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Finite Volume Computational Fluid Dynamics Package for Solving Convective Heat Transfer Cases (2008)
Journal Article
Junaidi, H., Henderson, D., Grassie, T., Currie, J., & Muneer, T. (2008). Finite Volume Computational Fluid Dynamics Package for Solving Convective Heat Transfer Cases. International Journal of Mechanical Engineering Education, 36(2), 92-112. https://doi.org/10.7227/ijmee.36.2.2

Computational fl uid dynamics (CFD) has brought a step change in the fi eld of fl ow analysis,
particularly in the areas of fl uid dynamics and heat transfer, which are intertwined. It has carved a
niche in applications where, a decade back, experi... Read More about Finite Volume Computational Fluid Dynamics Package for Solving Convective Heat Transfer Cases.

A design tool for predicting the performances of light pipes (2004)
Journal Article
Jenkins, D., Muneer, T., & Kubie, J. (2005). A design tool for predicting the performances of light pipes. Energy and Buildings, 37(5), 485-492. https://doi.org/10.1016/j.enbuild.2004.09.014

Light pipes are simple means of directing daylight (diffuse and direct light) into interior spaces. Previous work by the authors described the initial work on a luminous flux and illuminance predictive model for straight light pipes, using a basic eq... Read More about A design tool for predicting the performances of light pipes.

A design guide for performance assessment of solar light-pipes (2002)
Journal Article
Zhang, X., Muneer, T., & Kubie, J. (2002). A design guide for performance assessment of solar light-pipes. Lighting Research and Technology, 34(2), 149-168. https://doi.org/10.1191/1365782802li041oa

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 su... Read More about A design guide for performance assessment of solar light-pipes.