... boiling in heated minichannels. Int. J. HeatMass Transf. 46(16), 2957–2965 (2003)32. Chang, K.H., Pan, C.: Two-phase flow instability for boiling in a microchannel heat sink. Int.J. HeatMass ... microchannel heat sink. Int. J. Heat Fluid Flow 30(6), 1171–1182 (2009)21. Huh, C., Kim, M.H.: Pressure drop, boiling heattransferand flow patterns during flow boiling in a single microchannel. Heat ... Microchannel Heat Sinks. J. Heat Transf. 129(10), 1341–1351 (2007)37. Brutin, D., Tadrist, L.: Pressure drop andheattransfer analysis of flow boiling in aminichannel: in uence of the inlet condition...
... Notation xxiw Velocity in z direction in Cartesian coordinates, in θ direction in cylindrical coordinates, or in ϕ direction in spherical coordinates(m/s); work per unit mass (W/kg)X Mole fractionY ... of thermal andmasstransfer boundary conditions can be encoun-tered in practice. Standard thermal andmasstransfer boundary condition types areoften used in theoretical models and experiments, ... (m)lent,ma Mass transfer entrance length (m)lent,thThermal (heat transfer) entrance length (m)lMTurbulence mixing length ( m)lM, maTurbulence mixing length f or masstransfer (m)l heat Heated...
... corresponds to thatof heat conduction, whilst masstransferin a flowing fluid, known for short asconvective masstransfer corresponds to convective mass transfer. Mass transfer by diffusion and convection ... of HeatTransfer , in which he introduced dimensionless groups for the first time. Furtherimportant investigations included heattransferin film condensation, cross current heattransfer and ... discussed in detail in the following sections. Heat exchanger design mainly consists of two tasks:1. Calculating the heat flow transferred in a given heat exchanger.2. Design of a heat exchanger...
... temperatures andheat input rate for an internally reversible heat engine. Thermal resistances separating heat engine from source and sink under clean and fouled conditions.Find:1. Efficiency and power ... involving fluid flow), the in ow and outflow terms also includeenergy (thermal and mechanical) that is advected (carried) by mass entering and leaving thecontrol volume. For instance, if the mass ... applying energy conserva-tion at an instant in time,1as discussed in Section 1.3.1. Utilizing the definition of a thermalresistance, the heattransfer rates into and out of the heat engine...
... becomesdPdyeyẳrgeyIntegrating between C and D in the manometer fluid, we havePatmÀ PCẳrmgd2 and then integrating between B and A in the tank uid, we obtainPA PBẳrTgd12.1 Pressure Variation in ... Approach Of specific interest in momentum transfer is the description of the point-to-pointvariation in the pressure. Denoting the directions east and north in Figure 1.5 by x and y,respectively, ... theheating, determine th e velocity, v, in the stack. The fluid v elocityentering the heating chamber may be ne glected and the chimne y isimmersed in fluid of density r1.Vr2r1r1L2Heating...
... thickness and thermal conductivity of a single pane window and the air space of a double pane window. Representative winter surface temperatures of single pane and air space. FIND: Heat loss ... COMMENTS: The heat loss and related costs are unacceptable and should be reduced by insulating the steam line. PROBLEM 1.5KNOWN: Inner and outer surface temperatures of a glass window of prescribed ... container. Inner and outer surface temperatures. FIND: Heat flux through container wall and total heat load. SCHEMATIC: ASSUMPTIONS: (1) Steady-state conditions, (2) Negligible heat transfer...
... Injection of dye in pipe flow1* laminar (top) to turbulent (bottom) Laminar flow is dominated by viscous forces and turbulent flow is dominated by inertial forces, In a plot of point ... face cream, etc. involves flow of complex fluids - frequently with the accompanying problems of heat transferand sometimes mass transfer. This large and very interesting area of fluid ... of finite thickness with uniform initial temperature and convective resistance at surfaces Figure 7.4.2-3 Centerline temperature for unsteady-state heat transfer in an infinite cylinder...
