWitt, Bergman, Lavine 6 th Edition, John Wiley and Sons Chapter 7 External
More informationPROBLEM 1.3. dt T1 T dx L 0.30 m
PROBLEM 1.3 KNOWN: Inner surface temperature and thermal conductivity of a concrete wall. FIND: Heat loss by conduction through the wall as a function of outer surface temperatures ranging from -15 to
More informationTrue/False. Circle the correct answer. (1pt each, 7pts total) 3. Radiation doesn t occur in materials that are transparent such as gases.
ME 323 Sample Final Exam. 120pts total True/False. Circle the correct answer. (1pt each, 7pts total) 1. A solid angle of 2π steradians defines a hemispherical shell. T F 2. The Earth irradiates the Sun.
More informationThermal Unit Operation (ChEg3113)
Thermal Unit Operation (ChEg3113) Lecture 3- Examples on problems having different heat transfer modes Instructor: Mr. Tedla Yeshitila (M.Sc.) Today Review Examples Multimode heat transfer Heat exchanger
More informationThe energy performance of an airflow window
The energy performance of an airflow window B.(Bram) Kersten / id.nr. 0667606 University of Technology Eindhoven, department of Architecture Building and Planning, unit Building Physics and Systems. 10-08-2011
More informationENSC 388. Assignment #8
ENSC 388 Assignment #8 Assignment date: Wednesday Nov. 11, 2009 Due date: Wednesday Nov. 18, 2009 Problem 1 A 3-mm-thick panel of aluminum alloy (k = 177 W/m K, c = 875 J/kg K, and ρ = 2770 kg/m³) is finished
More informationCHAPTER 7 NUMERICAL MODELLING OF A SPIRAL HEAT EXCHANGER USING CFD TECHNIQUE
CHAPTER 7 NUMERICAL MODELLING OF A SPIRAL HEAT EXCHANGER USING CFD TECHNIQUE In this chapter, the governing equations for the proposed numerical model with discretisation methods are presented. Spiral
More informationExamination Heat Transfer
Examination Heat Transfer code: 4B680 date: 17 january 2006 time: 14.00-17.00 hours NOTE: There are 4 questions in total. The first one consists of independent sub-questions. If necessary, guide numbers
More informationNatural convection heat transfer around a horizontal circular cylinder near an isothermal vertical wall
Natural convection heat transfer around a horizontal circular cylinder near an isothermal vertical wall Marcel Novomestský 1, Richard Lenhard 1, and Ján Siažik 1 1 University of Žilina, Faculty of Mechanical
More informationME 331 Homework Assignment #6
ME 33 Homework Assignment #6 Problem Statement: ater at 30 o C flows through a long.85 cm diameter tube at a mass flow rate of 0.020 kg/s. Find: The mean velocity (u m ), maximum velocity (u MAX ), and
More informationBen Wolfe 11/3/14. Figure 1: Theoretical diagram showing the each step of heat loss.
