Design analysis of a finned-tube condenser for a residential air-conditioner using R-22

Sadler, Emma May

05 1900

No description available.

Heat Transmission

Air conditioning Equipment and supplies

Transient heat transfer from buried electrical cables under short-circuit conditions

Shen, Ching-Huei

08 1900

No description available.

Electric cables Thermal properties

Heat Transmission

A heat transfer and fluid flow model for the drawing of optical fibers

Parise, Ronald J.

05 1900

No description available.

Fiber optics

Heat Transmission

Fluid dynamics

Local-and system-level thermal management of a single level integrated module (SLIM) using synthetic jet actuators

Russell, Griffith B.

08 1900

No description available.

Heat Transmission

Electronic packaging Cooling

Air flow

Thermoeconomic evaluation of feedwater heaters with separate heating sections

Simoes, Octavio Manuel

08 1900

No description available.

Heat Transmission

Feed-water heaters

Thermodynamics

Simultaneous heat, momentum and mass transfer in the through-flow drying of agricultural products

Brock, James Donald

05 1900

No description available.

Grain Drying

Heat Transmission

Mass transfer

Influence of vapor mass flux on simultaneous heat and mass transfer in moist porous media

Boo, Joonhong

12 1900

No description available.

Heat Transmission

Porous materials

Mass transfer

Heat transfer and kinetic studies of particulates under aseptic processing conditions

Awuah, George Brobbey

January 1994

Fluid-to-particle heat transfer coefficients (h$ rm sb{fp}$) associated with food and model particles under simulated aseptic processing conditions were experimentally evaluated, and verified using measured inactivation kinetic parameters of the enzyme trypsin. Convective heat transfer coefficients were determined initially using two methods: a rate method based on evaluated heating/cooling rate indices (f$ rm sb c$/f$ rm sb h$) and a ratio method based on the ratio of temperature difference between the medium and particle locations. / Carrot and potato tissue in the form of finite cylinders of different lengths (0.02-0.04 m) and diameters (0.016-0.023 m) were used for evaluating h$ rm sb{fp}$ associated with aqueous CMC solutions (0-1.0% w/w) at temperatures ranging from 50 to 80$ sp circ$C and at relatively low fluid flow (0.2 to $0.7 times10 sp{-3}$ m/s) conditions. Carrots generally gave higher h$ rm sb{fp}$ values (100-550 W/m$ sp2$C) compared to potatoes (80-450 W/m$ sp2$C). Laminar flow natural convection dominated the flow regime. Hence, the Nusselt number was modeled as a function of Rayleigh's number which resulted in coefficients of determination (R$ sp2$) greater than 0.80. / A pilot scale holding tube simulator was designed and fabricated for routine/rapid gathering of heat penetration data which may be experienced in high temperature short time processing conditions. / Using the simulator under conditions comparable to industrial applications, and a full factorial experimental design, h$ rm sb{fp}$ values were estimated using finite cylinders of Teflon and potato tissue of different sizes (length: 0.020-0.0254 m; diameter: 0.0159-0.0254 m), and spherical Teflon particles (diameter 0.0191 m) in food grade CMC solutions (0-1.0% w/w). Operating temperatures were 90, 100 and 110$ sp circ$C, and flow rate was varied from 1.0-$1.9 rm times10 sp{-4} m sp3$/s. Average h$ rm sb{fp}$ values ranged from 56 to 966 W/m$ sp2$C depending on size, shape, fluid concentration, particle orientation, and tube diameter. Differences caused by different particle materials were accounted for by introducing a thermal diffusivity ratio in developed dimensionless correlations for both mixed and forced convective heat transfer to spherical and finite cylindrical particles under simulated aseptic processing conditions. / Thermal inactivation of trypsin (bovine pancreas type III) in low and high pH media was studied at temperatures ranging from 90-130$ sp circ$C. Comparative studies of its kinetic data with other bioindicators indicated the enzyme to be suitable for HTST verification/validation purposes. Further studies revealed, probably depending on pH, that trypsin was more susceptible to thermal inactivation at temperatures around 70$ sp circ$C. (Abstract shortened by UMI.)

Heat -- Transmission -- Measurement.

Food -- Effect of heat on.

The development of a heat transfer measurement technique for application to rotating turbine blades

Doorly, Jane E.

January 1985

The successful design of a long-lived and efficient gas turbine engine requires a good knowledge of the thermal and aerodynamic performances of the components of the turbine. Of particular importance, is the heat transfer rate from the hot gases to the cooled turbine blades, since this limits the maximum turbine entry temperatures which can be obtained. Much gas turbine research is concentrated on experimental modelling and measurements to assist in the development of improved theoretical prediction techniques. The difficulties of instrumenting fully rotational rigs, which are necessary for a full understanding of the complex three dimensional flow in the turbine, have, however, to a large extent, limited most experimental research to stationary facilities. A technique is described which will allow heat transfer rate measurements to be made on fully rotating test facilities using mutlilayered model turbine blades comprising an electrical insulator on a metal base. An accurate and computationally efficient method for determining the surface heat flux to a multi-layered model turbine blade is developed theoretically, together with a method for calibrating the thermal properties of the multi-layered system. This method allows the existing successful heat flux measurement technique, which utilises electronic analogue circuitry in conjunction with thin film surface thermometers on a model made from a thermal insulator, to be extended for application to multi-layered models. The production of test models by the application of a vitreous enamel (as an electrical insulator), to a mild steel, is identified as the most suitable coating technique for experimental application. Radiant and wind tunnel testing of multi-layered cylindrical models are described, which confirm that the method is both practical and accurate.

621.4352

An investigation of scaling parameters governing film-cooling

Forth, C. J. Patrick

January 1985

Experiments were performed using an Isentropic Light Piston Tunnel, a transient facility which enables conditions representative of those in engines to be attained. The results were interpreted using a superposition model, which is shown to be a valuable and concise method of characterising the effects of injection.

536.7