Poster:
Tuesday, 23 April 2013
Week 28
Progress:
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Cost Comparison
|
||||||
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Types of lighting sources
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Fluorescent tube
(Philips TLD 36W/ 54-765)
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Fluorescent tube
(Philips TLD 18W/ 54-765)
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CFL
(Philips E27)
|
LED
(Philips E27)
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LED (Generic - downlight)
|
LED (Generic - tube)
|
|
Purchase Price (RM)
|
2.80
|
4.50
|
13
|
45
|
30
|
68
|
|
Electricity Usage (Watt)
|
36
|
18
|
18
|
9
|
5
|
18
|
|
Starting Time (sec)
|
<5
|
<5
|
<5
|
instant
|
instant
|
instant
|
|
Lumens (lm)
|
2600
|
1030
|
1100
|
600
|
900
|
900
|
|
Lumens/Watt
|
72
|
57
|
61
|
67
|
100
|
100
|
|
Color Temperature (Kelvin)
|
6200
|
6200
|
6500
|
6500
|
3000
|
3000
|
|
Color Rendering Index
|
|
|
|
|
|
|
|
Lifespan (hrs)
|
13000
|
13000
|
8000
|
15000
|
25000
|
25000
|
|
Bulb Cost Over 10 years
(12 hours usage)
|
RM 9.43
|
RM 15.16
|
RM 71.18
|
RM 131.40
|
RM 52.56
|
RM 119.14
|
|
Energy Cost Over 10 years (21.8cents/kWhr)
|
RM
343.74
|
RM
171.87
|
RM
171.87
|
RM
85.94
|
RM
47.74
|
RM
171.87
|
|
Total
|
RM 353.17
|
RM 187.03
|
RM 243.05
|
RM 217.34
|
RM 100.30
|
RM 291.01
|
Week 27
Progress:
4.5 Limitations
of Using Compact Fluorescent lamp
4.5.1 On/Off Cycling
CFLs are sensitive to frequent on/off
cycling. their rated lifetimes of 10,000 hours are reduced in applications
where the light is switched on and off often.
4.5.2 Dimmers
Dimmable CFLs are available for lights
using a dimmer switch but not all CFLs can be used on dimmer switches. Using a
regular CFL with a dimmer can shorten the bulb lifespan.
4.5.3 Outdoor
Lighting
CFLs can be used outdoors but should be
covered or shaded from the elements. Low temperatures may reduce light levels.
4.5.4 Retail
Lighting
CFLs are not spot lights. Retail store
display lighting usually requires narrow focus beams for stronger spot
lighting. CFLs are better for area lighting.
4.5.5 Mercury
Content
CFLs contain small amounts of mercury
which is a toxic metal. This metal may be released if the bulb is broken or
during disposal. Mercury is a toxic metal associated with contamination of
water, fish and food supplies and can lead to adverse health effects. A CFL
bulb generally contains an average of 5mg of mercury. A power plant will emit
10mg of mercury to produce the electricity to run an incandescent bulb compared
to only 2.4mg of mercury to run a CFL for the same amount of time. The net
benefit of using the more energy efficient lamp is positive and this is
especially true if the mercury in the fluorescent lamp is kept out of the waste
stream when the lamp expires. The mercury in CFL poses no threat while in the
bulb but if its broken, one should open a window and leave the room for 15
minutes and more, use a wet rag to clean it up and put all of the pieces and
the rag into a plastic bag and lastly place all materials in a second sealed
plastic bag and call the nearest recycling center to see if they accept the
material.
Week 26
Progress:
4.4 Potential of
Using Compact Fluorescent lamp as the Lighting Source
4.4.1 Reduces
air and water pollution
Replacing a single incandescent bulb
with a CFL will keep a half-ton of CO2 out of the atmosphere over the life of
the bulb. Saving electricity reduces CO2 emissions, sulfur oxide and high level
nuclear waste.
4.4.2 High
quality light
Newer CFLs give a warm, inviting light
instead of the cool white light of older fluorescents. They use rare earth
phosphors for excellent color and warmth. New electronically ballasted CFLs do
not flicker or hum.
Week 25
Progress:
4.3
Characteristics of Compact Fluorescent lamp
Compact Fluorescent lamps (CFL) are
available in a variety of styles or shapes. Come have two, four or six tubes.
Older models and specialty models have separate tubes and ballasts. Some CFLs
have the tubes and ballast permanently connected. This allows you to change the
tubes without changing the ballast. Others have circular or spiral-shaped
tubes. In general, the size or total surface area of the tube determines how
much light the bulb produces.