Condenser Analysis Water Cooled Model: For this condenser design there will be a coil of stainless steel tubing suspended in a bath of cold water. The cold water will be stationary and begin at an ambient
More informationAutumn 2005 THERMODYNAMICS. Time: 3 Hours
CORK INSTITUTE OF TECHNOOGY Bachelor of Engineering (Honours) in Mechanical Engineering Stage 3 (Bachelor of Engineering in Mechanical Engineering Stage 3) (NFQ evel 8) Autumn 2005 THERMODYNAMICS Time:
More informationPROBLEM 1.2 ( ) 25 C 15 C dx L 0.30 m Ambient air temperature, T2 (C)
PROBLEM 1.2 KNOWN: Inner surface temperature and thermal conductivity of a concrete wall. FIND: Heat loss by conduction through the wall as a function of ambient air temperatures ranging from -15 to 38
More informationUnderstanding Hot-Wire Anemometry
Thermal Minutes Understanding Hot-Wire Anemometry Introduction Hot-wire anemometry is a technique for measuring the velocity of fluids, and can be used in many different fields. A hot-wire anemometer consists
More informationChapter 3 NATURAL CONVECTION
Fundamentals of Thermal-Fluid Sciences, 3rd Edition Yunus A. Cengel, Robert H. Turner, John M. Cimbala McGraw-Hill, 2008 Chapter 3 NATURAL CONVECTION Mehmet Kanoglu Copyright The McGraw-Hill Companies,
More informationRelationship to Thermodynamics. Chapter One Section 1.3
Relationship to Thermodynamics Chapter One Section 1.3 Alternative Formulations Alternative Formulations Time Basis: CONSERVATION OF ENERGY (FIRST LAW OF THERMODYNAMICS) An important tool in heat transfer
More informationExperiment 1. Measurement of Thermal Conductivity of a Metal (Brass) Bar
Experiment 1 Measurement of Thermal Conductivity of a Metal (Brass) Bar Introduction: Thermal conductivity is a measure of the ability of a substance to conduct heat, determined by the rate of heat flow
More informationSIMULATION OF THERMAL CHARACTERISTICS OF RADIATORS USING A POROUS MODEL. YETSAN Auto Radiator Co. Inc Çorum, Turkey NOMENCLATURE
Proceedings of CONV-14: Int. Symp. on ConvectiveHeatandMass Transfer June8 13, 2014, Turkey CONV-14 176 SIMULATION OF THERMAL CHARACTERISTICS OF RADIATORS USING A POROUS MODEL Kadir G. Güler 1,2 and BarbarosÇetin
More informationChapter 1: 20, 23, 35, 41, 68, 71, 76, 77, 80, 85, 90, 101, 103 and 104.
Chapter 1: 0, 3, 35, 1, 68, 71, 76, 77, 80, 85, 90, 101, 103 and 10. 1-0 The filament of a 150 W incandescent lamp is 5 cm long and has a diameter of 0.5 mm. The heat flux on the surface of the filament,
More informationarxiv: v1 [physics.app-ph] 25 Mar 2018
Improvement of heat exchanger efficiency by using hydraulic and thermal entrance regions arxiv:1803.09255v1 [physics.app-ph] 25 Mar 2018 Abstract Alexey Andrianov a, Alexander Ustinov a, Dmitry Loginov
More informationExternal Forced Convection :
External Forced Convection : Flow over Bluff Objects (Cylinders, Spheres, Packed Beds) and Impinging Jets Chapter 7 Sections 7.4 through 7.8 7.4 The Cylinder in Cross Flow Conditions depend on special
More informationIf there is convective heat transfer from outer surface to fluid maintained at T W.
Heat Transfer 1. What are the different modes of heat transfer? Explain with examples. 2. State Fourier s Law of heat conduction? Write some of their applications. 3. State the effect of variation of temperature
More informationN. Lemcoff 1 and S.Wyatt 2. Rensselaer Polytechnic Institute Hartford. Alstom Power
N. Lemcoff 1 and S.Wyatt 2 1 Rensselaer Polytechnic Institute Hartford 2 Alstom Power Excerpt from the Proceedings of the 2012 COMSOL Conference in Boston Background Central solar receiver steam generators
More informationPhone: , For Educational Use. SOFTbank E-Book Center, Tehran. Fundamentals of Heat Transfer. René Reyes Mazzoco
8 Fundamentals of Heat Transfer René Reyes Mazzoco Universidad de las Américas Puebla, Cholula, Mexico 1 HEAT TRANSFER MECHANISMS 1.1 Conduction Conduction heat transfer is explained through the molecular
More information3.0 FINITE ELEMENT MODEL
3.0 FINITE ELEMENT MODEL In Chapter 2, the development of the analytical model established the need to quantify the effect of the thermal exchange with the dome in terms of a single parameter, T d. In
