Thermodynamic properties of lithium bromide/water solutions with application to an absorption temperature boosting heat pump /

Herold, Keith Evan

January 1986

No description available.

Engineering

Lithium

Heat pumps

Optimisation of thermodynamic systems using the energy method

Kibiikyo, Deogratias Sekabira

January 1987

No description available.

536.7

Heat exchangers; Heat pumps

An investigation of the effects of lubricating oil on the evaporator performance of heat pump systems

Murphy, N. E.

January 1985

No description available.

621.89

Lubricant use in heat pumps

Thermofluid effects of lubricating oil in heat pump systems

Cawte, Howard

January 1989

No description available.

536.7

Heat transfer in heat pumps

Improving heat pump performance via compressor capacity control : analysis and test.

Hiller, Carl Clifford

January 1976

Thesis. 1976. Ph.D.--Massachusetts Institute of Technology. Dept. of Mechanical Engineering. / Microfiche copy available in Archives and Engineering. / Vita. / Includes bibliographical references. / Ph.D.

Mechanical Engineering

Compressors

Heat pumps

Experimental measurement of heat transfer phenomena in a solid adsorbent

Worm, Steven Lee

12 1900

No description available.

Heat pumps

Thermodynamics

Heat Transmission

Three dimesional graphics for the analysis of absorption heat pump cycles

Vodenicker, John P., III

05 1900

No description available.

Heat pumps

Heat Radiation and absorption

Simulation of a domestic heat pump using a nonazeotropic working fluid and impact of parallel computers on the simulation of thermal systems

Fadel, Georges M.

08 1900

No description available.

Heat pumps

Thermodynamics Data processing

Small scale and micro combined heat and power

Smith, Martin Alan

January 1999

No description available.

697

Heat pumps; CHP; Domestic

Interfacial instability and spray heat transfer problems of two phase flow

Valha, Jan

January 1996

This thesis describes detailed investigations of two different problems in gas-liquid two-phase flow, namely, a study of interfacial stability in a partially filled cylinder subjected to vertical oscillations and a study of heat and mass transfer from hot spray droplets injected into an closed vessel. The interfacial instability study considers experimental data taken from the author's previous work. Cylinders of various diameters, partially filled with water, ethanol or glycerol were subjected to a sinusoidal vertical motion. The critical acceleration, causing the interfacial wave to grow unstable, was found to be approximately constant for a given cylinder diameter, independent on the amplitude of the forcing oscillations. The experiments also indicate that the critical Acceleration always decreases with increasing cylinder diameter. A mathematical analysis of the interfacial instability is based on a stability investigation of a Mathieu equation. It is shown that the experimental data fall into unstable regions for a single, first mode of oscillations. This finding is supported by the experimental analysis given by Cilliberto and Gollub. The analysis shows the effects of the liquid column height on the interfacial instability to be dependent on tanh (k..l.). This multiplier is equal to 1 for the column heights of 250mm, 500 mm and 750 mm, investigated, and a given cylinder diameter, thus having no effect on the results. Computational analysis of the interfacial problem is developed which is based on the simplified MAC method incorporating the Continuum Surface Force (CSF) model for simulating the effects of surface tension. Computational experiments were run for water and glycerol, the two liquids of significantly different properties. The results are presented in the form of time sequenced plots showing the interfacial positions and graphs relating the interfacial wave amplitude and time. Stability of the interface is found to be dependent on the initial surface disturbance. Growth of the interfacial wave is observed in some cases. In the range of situations investigated, surface tension effects are found to have only a small influence both on the stability and frequency of the interfacial oscillations. The period of interfacial oscillations with no forcing vibrations is found to be in good agreement with the period predicted by mathematical analysis. Influence of the initial disturbance profile was also investigated. The results indicate that the interfacial wave adopts oscillatory behaviour similar to the other cases. The oscillation frequency of the interfacial wave undergoing forcing vibrations is found to match the findings of the mathematical analysis. The wave oscillates with an angular velocity equal to the multiples of the half the forcing vibration angular velocity, co/2. In the second investigation a testing rig was constructed to investigate the heat and mass transfer processes in dense hot sprays injected into an enclosed cylindrical vessel. Heat and mass transfer rates were investigated indirectly from the measurements of the gas - vapour mixture pressure rise in the cylinder. The experiments covered different combinations of the parameters influencing the processes. The number and size of spray nozzles, the vessel volume, the type of gas and the initial pressure level in the cylinder were investigated. The experimental results indicate that, for the range of solid cone nozzles tested, the heat and mass transfer characteristics are, to a first approximation independent of the size of the nozzles. The results also show that the rise of spray chamber internal pressure is directly proportional to liquid temperature and flowrate. An analysis, based on energy balances for the whole cylinder, has yielded a new dimensionless group incorporating the important parameters of droplet heat transfer namely the droplet velocity and radius, spray chamber dimensions, gravity, conductivity and convectivity. A good match has been found between the analytical results and experimental findings. An improved analysis, incorporating the effect of evaporation from drops, is also presented. It is based on simultaneous solution of energy and mass balance equations for a single droplet. Again, good agreement with the experimental results is found. Both analyses indicate that, for this particular case of dense, evaporative spray, the Nusselt number tends to have a value equal to I.

532

Liquid piston heat pumps