4.3.1 Efficient
CFLs are four times more efficient and
last up to 10 times longer than incandescent. A 22 Watt CFL has about same
light output as a 100 Watt incandescent. CFLs uses 50-80% less energy than the incandescent.
4.3.2 Versatile
CFLs can be applied nearby anywhere that
incandescent lights are used. Energy efficient CFLs can be used in recessed
fixtures, table lamps, track lighting, ceiling fixtures and porch lights.
Week 24
Progress:
4.2 Potential of Using LED as the
Lighting Source
4.2.1 Wide Color Range
The
wavelength for the LED ranges from small to large scales. As LED have different
wavelength, by using a multiplexing technology to control RGB LED package, it
can generate a full color scales.
4.2.2 Small Size
The sizes of LEDs are small and it
can be arranged to any pattern for different applications. The sizes for the
LEDs are varying from the smallest Organic LED (OLED) of 1cm type. By such a
small package size, it gives a wide area for the lighting engineers to design
their own applications.
4.2.3 Easy to Control
LED operates at low voltage with DC
source. Hence, the lighting intensity can be easily driven digitally by using
high frequency pulse width modulation (PWM).
4.2.4 Mercury-free
There
is no mercury used in the manufacturing of LEDs.
4.2.5
Cost-effective
Although LEDs are initially expensive,
the cost is recouped over time and in battery savings. LED bulb use was first
adopted commercially where maintenance and replacement costs are expensive. The
costs of new LED bulb have gone down considerably in the last few years and are
continuing to go down. Today, there are many new LED light bulbs for use in ho
mans the cost is becoming less of an issue.
Week 23
Progress:
4.1.9 Lifespan / Durability
Since
LEDs do not have filament, they are not damaged under circumstances when a
regular incandescent bulb would be broken. Because they are solid, LED bulbs
hold up well to jarring and bumping. LED bulbs last up to 10 times as long as
compact fluorescents and far longer than typical incandescent.
Week 22
Progress:
4.1.5 Color Rendering Index (CRI)
Color Rendering Index represents he quality of light
and its faithfulness to render colors correctly that is to enable human to
perceive colors. The ideal CRI is 100 and some bulbs approach this level. LED
bulbs rating ranges from 70 to 95.
|
Light Source
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CRI Index
|
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Fluorescent Lamp
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52-95
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Incandescent Lamp
|
~100
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HID (mercury)
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15-55
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LED
|
0-80
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Table
4.2: CRI index for lighting devices
4.1.6 Correlated Color Temperature
(CCT)
Correlated
Color Temperature is the measure used to describe the relative color appearance
of a white light source. CCT indicates whether the light source appears more
yellow or gold or orange or more blue, in terms of the range of available
shades of white. CCT is given in Kelvin (unit of absolute temperature). 2700K
is Warm and 5000K is Cool.
4.1.7 Lumens
Lumen
is a unit of standard measurement that is used to describe the amount of light
contained in an area as perceived by the human eye. The more lumens, the
brighter the light.
4.1.8 Luminous Flux
Luminous
Flux is the flow of light measured in lumens. With light bulbs, it provides an
estimate of the apparent amount of light the bulb will produce. Depending on
the application, much of an incandescent light is wasted because it is emitted
in every direction. LED bulbs, on the other hand, put out directional light,
sending all of the light exactly where it is needed.
Week 21
Progress:
4.1.4
Dimming Options
Originally
LED lights could not be dimmed and would not work with standard dimmer
switches. However, many types of Led lighting including white and RGB strip
lights come in dimmable models that can be dimmed in two main ways; with LED
dimmer switches or using dimmable LED drivers and standard dimmer switches.
These two options offer smooth, seamless dimming from 0% to 100% brightness and
that means that anyone can install conventional dimmable LEDs or even dimmable
color-changing LEDs anywhere that they want LED lighting and the option to dim
it.
One of the benefits of dimmable LEDs
and LED dimmers are that they use a different dimming technology than most
traditional dimmers and they interact with LED technology itself in such a way
that dimming LEDs has absolutely no adverse impact on the life of lights. On
the other hand, dimming has little to no benefit in terms of decreased energy
consumption, unlike dimming incandescent bulbs which can cut their energy
usage. The other possible dimming methods for LED are by using high current
rheostat or by using the PWM to control dimming.
Week 20
Progress:
4.1.3 Efficiency
LED
light bulbs use only 2-17 Watts of electricity. LED bulbs used in fixtures
inside the home save electricity, remain cool and save money on replacement
costs since LED bulbs last so long. Small LED flashlight bulbs will extend
battery life 10 to 15 times longer than with incandescent bulbs.
