J. Kubie scite author profile

Due to an increasing demand for an improvement in environmental conditions for living and a need for energy saving, development of daylight exploitation products has accelerated. The invention of light-pipes which bring natural light indoors where sunlight cannot reach without generating excessive heat is one such example. Mathematical modelling activities aimed at predicting the daylighting performance achievable by light-pipes with various con gurations under all weather conditions in the UK are being undertaken. Two models, one for straight light-pipes and the other for elbowed light-pipes are described. The models enable estimation of daylight provision of the light-pipes with a high degree of accuracy i.e., R 2 values of 0.95 and 0.97 for regression between predicted and measured illuminance were respectively obtained for the above models. The maximum Mean Bias Error (MBE) and Root Mean Square Error (RMSE) were -2 lux and 27 lux. A design guide for light-pipe assessment is presented that will obviate the need for use of mathematical models.

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A design tool for predicting the performances of light pipes

Jenkins

Muneer

Kubie

2005

Energy and Buildings

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Life cycle assessment of a medium-sized photovoltaic facility at a high latitude location

Muneer

Younes

Lambert

et al. 2006

Proceedings of the Institution of Mechanical Engineers, Part A:

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Performance of a 160 m2photovoltaic installation at the Napier University's Merchiston Campus, situated 3 km from Edinburgh's city centre, is presented. The alternative current and direct current electrical outputs were recorded since the installation of the facility was completed in April 2005. An analysis of the efficiency of the facility, as well as energetic, environmental, and monetary life cycle assessments, using long-term meteorological data is presented in this article.

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The measurement of vehicular driving cycle within the city of Edinburgh

Esteves-Booth

Muneer

Kirby

et al. 2001

Transportation Research Part D: Transport and Environment

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A review of vehicular emission models and driving cycles

Esteves-Booth

Muneer

Kubie

et al. 2002

Proceedings of the Institution of Mechanical Engineers, Part C:

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This article reviews the latest and relevant work on both vehicular emission models and driving cycles. The three main types of emission models, namely emission factor models, average speed models and modal models, are covered. Each project is analysed regarding its characteristic parameters, such as data collection technique, methodology, statistical analysis and pollutants covered, where appropriate. Other parameters were taken into account, such as the project objectives, results and relevance regarding the wider spectrum of the road traf c situation.

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J. Kubie

A design guide for performance assessment of solar light-pipes

A design tool for predicting the performances of light pipes

Life cycle assessment of a medium-sized photovoltaic facility at a high latitude location

The measurement of vehicular driving cycle within the city of Edinburgh

A review of vehicular emission models and driving cycles

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