More informationLaminar flow heat transfer studies in a twisted square duct for constant wall heat flux boundary condition
Sādhanā Vol. 40, Part 2, April 2015, pp. 467 485. c Indian Academy of Sciences Laminar flow heat transfer studies in a twisted square duct for constant wall heat flux boundary condition RAMBIR BHADOURIYA,
More informationTankExampleNov2016. Table of contents. Layout
Table of contents Task... 2 Calculation of heat loss of storage tanks... 3 Properties ambient air Properties of air... 7 Heat transfer outside, roof Heat transfer in flow past a plane wall... 8 Properties
More informationCoolant. Circuits Chip
1) A square isothermal chip is of width w=5 mm on a side and is mounted in a subtrate such that its side and back surfaces are well insulated, while the front surface is exposed to the flow of a coolant
More informationNumerical Analysis of Fe 3 O 4 Nanofluid Flow in a Double Pipe U-Bend Heat Exchanger
International Journal of Engineering Studies. ISSN 0975-6469 Volume 8, Number 2 (2016), pp. 211-224 Research India Publications http://www.ripublication.com Numerical Analysis of Fe 3 O 4 Nanofluid Flow
More informationTutorial 1. Where Nu=(hl/k); Reynolds number Re=(Vlρ/µ) and Prandtl number Pr=(µCp/k)
Tutorial 1 1. Explain in detail the mechanism of forced convection. Show by dimensional analysis (Rayleigh method) that data for forced convection may be correlated by an equation of the form Nu = φ (Re,
More informationPrinciples of Food and Bioprocess Engineering (FS 231) Problems on Heat Transfer
Principles of Food and Bioprocess Engineering (FS 1) Problems on Heat Transfer 1. What is the thermal conductivity of a material 8 cm thick if the temperature at one end of the product is 0 C and the temperature
More informationEXPERIMENTAL AND NUMERICAL STUDIES OF A SPIRAL PLATE HEAT EXCHANGER
THERMAL SCIENCE: Year 2014, Vol. 18, No. 4, pp. 1355-1360 1355 EXPERIMENTAL AND NUMERICAL STUDIES OF A SPIRAL PLATE HEAT EXCHANGER by Rangasamy RAJAVEL Department of Mechanical Engineering, AMET University,
More informationTutorial for the supercritical pressure pipe with STAR-CCM+
Tutorial for the supercritical pressure pipe with STAR-CCM+ For performing this tutorial, it is necessary to have already studied the tutorial on the upward bend. In fact, after getting abilities with
More informationExamination Heat Transfer
Examination Heat Transfer code: 4B680 date: June 13, 2008 time: 14.00-17.00 Note: There are 4 questions in total. The first one consists of independent subquestions. If possible and necessary, guide numbers
More informationNumerical Modeling of Anode Baking Process with COMSOL Multiphysics
Numerical Modeling of Anode Baking Process with COMSOL Multiphysics P. Nakate 1,2, W. Voogd de 3, D.J.P. Lahaye 1, C. Vuik 1, M. Talice 4 1. Department of applied mathematics, Delft University of technology,
More informationTutorial for the heated pipe with constant fluid properties in STAR-CCM+
Tutorial for the heated pipe with constant fluid properties in STAR-CCM+ For performing this tutorial, it is necessary to have already studied the tutorial on the upward bend. In fact, after getting abilities
More informationDR.PRADIP DUTTA Department of Mechanical Engineering Indian Institute of Science Bangalore
DR.PRADIP DUTTA Department of Mechanical Engineering Indian Institute of Science Bangalore What is Heat Transfer? Energy in transit due to temperature difference. Thermodynamics tells us: How much heat
More informationPROBLEM Node 5: ( ) ( ) ( ) ( )
PROBLEM 4.78 KNOWN: Nodal network and boundary conditions for a water-cooled cold plate. FIND: (a) Steady-state temperature distribution for prescribed conditions, (b) Means by which operation may be extended
More informationMathematical Modelling of Ceramic Block Heat Transfer Properties
Proceedings of the 3 RD INTERNATIONAL CONFERENCE ADVANCED CONSTRUCTION 18-19 October, 2012, Kaunas, Lithuania Kaunas University of Technology, Faculty of Civil Engineering and Architecture Studentu st.