LEDs
do not provide ultraviolet radiation and infrared radiation. The only loss for
LED is the heat loss. Industry experts expect continued improvement in light
output and cost effectiveness of LED lighting. LED manufacturers expect that
LED efficacy will ultimately be achieving a goal of 150 to 200 lumens per watt
in the future.
LEDs
also have favorable operating characteristics where the light do not require
any strike time which means it is instantly come on and off without effect of
lifetimes.
|
Light Source
|
Loss in
Radiation (%)
|
Heat Loss (%)
|
|
Incandescent Lamp
|
81-86
|
5-6
|
|
Fluorescent Lamp
|
30-32
|
44
|
|
HID (mercury)
|
62-65
|
16-22
|
|
LED
|
0-0.2
|
80-88
|
Table
4.1: Losses for different lighting devices
Week 18
Progress:
4.1.2 Working
Topology
LEDs
use solid state semiconductor technology similar to those used in modern
microprocessors. The parts of an LED are two semiconductor materials layered on
substrate and powered by a low direct-current voltage; electrons released from
the negative n-type layer combine with holes from the positive p-type. When
electron-hole pairs are combined, a photon of light is emitted from the active
layer. The semiconductor is often called a chip. The chips can be packaged in a
variety of optical refracting forms to enhance the light output. The most
common type has been the bullet-shape (T-1) that encases the chip in a 5mm
epoxy package. Current advances in chip packaging configurations now allow for
improved directional control of the light output, better thermal management and
overall flexibility in design of light fixtures.
Incandescent lamp creates light by
heating a thin filament to a high temperature above 2500 °C and then turns the
heat to the visible light. Hence, over 90% for the energy is transfer to the
invisible infrared light or heat.
To let the fluorescent lamp and the
halogen lamp glow up, the energy is used to produce ultraviolet light and then
the electricity is passed across the tube through the mercury vapor to make the
phosphor coating glow or fluorescent. Hence, the efficiency for the fluorescent
lamp will be decreased during the process of the generation of the ultraviolet
light and converting the ultraviolet light to the visible light.
The
working topology for LEDs is much simpler. The simplest topology is by using a
current limit resistor to control the current passing through the LEDs.
Developing the DC-DC converter with current regulation can make the power
circuit more reliable.
Week 17
Progress:
4.1.1
Power Consumption
LED
light bulbs use about half the wattage of fluorescent lighting, about 9 watts
of power versus 18 watts of power for a CFL light bulb. The highest efficiency
of LEDs that are available in the market can reach up to 100lumen/LED and 150lumen/LED
with forward voltage of 3.3V and forward current of 350mA produced by CREE and
Philips respectively. With these characteristics, the energy consumption for
LED lamp could be reduced by at least 50 percent compared to incandescent bulb
and up to 50 percent if compared with the fluorescent lamp at the same level of
luminous flux.
According to Audi, the first car
manufacture that uses LED as headlights, they stated that using LED as the low
beams to produce equal amount of light that can draw less current than the
traditional halogen or xenon bulbs. Typically, a high power high flux LED
required only 4V 700mA LVDC supply. By using the Audi A8 as the example, they
just used five LEDs for the low beams, which mean the power used is just around
14W. By comparing with the traditional D2s Xenon HID which needs 35W for the
low beam lamp, hence it shows that using LED can save up to 60% power than the
use of HID.
In this research, a 9W LED bulb was
compared with the 18W CFL and 36W fluorescent lamp. The bulbs were mounted on
the power meter that shows the power consumption by these lamps.
Week 16
Progress:
RESULT AND ANALYSIS
RESULT AND ANALYSIS
4.1 Characteristics of the LED lamp
LED lamps are used for both general and
special purpose lighting. Where colored light is needed, LEDs naturally
emitting many colors are available without filters. This improves the energy
efficiently over a white light source that generates all colors of light then
discards some of the visible energy in a filter.
White-light
LED lamps have longer life expectancy and higher efficiency than most other
lighting. LED sources are compact, which gives flexibility in designing
lighting fixtures and good control over the distribution of light with small
reflectors or lenses. Because of the small size of LEDS, control of the spatial
distribution of illumination is extremely flexible and the light output and
spatial distribution of a LED array can be controlled with no efficiency loss.
LED lamps have no glass tubes to break
and their internal parts are rigidly supported, making them resistant to
vibration and impact. With proper driver electronics design, an LED lamp can be
made dimmable over a wide range, there is no minimum current needed to sustain
lamp operation.
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