Theoretical thermal model for an oil-immersed, forced-air cooled transformer

Alegi, Gilbert Lavinio

05 1900

No description available.

Electric transformers

Thermodynamics

Two-phase instabililties in a low pressure natural circulation loop

Chexal, Virinder Kumar

08 1900

No description available.

Two-phase flow

Thermodynamics

Continuous thermodynamics of fluid mixtures

Willman, Bert

12 1900

No description available.

Fluid dynamics

Thermodynamics

Thermoeconomic functional analysis : a method for optimal design or improvement of complex thermal systems

Frangopoulos, Christos Athanasios

08 1900

No description available.

Thermodynamics

Heat Transmission

Critical phenomena in polymer solutions.

Zeman, Leos Jiri.

January 1972

No description available.

Polymers.

Solution (Chemistry)

Thermodynamics

Boiling on in-line and staggered tube bundles

Andrews, Patrick Rowan

January 1985

No description available.

697

Boiler tube thermodynamics

The modelling and simulation of temperature effects in hydraulic systems

Harris, Richard

January 1990

No description available.

621.2

Fluid thermodynamics

A theoretical and experimental investigation of an absorption refrigeration system for application with solar energy units

Dalichaouch, Mahieddine

January 1989

Application of the second law of thermodynamics to refrigeration systems is useful in identifying the thermodynamic losses and in finding out where improvements might be made. Theoretical absorption refrigeration cycles are analysed using the first law-based equations of energy balances and the second law-based concept of lost work. A thermodynamic efficiency, defined and formulated from the lost work approach, is used to examine a lithium bromide -water absorption cooling cycle with hot water as the heat source and cooling water as the heat sink. The cycle parameters are varied over applicable operating ranges in order to find their effect on the cycle thermodynamic efficiency. To accomplish this objective and to make a parameteric analysis for the L iBr -water absorption cycle under steady-state conditions, two computer programmes are written. The results indicate the system might be improved by better design. The efficiency variation is compared to variations of coefficient of performance found in the literature. A LiBT -water absorption refrigeration system for low hot water temperature applications has been proposed and detailed design aspects have been considered. Fabrication and testing of a laboratory model of the absorption refrigeration system have been described. As new design methodologies of solar energy applications have been developed recently, a study of solar thermal systems for absorption refrigeration has been presented. This includes the classification, description and modelling of solar systems. Types of design procedures of solar systems for absorption refrigeration are discussed and a computer programme has been implemented which prints out the yearly solar fraction of a solar thermal system with daily storage for supplying heat to an absorption cooling cycle. Numerical performance tests are carried out and the results show that the phibar-f chart design method is a simple and convenient mean of predicting the thermal performance of solar systems.

697

Refrigeration thermodynamics

Numerical and experimental studies of a double-pipe helical heat exchanger

Rennie, Timothy J.

January 2004

A double-pipe helical heat exchanger was studied numerically and experimentally for both heat transfer and hydrodynamic characteristics. / Results from the numerical trials show that the inner Nusselt numbers in the heat exchanger were similar to literature data, despite the different boundary conditions. Nusselt numbers in the annulus were correlated to a modified Dean number. It was shown that the thermal resistance in the annulus to be the greatest limiting factor for the heat transfer, and heat transfer rates could be increased by increasing the inner tube diameter. / The Prandtl number was shown to affect the inner Nusselt number; however the effects were much greater at low Dean numbers. These differences were attributed to the difference in the developing thermal and hydrodynamic boundary layers. The studies with the thermally dependent thermal conductivities showed that the Nusselt number correlated well with a modified Graetz number. / Thermally dependent viscosity had little effect on the heat transfer; however it affected the pressure drop. Furthermore, it was shown that by keeping the flow rate in the inner tube or the annulus constant, the pressure drop in that section can be affected by changes in the flow rate in the opposite section, due to the change in the heat transfer rate and hence the average temperature and viscosity of the fluid. Non-Newtonian fluids showed little effect on the heat transfer rates, though they significantly affected the pressure drop relations. / The uniformity of the residence time and the temperature distribution were both increased in the inner tube with increasing flow rates. It was shown that a smaller gap size in the annulus resulted in more uniform residence times. Temperature distributions in the inner tube and the annulus were affected by changes in the flow velocity in the opposite section, with lower flow rates resulting in more uniform temperature distributions. Implications of using parallel flow versus counterflow, heating versus cooling, and flow rate are discussed. / Overall heat transfer coefficients and Nusselt numbers were calculated for the experimental data. The inner and annulus heat transfer coefficients were determined using Wilson plots. The results were compared to the numerical data and literature values and showed reasonable agreement. (Abstract shortened by UMI.)

Heat exchangers -- Thermodynamics.

Equation of state and thermodynamics of polymer solutions.

Bardin, Jean Marie Charles André

January 1972

No description available.

Polymers -- Thermal properties.

Thermodynamics