... resulting in increased heat flow. It may be shown that the resistance actually decreases and then increases in certain cases. The thickness upto which heat flow increases and after which heat ... to obtain the following differential equations in thecylindrical and spherical coordinate systems. Here it has to be noted that the area valuechanges in the coordinate directions. In cylindrical ... also increases rapidly with temperature.1.3 COMBINED MODES OF HEAT TRANSFER Previous sections treated each mode of heattransfer separately. But in practice all the threemodes of heat transfer...
... simulation results (a) and experiments (b) HEATANDMASS TRANSFER – MODELING AND SIMULATION Edited by Md Monwar Hossain Heat andMassTransfer – Modeling and Simulation 8 5101 ... description and analysis of heatand mass transfer processes in a fin -and- tube air heater. Hydrogen production by steam reforming and the process intensification strategies are discussed in chapter ... andmasstransfer processes for a variety of industrial applications. The research papers provide information and guidelines in terms of theory, mathematical modeling and experimental findings...
... reactants, Heat andMassTransfer – Modeling and Simulation 30does not only have influence in terms of masstransfer limitations, but in kinetic and ohmic ones due to an excess of insulator ... collects the corresponding values for the hydrogen mass transfer. Heat andMassTransfer – Modeling and Simulation 283.2.1 Influence of the Teflon percentage in the microporous layer ... Heat andMassTransfer – Modeling and Simulation 26circuit constant phase element and resistance, related to the charge transfer processes (kinetic), and another parallel mini-circuit...
... air-flow and the condensate-film (Fig. 3). Fig. 3. Heatandmasstransfer phenomenon around a fin-tube As the fins spacing is very weak regarding the fins height and length, heatandmasstransfer ... equation in the fin surface (Eq. 41) and the heatandmasstransfer equations for the condensate-film (Eqs. 35 and 37). In our model, the simultaneous influence of the local speed andheat transfer ... the relative humidity and the fin temperature [Lin & Jang , 2002, Liang et Numerical Analysis of HeatandMassTransferin a Fin -and- Tube Air Heat Exchanger under Full and Partial Dehumidification...
... zero when going up the inlet and outlet or the upper and lower fin edges, and is also minimal near the tube surface. 2.4.2 Solving heatandmasstransfer equations The heatandmasstransfer ... straight fin with combined heatandmass transfer, ASHRAE transactions, Part 1, 100, 367-374. Numerical Analysis of HeatandMassTransferin a Fin -and- Tube Air Heat Exchanger under Full and Partial ... other hand, the influence of ui on the heattransfer is such as the total heat rate increase with increasing the flow regime. In the case of an ideal fin, the heattransfer increasing is...
... straight tube. In this study, nitrogen was used as a driving gas and carrying gas with an inlet pressure of 1.4 and 1.6 MPa for the heating gas and powder carrying gas separately. Heating gas temperature ... activity. Heat andMassTransfer – Modeling and Simulation 84 Fig. 14. Effects of V in , n on X at different T in . At lower inlet velocity such as V in =0.1m·s-1, increment of methanol ... Heat andMassTransfer – Modeling and Simulation 76 Fig. 8. Morphology of the cold sprayed coatings before and after steam reforming. Process Intensification of Steam Reforming...
... describing the natural and forced convective heatandmasstransfer regimes for nanofluids flowing in semi-infinite geometries, i.e. external boundary layer flows along Heat andMassTransfer ... nanofluids strongly influences the boundary layer thickness by modifying the viscosity of the resulting mixture leading to variations in the masstransferin the vicinity of walls in external boundary-layer ... the following U-velocity and temperature polynomial distributions depending mainly upon the dynamical parameter: Heat andMassTransferin External Boundary Layer Flows Using Nanofluids...
... Buoyancy-driven heattransfer enhancement in a two-dimensional enclosure using nanofluids. Int. J. HeatMass Transf. Vol. 46 pp.3639-3653. Heat andMassTransfer – Modeling and Simulation ... confined and submerged impinging jet heattransfer using Al2O3-water nanofluid, International Journal of Thermal Sciences, Vol. 48, pp.401-411 Pak B. C., Cho Y. I., Hydrodynamic andheattransfer ... the gravity m.s-2 h heattransfer coefficient W.m-2.K-1 Heat andMassTransfer – Modeling and Simulation 116 Wang, X Q. &, Mujumdar, A.S. (2007). Heattransfer characteristics...