Economic analysis of various ground-source heat pumps compared to air-source airconditioners in South Africa

29 September 2015

M.Ing. / In this study, alternative heat pump systems are compared for use in South African climatic conditions. Monthly heating/cooling capacities and coefficients of performance for air, vertical and several horizontal ground-source systems are calculated for Pretoria and Johannesburg. The desired type of heat exchanger is determined by considering economic factors such as the total costs, comprised of the capital and operating costs. The cost-effectiveness on investments of each system is calculated, with parameters such as the payback period, net present value and internal rate of return ...

Heat pumps

Air conditioning

Evaporator analysis for application to water-source and ice-maker heat pumps

Aceves, Salvador M.

14 November 1989

Water-source and ice-maker heat pumps share many characteristics. However, each presents different technical difficulties that have prevented them from being used more widely. In a water-source heat pump a very important consideration is to reduce water consumption, while in an ice-maker heat pump a major concern is to reduce the number of deicing cycles while keeping a high performance. Previous research by this author has indicated that the use of the flow reversal method (reversing periodically the water flow direction in the evaporator) has the effect of partly deicing the evaporator, reducing pressure drop and enhancing heat transfer. This thesis shows the development and application of analytical and numerical models to study the effect of different evaporator parameters on heat pump efficiency, as well as the possible advantages of using the flow reversal method in a water-source or ice-maker heat pump. The conclusion reached from these studies is that periodic water flow reversals inside an evaporator with freezing help improve the performance of a heat pump system in two different ways. First, periodic water flow direction reversals serve to enhance heat transfer in the evaporator. Second, reversing the water flow direction also delays ice blockage in the evaporator, or totally prevents blockage from happening. Delaying ice blockage represents a substantial improvement for ice-maker heat pumps, since these may then operate for a longer time without deicing. Preventing ice blockage represents a substantial improvement for water-source heat pumps, since these may then operate at lower water flow rates. Suggestions for future work include further testing of the flow reversal method for different evaporator geometries, as well as an experimental evaluation of the flow reversal method. / Graduation date: 1990

Heat pumps

Evaporators

Analysis and design of a solid adsorbent heat driven heat pump

Miles, Daniel Joseph

05 1900

No description available.

Heat pumps

Thermodynamics

Solar assisted heat pump : a thermoeconomic design based on second law

Zubair, Syed M.

08 1900

No description available.

Heat pumps

Solar heating

Natural gas, IC engine-driven heat pump design optimization

Murri, Blake Walter

12 1900

No description available.

Heat pumps

Natural gas

Effects of surface heat transfer and spatial property dependence on the optimum performance of a thermoelectic heat pump

Ybarrondo, Lawrence Joseph

08 1900

No description available.

Heat pumps

Thermoelectricity

An evaluation of the effect of adsorbent properties on the performance of a solid sorption heat pump

Ellis, Michael Wayne

08 1900

No description available.

Heat pumps

Adsorption

Effects of variable heat transfer coefficients and flow geometry on the performance of a variable speed heat pump

Dymek, Andrew A.

12 1900

No description available.

Heat pumps

Thermodynamics

Modeling, simulation, and optimization of a natural gas fired/IC engine driven heat pump system

Cikanek, Harry Arthur

08 1900

No description available.

Heat pumps

Thermodynamics

Single presssure absorption heat pump analysis

Schaefer, Laura Atkinson

05 1900

No description available.

Heat pumps

Heat