Thermal performance of wood-burning fireplaces in the South African context.

Pretorius, Erika.

January 2013

M. Tech. Architectural Technology / South Africans are faced with the challenge of becoming less dependent on fossil-based electricity (which is very commonly used in the heating of homes), because it is not only becoming less affordable, but also less sustainable. Wood-burning fireplaces have developed over thousands of years, and an analysis thereof reveals that a correctly designed and constructed wood-burning masonry fireplace is a valid alternative to electrical heaters. The research design consists of a survey of existing wood-burning masonry fireplaces and chimneys in South Africa. This study investigates a number of design elements, including the size of the room, fireplace, and chimney, as well as the height of the chimney. The traffic patterns that cause draughts, including furniture arrangements, and safety regulations, are also included.

Heating -- South Africa.

An investigation of solar powered absorption cooling systems for South Africa.

Bvumbe, Tatenda Joseph.

January 2012

Increased standards of living and indoor comfort demands have led to an increase in the demand for air-conditioning in buildings in South Africa. Conventional vapor compression systems use refrigerants that damage the ozone layer and contribute significantly to the global warming effect. Therefore, there is an urgent need to implement environmentally cleaner ways of satisfying this air-conditioning demand and absorption cooling systems have shown great potential to do so. This project is concerned with finding the technical and economic effectiveness of solar powered absorption cooling systems for South African climatic conditions. Solar cooling systems are made up of a solar collector array, water storage tank, absorption chiller and cooling tower for heat rejection. In this study, two complete systems, one utilizing an open wet cooling tower and another using a dry cooler were studied and their technical and economical performance analyzed. One system was installed at Netcare Moot Hospital in Pretoria and comprised of a solar collector array made up of 52 evacuated tube collectors, two 6000 litre hot water storage tanks, 35kW LiBr-water absorption chiller, and a wet cooling tower. This system was coupled to an existing vapor compression chiller so that cooling is provided even when no solar energy is available. The installation controlled and remotely monitored through the internet and parameters logged through a Carel Building Management System. The other system is at Vodacom World in Midrand, Johannesburg and is an autonomous solar heating and cooling system aimed at maintaining the building environment at comfort conditions throughout the year. It is made up of a 116m2 evacuated tube collector array, a 6500litre hot water storage tank, 35kW LiBr-Water absorption chiller, 1m3 of cold water storage, a dry cooler for the chiller, and two underground rock storages to pre-cool the supply air to the building and the dry cooler respectively. Long term system performance studies were carried out by varying the system control strategy for the chiller, hot water storage tank, existing vapor compression chiller (in the case of the Moot Hospital installation), hot water storage tank, dry cooler (for the Vodacom installation) and the system Coefficient of Performances were calculated and life cycle cost analysis carried out. Due to the fact that solar availability and cooling demand are approximately in phase, solar powered absorption cooling presents a great opportunity for reducing peak electrical cooling energy demand. It was also discovered that the economic effectiveness of the system increases with the absorption chiller capacity, and it‟s more advisable to operate the solar absorption cooling system with a vapor compression chiller as a backup for facilities that require uninterrupted cooling. The solar autonomous system is oversized for most of the year since it is designed to cover the peak cooling loads. / Thesis (M.Sc.Eng.)-University of KwaZulu-Natal, Durban, 2012.

Solar air conditioning--South Africa.

Solar heating--South Africa.

Solar energy--South Africa.

Theses--Mechanical engineering.

The effect of oven and microwave drying methods on the drying kinetics and physical properties of two banana vatieties in Limpopo Province, South Africa

Omolola, Adewale Olesegun

02 February 2016

PhD (Agric) / Department of Food Science

Banana

Luvhele

Mabonde

Microwave oven

Drying kinetics

Drying curves

Microstructure

Moisture diffusivity

664.8047720968257

Drying -- South Africa -- Limpopo

Microwave food products -- Packaging

Bananas -- South Africa -- Limpopo