More informationAnalysis of the Cooling Design in Electrical Transformer
Analysis of the Cooling Design in Electrical Transformer Joel de Almeida Mendes E-mail: joeldealmeidamendes@hotmail.com Abstract This work presents the application of a CFD code Fluent to simulate the
More informationECE309 INTRODUCTION TO THERMODYNAMICS & HEAT TRANSFER. 3 August 2004
ECE309 INTRODUCTION TO THERMODYNAMICS & HEAT TRANSFER 3 August 004 Final Examination R. Culham This is a 3 hour, closed-book examination. You are permitted to use one 8.5 in. in. crib sheet (both sides),
More informationCFD SIMULATION AND MEASUREMENT OF THE HEAT TRANSFER FROM BUILDING MATERIAL SPECIMENS TO THE INDOOR ENVIRONMENT
CFD SIMULATION AND MEASUREMENT OF THE HEAT TRANSFER FROM BUILDING MATERIAL SPECIMENS TO THE INDOOR ENVIRONMENT Conrad Voelker 1, Markus Diewald 2 1 Bauhaus-University Weimar 2 University of Kaiserslautern
More informationNumerical Simulation of Turbulent Flow inside the Electrostatic Precipitator of a Power Plant
Numerical Simulation of Turbulent Flow inside the Electrostatic Precipitator of a Power Plant S.M.E. Haque 1*, M.G. Rasul 2, A. Deev 1, M.M.K. Khan 2 and J. Zhou 3 1 Process Engineering & Light Metals
More informationLevel 7 Post Graduate Diploma in Engineering Heat and mass transfer
9210-221 Level 7 Post Graduate Diploma in Engineering Heat and mass transfer 0 You should have the following for this examination one answer book non programmable calculator pen, pencil, drawing instruments
More informationFatima
Fatima QUESTION BANK DEPARTMENT: MECH SEMESTER: IV SUBJECT CODE / Name: ME 2251/HEAT AND MASS TRANSFER UNIT I: CONDUCTION PART -A (2 Marks) 1. What is Fourier's Law of heat conduction? (May 05, May 06,
More informationIntroduction to Heat and Mass Transfer. Week 5
Introduction to Heat and Mass Transfer Week 5 Critical Resistance Thermal resistances due to conduction and convection in radial systems behave differently Depending on application, we want to either maximize
More informationLecture 28. Key words: Heat transfer, conduction, convection, radiation, furnace, heat transfer coefficient
Lecture 28 Contents Heat transfer importance Conduction Convection Free Convection Forced convection Radiation Radiation coefficient Illustration on heat transfer coefficient 1 Illustration on heat transfer
More informationAvailable online at ScienceDirect. Energy Procedia 69 (2015 )
Available online at www.sciencedirect.com ScienceDirect Energy Procedia 69 (2015 ) 573 582 International Conference on Concentrating Solar Power and Chemical Energy Systems, SolarPACES 2014 Numerical simulation
More informationDepartment of Mechanical Engineering, VTU, Basveshwar Engineering college, Bagalkot, Karnataka, India
International Journal of Current Engineering and Technology E-ISSN 2277 4106, P-ISSN 2347 5161 2016 INPRESSCO, All Rights Reserved Available at http://inpressco.com/category/ijcet Research Article Optimization
More informationIntroduction to Heat and Mass Transfer. Week 7
Introduction to Heat and Mass Transfer Week 7 Example Solution Technique Using either finite difference method or finite volume method, we end up with a set of simultaneous algebraic equations in terms
More informationHeat and Mass Transfer Unit-1 Conduction
1. State Fourier s Law of conduction. Heat and Mass Transfer Unit-1 Conduction Part-A The rate of heat conduction is proportional to the area measured normal to the direction of heat flow and to the temperature
More informationNumerical Analysis of Helical Coil Heat Exchanger in the Light of Waste Heat Recovery Applications
