Side-Lit Window Design for Optimum Daylighting in Library Reading Areas
Conventional tropical building designs are experiencing new paradigm in its environmental response to improve lighting ambiance and users' comfort by exploiting daylighting. This research focused on accessing existing daylight factors, illuminance levels, users' preference and their per...
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Main Author: | |
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Format: | Thesis |
Language: | English English |
Published: |
2005
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Online Access: | http://psasir.upm.edu.my/id/eprint/6188/1/FRSB_2005_5.pdf http://psasir.upm.edu.my/id/eprint/6188/ |
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Summary: | Conventional tropical building designs are experiencing new paradigm in its
environmental response to improve lighting ambiance and users' comfort by
exploiting daylighting. This research focused on accessing existing daylight factors,
illuminance levels, users' preference and their perception towards daylight library
reading areas. The performance of daylighting applied in library design in tropical
country like Malaysia is evaluated based on their Side-Lit Window Design (SLWD).
Daylighting evaluation is done through three methodologies, namely, via Field
Measurement; Computer Simulation and User Survey. Reading areas in three
libraries have been identified as case studies. The libraries selected are Perpustakaan
Sultan Abdul Samad (L.l), Universiti Putra Malaysia (UPM), Perpustakaan Tun
Abdul Razak 1 (L.2), Universiti Teknologi MARA (UiTM) and the Main Library of
International Islamic University of Malaysia (L.3). By applying the Window to Wall
Ratio (WWR) and Window to Floor Ratio (WFR), each window design from the
case study is classified into three Typical Daylighted Bays (TDB), which are; low
WFR (0.2) with moderate headroom height (3m high); high WFR (0.4) with
moderate headroom height and high WFR with high headroom height (4 m).Illumination level readings are collected at three separate periods of a day, namely,
in the morning, afternoon and evening. Measurements are indicated using portable
Konica-Minolta Illuminance Meter T10 at 7 'P' test points lm apart from each other
starting from the windows of each TDB. Parametric analyses using RadianceIES
predicted potential window and interior criteria applicable in designing of future
daylighting designs in large public indoor areas. The simulations are generated
under '10K CIE Overcast Sky' file to predict daylighting performance during worst
case scenario affects in a tropical country. Furthermore, the survey carried out
measured users' comfort and awareness according to impacts shown in relation to
three different SLWD. The responses are recorded via questionnaires issued to them
at each of the selected TDB. The surveys are performed during diurnal operation
hours of the particular libraries.
Findings revealed that window design at the reading area in L.3 with WWR of 0.76,
WFR of 0.43 and headroom height of 4m allowed sufficient daylight transmittance.
However, users at this particular TDB complaint of too much daylighting within 7m
distance from the windows. Further parametric analyses revealed that at WWR of
0.5 achieved a close approximate of DF with WWR of 0.76. Therefore SLWD with
WWR of 0.5 can promote effective daylighting up to 3% of DF within 4m distance
from the windows in deep interior building such as libraries. |
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