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Comprehensive investigation on lighting and energy-saving performance of lighting/heating coupled tubular daylighting devices integrated with nanofluids

Xingjiang Liu, Chao Shen, Haotian Yang, Julian Wang

2023Applied Thermal Engineering20 citationsDOIOpen Access PDF

Abstract

Feasible regulation of the solar visible and infrared spectrum is a promising technology for energy-efficient buildings. Our recently published work has proposed a lighting/heating coupled tubular daylighting devices (LH-TDDs) integrated with nanofluids to track the trade-off between indoor visible light gain and near-infrared shielding and demonstrated its excellent lighting/heating decoupling performance. To further evaluate the application potential of the LH-TDDs, the present work develops a comprehensive evaluation method that considers both lighting and energy-saving performance. In detail, the LH-TDDs system was investigated using both the numerical models and Energyplus software. The results on lighting performance demonstrate that the filtration of nanofluids hardly affects the lighting quality of LH-TDDS, but will instead enhance lighting uniformity and lessen glare risk. Meanwhile, the energy consumption simulations indicate that LH-TDDs achieve energy saving from three approaches, namely, lighting energy saving, thermal energy output, and air-conditioning energy-saving, and 100 ppm nanofluid can improve the total energy-saving amount by 43.6 % in Harbin, China. The findings of this paper can accelerate the application of LH-TDDs, and the evaluation system elaborated in this work may provide some useful clues for the assessment of other nanofluids-based transparent envelopes.

Topics & Concepts

NanofluidDaylightingAutomotive engineeringArtificial lightComputer scienceMaterials scienceEngineeringIlluminanceNanotechnologyPhysicsOpticsArchitectural engineeringNanoparticleBuilding Energy and Comfort OptimizationUrban Heat Island MitigationSolar Thermal and Photovoltaic Systems