Numerical Analysis of Helical Coil Heat Exchanger in the Light of Waste Heat Recovery Applications Mukesh Sharma 1, Jagdeesh Saini 2 1 M-Tech Student, 2 Assistant Professor B M College of Technology, Indore,
More informationCFD study for cross flow heat exchanger with integral finned tube
International Journal of Scientific and Research Publications, Volume 6, Issue 6, June 2016 668 CFD study for cross flow heat exchanger with integral finned tube Zena K. Kadhim *, Muna S. Kassim **, Adel
More informationHeat Transfer: Physical Origins and Rate Equations. Chapter One Sections 1.1 and 1.2
Heat Transfer: Physical Origins and Rate Equations Chapter One Sections 1.1 and 1. Heat Transfer and Thermal Energy What is heat transfer? Heat transfer is thermal energy in transit due to a temperature
More informationEmpirical Co - Relations approach for solving problems of convection 10:06:43
Empirical Co - Relations approach for solving problems of convection 10:06:43 10:06:44 Empirical Corelations for Free Convection Use T f or T b for getting various properties like Re = VL c / ν β = thermal
More informationIntroduction to Heat and Mass Transfer. Week 14
Introduction to Heat and Mass Transfer Week 14 Next Topic Internal Flow» Velocity Boundary Layer Development» Thermal Boundary Layer Development» Energy Balance Velocity Boundary Layer Development Velocity
More informationValidation of DNS techniques for dynamic combined indoor air and constructions simulations using an experimental scale model
Excerpt from the Proceedings of the COMSOL Conference 2008 Hannover Validation of DNS techniques for dynamic combined indoor air and constructions simulations using an experimental scale model T.A.J. (Dennis)
More informationConjugate heat transfer from an electronic module package cooled by air in a rectangular duct
Conjugate heat transfer from an electronic module package cooled by air in a rectangular duct Hideo Yoshino a, Motoo Fujii b, Xing Zhang b, Takuji Takeuchi a, and Souichi Toyomasu a a) Fujitsu Kyushu System
More informationQUESTION ANSWER. . e. Fourier number:
QUESTION 1. (0 pts) The Lumped Capacitance Method (a) List and describe the implications of the two major assumptions of the lumped capacitance method. (6 pts) (b) Define the Biot number by equations and
More informationNumerical Study of PCM Melting in Evacuated Solar Collector Storage System
Numerical Study of PCM Melting in Evacuated Collector Storage System MOHD KHAIRUL ANUAR SHARIF, SOHIF MAT, MOHD AFZANIZAM MOHD ROSLI, KAMARUZZAMAN SOPIAN, MOHD YUSOF SULAIMAN, A. A. Al-abidi. Energy Research
More informationMulti-Fidelity Computational Flow Assurance for Design and Development of Subsea Systems and Equipment Simon Lo
Multi-Fidelity Computational Flow Assurance for Design and Development of Subsea Systems and Equipment Simon Lo CD-adapco, Trident House, Basil Hill Road, Didcot, OX11 7HJ, UK Multi-Fidelity Computational
More informationKeywords: Spiral plate heat exchanger, Heat transfer, Nusselt number
EXPERIMENTAL AND NUMERICAL STUDIES OF A SPIRAL PLATE HEAT EXCHANGER Dr.RAJAVEL RANGASAMY Professor and Head, Department of Mechanical Engineering Velammal Engineering College,Chennai -66,India Email:rajavelmech@gmail.com
More informationFires in Vehicles - FIVE 2014
Proceedings from 3rd International Conference on Fires in Vehicles - FIVE 2014 SP Technical Research Institute of Sweden is a leading international research institute. We work closely with our customers
More informationNumerical Analysis of a Helical Coiled Heat Exchanger using CFD
International Journal of Thermal Technologies ISSN 2277-4114 213 INPRESSCO. All Rights Reserved. Available at http://inpressco.com/category/ijtt Research Article Numerical Analysis of a Helical Coiled
