Principles of Illumination PDF

Summary

This document outlines the principles of illumination, including definitions, design considerations, and factors affecting illumination. It also discusses lighting units and calculations.

Full Transcript

PRINCIPLES OF
ILLUMINATION
Prepared By:
Engr. Christopher S. Dolino, MoE
 Definition of Terms
ILLUMINATION
Is define as the intensity of light per unit
area.
ELECTRIC ILLUMINATION
Is the production of light by means of
electricity and its application to provide
efficient, comfortable and safe vision.
 Lighting Design
Quantity of Light
Refers to the amount of illumination or
luminous flux per unit area.

Quality of Light
Refers to the distribution of brightness in
the lighting installation.
 Factors that affect Illumination

Brightness
is the light that seems to radiate from an the object
being viewed.
Contrast
Is the difference in brightness or the brightness ratio
between an object and its background.
Glare
Is a strong, steady, dazzling light or reflection.
Diffuseness
Refers to the control of shadows cast by light.
 ESTIMATING
ILLUMINATION AND
BRIGHTNESS
 Illuminance Meter Available

The comparator Type
Requires the operator to make a brightness
equivalence judgment between the target and
background.
The Direct Reading Type
Is basically an illumination meter equipped
with a hooded cell arranged to block oblique
light.
Accurate Laboratory Instrument
Is unsuitable for fieldwork.
 Units of Illumination

Footcandle (fc)
Is the amount of light flux density. It is the unit of
measure used when describing the amount of light in a
room and is expressed in lumens per square foot.
Footlambert (fl)
Is defined as the luminance of a surface reflecting,
transmitting or emitting one lumen (lm) of illumination
per square foot of area in the direction being viewed
or the conventional unit of brightness or luminance.
Formula:
 ILLUSTRATION 1

A 40-watt fluorescent lamp 120 centimeters
(48 in.) long produces 3,200 lumens of light in
a room having a general dimensions of 10 x 20
ft. Find the illumination on the floor.
Solution:
 Points to Remember

“In the absence of footcandle table of equivalent for a
particular fixture, a rule of thumb of 10-30-50
illumination level is applied.”

10 – footcandle is adequate for halls and corridors.
30 - foodcandle is sufficient for areas between work
stations such as in offices other than desk areas.
50 – footcandle is satisfactory on spaces where office
work is being done.
 ILLUSTRATION 2

From illustration 1, Find the luminance if the
reflectance factor of the wall is 40%.

Solution:
Footlambert = Footcandle x Reflectance factor
= 16 fc x 40%
= 6.4
 Lighting Units in Metric Measures

Note:
Lumens flux remains in Lumens; but
Illumination or light flux is expressed in Lux.

Thus
Table 1: Approximate Reflectance Factor
 Table 2: Table of Comparison

Millilambert – is more conveniently used than the lambert because
the value of lambert is greater than what usually
encountered.
 ILLUSTRATION 3

A 40 watts x 120 centimeters long fluorescent
lamp produces 3, 2000 lumens of light in a room
having a general dimension of 10ft. X 20ft.
Compute the illumination on the floor
comparing the English and the Metric units.
Solution by COMPARISON
Another Solution
 ILLUSTRATION 4

Compute the brightness of a fixture with a
1’ x 4’ plastic diffuser having a transmittance
of 0.6 and illuminated by 2 pcs. 3, 200 lumen
lamp assuming 100% use of light flux.
Solution:
 ILLUSTRATION 4

Compute the brightness of a fixture with a
1’ x 4’ plastic diffuser having a transmittance
of 0.6 and illuminated by 2 pcs. 3, 200 lumen
lamp assuming 100% use of light flux.
Solution:
 Coefficient of Utilization and
Maintenance Factor
Coefficient of Utilization (cu) - is a measure of
the efficiency of a luminaire in transferring
luminous energy to the working plane in a
particular area.
Maintenance Factor (mf) - The ratio of
illumination on a given area after a period of
time to the initial illumination on the same area;
used in lighting calculations to account for the
depreciation of lamps or reflective surfaces (or
the like).
Usable Initial footcandle – is equal to the
footcandle produced by the coefficient of
utilization (cu)
Table 3: Coefficient of Utilization
 ILLUSTRATION 5

A school classroom with general dimension of
24 x 30 feet is lighted with 10 fluorescent
lamp 4F 40 T12 WW rapid start lamp.
Calculate the initial and maintained
illumination in foot candle (English) and Lux
(Metric), assuming that the coefficient of
utilization (cu), is 0.35 and the maintenance
factor (mf) is 0.70.
 Solution 1 (English Measure)

Lamp lumens = 10 fixtures x 4 lamps per fixtures
= 40 x 3,200 lumens per lamp
= 128,000 lumens
Initial Foot Candle = Lumens x cu x mf
Area
 Solution 2 (By the Metric Measure SI)

Convert feet to meter : 24 ft. = 7.32 m.
30 ft. = 9.14 m.
 ILLUSTRATION 6

An office room with general dimension of 8 x 20 meters is to
be lighted at an average maintained foot candle of 50. How
many 3-lamp fixtures of 120 centimeters long F40 T12 WW
rapid start fluorescent lamps are required assuming 0.38 cu
and 0.75 mf?
Solution:
ILLUSTRATION 6
Table 6: Efficacy of various lamps
 ILLUSTRATION 7

An entire office floor is lighted at an average
maintained 538 lux or 50 fc. The floor
measures 20 meters by 50 meters and is
divided into bays measuring 4 m x 5 m. Using
2-lamp of F40 T12 CW rapid start preheat
lamp, find the number of fixtures required.
Assume an economy grade fixture with a low
cu of 0.35 and mf of 0.70.
 Solution 1

1. Solve for the number of fixtures per bay,
Refer to table 7.
for F40 T12 CW, Lumens = 3, 150

2.
Solution 2
Figure 1: Distribution of Lights per Bay
Fluorescent Lamp Data
Fluorescent Lamp Data
Thank You!