James Swart scite author profile

Poor academic success by African engineering students is currently experienced in many higher educational institutions, contributing to lower financial subsidies by local governments. One of the contributing factors to this low academic success may be the poor time management skills of these students. This article endeavours to explore this relationship by means of a theoretical literature review and an empirical study. Numerous studies have been conducted in this regard, but with mixed results. The case study of this article involves a design module termed Design Projects III, where the empirical study incorporated an ex post facto study involving a pre-experimental/exploratory design using descriptive statistics. The results of this study were applied to various tests, which indicated no statistically significant relationship between time management skills and the academic achievement of African engineering students.

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Optimum Tilt and Orientation Angles for Photovoltaic Panels in the Vaal Triangle

Asowata

Swart

Pienaar

2012

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Optimizing the output power of a photovoltaic panel improves the efficiency of a solar driven energy system. The maximum output power of a photovoltaic panel depends on atmospheric conditions, such as (direct solar radiation, air pollution and cloud movements), load profile and the tilt and orientation angles. This paper describes an experimental analysis of maximizing output power of a photovoltaic panel, based on the use of existing equations of tilt and orientation angles derived from mathematical models and simulation packages. Power regulation is achieved by the use of a DC-DC converter, a fixed load resistance and a single photovoltaic panel. A data logger is used to make repeated measurements which ensure reliability of the results. The results of the paper were taken over a four month period from April through July. The photovoltaic panel was set to an orientation angle of 0 o with tilt angles of 16 o , 26 o and 36 o . Preliminary results indicate that tilt angles between 26 o and 36 o provide optimum photovoltaic output power for winter months in SouthAfrica. II. PHOTOVOLTAIC (PV) PANELSThree different types of PV panel modules basically exist, namely the mono-crystalline, the poly-crystalline (or multicrystalline) and the amorphous silicon panels [5]. Mono-crystalline:In mono-crystalline PV panels, cells are cut from a single crystal of silicon [6]. It has a smooth

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Assessing the effect of variable atmospheric conditions on the performance of photovoltaic panels: A case study from the Vaal Triangle

Swart

Schoeman

Pienaar

2011

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Optimum Tilt Angles for Photovoltaic Panels during Winter Months in the Vaal Triangle, South Africa

Asowata¹,

Swart²,

Pienaar³

2012

SGRE

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Optimizing the output power of a photovoltaic panel improves the efficiency of a solar driven energy system. The maximum output power of a photovoltaic panel depends on atmospheric conditions, such as (direct solar radiation, air pollution and cloud movements), load profile and the tilt and orientation angles. This paper describes an experimental analysis of maximizing output power of a photovoltaic panel, based on the use of existing equations of tilt angles derived from mathematical models and simulation packages. Power regulation is achieved by the use of a DC-DC converter, a fixed load resistance and a single photovoltaic panel. A data logger is used to make repeated measurements which ensure reliability of the results. The results of the paper were taken over a four month period from April through July. The photovoltaic panel was set to an orientation angle of 0? with tilt angles of 16?, 26? and 36?. Preliminary results indicate that tilt angles between 26? and 36? provide optimum photovoltaic output power for winter months in South Africa

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James Swart

Evaluation of Final Examination Papers in Engineering: A Case Study Using Bloom's Taxonomy

Exploring the relationship between time management skills and the academic achievement of African engineering students – a case study

Optimum Tilt and Orientation Angles for Photovoltaic Panels in the Vaal Triangle

Assessing the effect of variable atmospheric conditions on the performance of photovoltaic panels: A case study from the Vaal Triangle

Optimum Tilt Angles for Photovoltaic Panels during Winter Months in the Vaal Triangle, South Africa

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