More information2 Navier-Stokes Equations
1 Integral analysis 1. Water enters a pipe bend horizontally with a uniform velocity, u 1 = 5 m/s. The pipe is bended at 90 so that the water leaves it vertically downwards. The input diameter d 1 = 0.1
More informationPHYSICAL MECHANISM OF NATURAL CONVECTION
1 NATURAL CONVECTION In this chapter, we consider natural convection, where any fluid motion occurs by natural means such as buoyancy. The fluid motion in forced convection is quite noticeable, since a
More informationS.E. (Chemical) (Second Semester) EXAMINATION, 2011 HEAT TRANSFER (2008 PATTERN) Time : Three Hours Maximum Marks : 100
Total No. of Questions 12] [Total No. of Printed Pages 7 [4062]-186 S.E. (Chemical) (Second Semester) EXAMINATION, 2011 HEAT TRANSFER (2008 PATTERN) Time : Three Hours Maximum Marks : 100 N.B. : (i) Answers
More informationThermo-Hydraulic performance of Internal finned tube Automobile Radiator
Thermo-Hydraulic performance of Internal finned tube Automobile Radiator Dr.Kailash Mohapatra 1, Deepiarani Swain 2 1 Department of Mechanical Engineering, Raajdhani Engineering College, Bhubaneswar, 751017,
More informationComparison of Turbulence Models in the Flow over a Backward-Facing Step Priscila Pires Araujo 1, André Luiz Tenório Rezende 2
Comparison of Turbulence Models in the Flow over a Backward-Facing Step Priscila Pires Araujo 1, André Luiz Tenório Rezende 2 Department of Mechanical and Materials Engineering, Military Engineering Institute,
More informationTRANSIENT NUMERICAL ANALYSIS OF INDUCTION HEATING OF GRAPHITE CRUCIBLE AT DIFFERENT FREQUENCY
TRANSIENT NUMERICAL ANALYSIS OF INDUCTION HEATING OF GRAPHITE CRUCIBLE AT DIFFERENT FREQUENCY Abstract B. Patidar, M.M.Hussain, A. Sharma, A.P. Tiwari Bhabha Atomic Research Centre, Mumbai Mathematical
More informationThermal performance of the new hall of the historical hospital in Florence
hermal performance of the new hall of the historical hospital in Florence C. Balocco *,1, E. Marmonti 1 1 Dipartimento di Energetica, Università di Firenze *Corresponding author: via Santa Marta 3,F irenze,
More informationAEROSPACE ENGINEERING DEPARTMENT. Second Year - Second Term ( ) Fluid Mechanics & Gas Dynamics
AEROSPACE ENGINEERING DEPARTMENT Second Year - Second Term (2008-2009) Fluid Mechanics & Gas Dynamics Similitude,Dimensional Analysis &Modeling (1) [7.2R*] Some common variables in fluid mechanics include:
More informationThermal Sensors and Actuators
Thermal Sensors and Actuators Part I Fundamentals of heat transfer Heat transfer occurs where there is a temperature gradient until an equilibrium is reached. Four major mechanism Thermal conduction Natural
More informationA Plasma Torch Model. 1. Introduction
A Plasma Torch Model B. Chinè School of Materials Science and Engineering, Costa Rica Institute of Technology, Cartago, Costa Rica P.O. Box 159-7050, Cartago, Costa Rica, bchine@itcr.ac.cr Abstract: Plasma
More informationConvection Heat Transfer. Introduction
Convection Heat Transfer Reading Problems 12-1 12-8 12-40, 12-49, 12-68, 12-70, 12-87, 12-98 13-1 13-6 13-39, 13-47, 13-59 14-1 14-4 14-18, 14-24, 14-45, 14-82 Introduction Newton s Law of Cooling Controlling
More information( ) PROBLEM C 10 C 1 L m 1 50 C m K W. , the inner surface temperature is. 30 W m K
PROBLEM 3. KNOWN: Temperatures and convection coefficients associated with air at the inner and outer surfaces of a rear window. FIND: (a) Inner and outer window surface temperatures, T s,i and T s,o,
More informationMODA. Modelling data documenting one simulation. NewSOL energy storage tank
MODA Modelling data documenting one simulation NewSOL energy storage tank Metadata for these elements are to be elaborated over time Purpose of this document: Definition of a data organisation that is
More informationSummary of Recent Modelling Work at Cambridge. J. Dean, C. Taltavull, P. Earp & T. W. Clyne
Summary of Recent Modelling Work at Cambridge J. Dean, C. Taltavull, P. Earp & T. W. Clyne Experimental Overview Powder Feed Thermocouples Plasma Gun Pitot Tube Target Substrate Experimental Data Thermal
More informationLEAKLESS COOLING SYSTEM V.2 PRESSURE DROP CALCULATIONS AND ASSUMPTIONS
CH-1211 Geneva 23 Switzerland EDMS No. ST/CV - Cooling of Electronics & Detectors GUIDE LEAKLESS COOLING SYSTEM V.2 PRESSURE DROP CALCULATIONS AND ASSUMPTIONS Objectives Guide to Leakless Cooling System
More informationELEC9712 High Voltage Systems. 1.2 Heat transfer from electrical equipment
ELEC9712 High Voltage Systems 1.2 Heat transfer from electrical equipment The basic equation governing heat transfer in an item of electrical equipment is the following incremental balance equation, with
More informationModeling of Humidification in Comsol Multiphysics 4.4
Modeling of Humidification in Comsol Multiphysics 4.4 Indrajit Wadgaonkar *1 and Suresh Arikapudi 1 1 Tata Motors Ltd. Pimpri, Pune, India, 411018. *Corresponding author: Indrajit Wadgaonkar, Tata Motors
More informationHeat Transfer. V4 3June16
Heat Transfer V4 3June16 Heat Transfer Heat transfer occurs between two surfaces or bodies when there is a temperature difference Heat transfer depends on material properites of the object and the medium
More informationRISE TIME EVALUATION OF THE HEAT FLUX MICROSENSOR (HFM) ON A HOT- AIR-GUN TEST RIG
8th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics HEFAT2011 8 th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics 11-13 July 2011 Pointe Aux
More informationSimulation of Turbulent Flow of a Rotating Cylinder Electrode. Influence of Using Plates and Concentric Cylinder as Counter Electrodes
Int. J. Electrochem. Sci., 8 (2013) 4690-4699 International Journal of ELECTROCHEMICAL SCIENCE www.electrochemsci.org Simulation of Turbulent Flow of a Rotating Cylinder Electrode. Influence of Using Plates
More informationSHRI RAMSWAROOP MEMORIAL COLLEGE OF ENGG. & MANAGEMENT B.Tech. [SEM V (ME-51, 52, 53, 54)] QUIZ TEST-1 (Session: )
QUIZ TEST-1 Time: 1 Hour HEAT AND MASS TRANSFER Note: All questions are compulsory. Q1) The inside temperature of a furnace wall ( k=1.35w/m.k), 200mm thick, is 1400 0 C. The heat transfer coefficient
More informationHEAT TRANSFER. Mechanisms of Heat Transfer: (1) Conduction
HEAT TRANSFER Mechanisms of Heat Transfer: (1) Conduction where Q is the amount of heat, Btu, transferred in time t, h k is the thermal conductivity, Btu/[h ft 2 ( o F/ft)] A is the area of heat transfer
More informationTOPIC 2 [A] STEADY STATE HEAT CONDUCTION
TOPIC 2 [A] STEADY STATE HEAT CONDUCTION CLASS TUTORIAL 1. The walls of a refrigerated truck consist of 1.2 mm thick steel sheet (k=18 W/m-K) at the outer surface, 22 mm thick cork (k=0.04 W/m-K) on the
More informationThe Effect of Solid and Perforated Pin Fin on the Heat Transfer Performance of Finned Tube Heat Exchanger
International Journal of Energy Engineering 2018, 8(1): 1-11 DOI: 10.5923/j.ijee.20180801.01 The Effect of Solid and Perforated Pin Fin on the Heat Transfer Performance of Finned Tube Heat Exchanger Nabil
More informationPROBLEM and from Eq. 3.28, The convection coefficients can be estimated from appropriate correlations. Continued...
PROBLEM 11. KNOWN: Type-30 stainless tube with prescribed inner and outer diameters used in a cross-flow heat exchanger. Prescribed fouling factors and internal water flow conditions. FIND: (a) Overall
More informationThermal NO Predictions in Glass Furnaces: A Subgrid Scale Validation Study
Feb 12 th 2004 Thermal NO Predictions in Glass Furnaces: A Subgrid Scale Validation Study Padmabhushana R. Desam & Prof. Philip J. Smith CRSIM, University of Utah Salt lake city, UT-84112 18 th Annual
More informationFluid Mechanics. du dy
FLUID MECHANICS Technical English - I 1 th week Fluid Mechanics FLUID STATICS FLUID DYNAMICS Fluid Statics or Hydrostatics is the study of fluids at rest. The main equation required for this is Newton's
More informationDesign Of An Anisokinetic Probe For Sampling RadioactiveParticles From Ducts Of Nuclear Facilities
Design Of An Anisokinetic Probe For Sampling RadioactiveParticles From Ducts Of Nuclear Facilities Author P. Geraldini 1 1 Sogin Spa Via Marsala 51C, 00185 Rome Italy, geraldini@sogin.it Abstract: The
More informationNatural and Mixed Convection Heat Transfer Cooling of Discrete Heat Sources Placed Near the Bottom on a PCB
Natural and Mixed Convection Heat Transfer Cooling of Discrete Heat Sources Placed Near the Bottom on a PCB Tapano Kumar Hotta, S P Venkateshan Abstract Steady state experiments have been conducted for
More informationNumerical Analysis And Experimental Verification of a Fire Resistant Overpack for Nuclear Waste
Numerical Analysis And Experimental Verification of a Fire Resistant Overpack for Nuclear Waste Author P. Geraldini 1, Co-author A. Lorenzo 2 1,2 Sogin S.p.A., Rome, Italy Via Marsala 51/C 00185 Rome 1
More informationIntroduction Flares: safe burning of waste hydrocarbons Oilfields, refinery, LNG Pollutants: NO x, CO 2, CO, unburned hydrocarbons, greenhouse gases G
School of Process, Environmental and Materials Engineering Computational study of combustion in flares: structure and emission of a jet flame in turbulent cross-flow GERG Academic Network Event Brussels
More informationHigh-performance Forehearth Coloring using Lorentz Forces
High-performance Forehearth Coloring using Lorentz Forces Torres J.O. 1, Halbedel B. 1, Weber C. 2, Reche. R. 3 1 Technische Universität Ilmenau, Ilemanu, Germany 2 Ferro GmbH, Frankfurt am Main, Germany
More informationADVANCES in NATURAL and APPLIED SCIENCES
ADVANCES in NATURAL and APPLIED SCIENCES ISSN: 1995-0772 Published BYAENSI Publication EISSN: 1998-1090 http://www.aensiweb.com/anas 2017 September 11(11): 1-10 Open Access Journal Two-Dimensional Numerical
More informationEXPERIMENTAL ANALYSIS OF AIR-CONDITIONING IN HOSPITAL ROOMS BY MEANS OF LIGHT RADIANT CEILINGS
EXPERIMENTAL ANALYSIS OF AIR-CONDITIONING IN HOSPITAL ROOMS BY MEANS OF LIGHT RADIANT CEILINGS Renato M. Lazzarin renato@gest.unipd.it Francesco Castellotti caste@gest.unipd.it Filippo Busato busato@gest.unipd.it
More information