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Home Energy Magazine Online July/August 1999
trends
in energy
Cutting-Edge Blades Slash Fan Energy Use
 |
| The Gossamer Albatross features a specially designed propeller with
a true airfoil. |
 |
| The Gossamer Wind prototype fan features blades that follow the
design of the propeller; they move air more efficiently. |
|
| Figure 1. Measured performance of the fans at high speed. Only the
Emerson CF4852 was able to match the air flow performance of the 52-inch
Gossamer Wind prototype, and only at a considerable energy cost. |
| Table 1. Comparative Fan Performance and Efficiency
at Low Speed |
| Value |
Emerson CF705 |
Emerson CF4852 |
Hunter Summer Breeze |
52-inch Gossamer Wind Prototype |
| CFM |
1,040 |
1,000 |
1,860 |
1,910 |
| Watts |
10 |
8 |
9 |
9 |
| CFM/watt |
113 |
130 |
214 |
210 |
|
| Table 2. Comparative Fan Performance and Efficiency
at High Speed |
| Value |
Emerson CF705 |
Emerson CF4852 |
Hunter Summer Breeze |
52-inch Gossamer Wind Prototype |
| CFM |
3,110 |
6,060 |
5,340 |
6,470 |
| Watts |
50 |
93 |
75 |
50 |
| CFM/watt |
62 |
65 |
71 |
130 |
|
Contacts:
Guan H. Su
AeroVironment Incorporated
222 E Huntington Dr.
Monrovia, CA 91016
Tel:(626)357-9983; Fax:(626)359-9628
Web site: www.aerovironment.com
Danny Parker
Florida Solar Energy Center
1679 Clearlake Road
Cocoa, FL 32922
Tel:(407)638-1000; Fax:(407)638-1010
E-mail: dparker@fsec.ucf.edu
Web site: www.fsec.ucf.edu/~bdac/prototype/cfan.htm
Carlos Valencia
Catalina Lighting Industries
18191 NW 68th Ave.
Miami, FL 33015
Tel:(305)558-4777
Web site: www.catalinaltg.com |
|
Ceiling fans can be an efficient way to cool people
down in moderately warm weather. However, while they do create a breeze
on the body and lower skin temperature, their motors use electricity inefficiently
and also generate heat. Despite this, ceiling fans are here to stay--the
vast majority of homes have them. That's why there's a big need for more
efficient ceiling fans that use less energy and thus create less heat.
Researchers at the Florida Solar Energy Center
(FSEC) are aiming to meet that need. They have developed a ceiling fan
with efficient blades that are modeled on the same technology that allowed
a human-powered plane to fly across the English Channel. This fan can save
up to 50% in energy use over conventional ceiling fans. Called the Gossamer
Wind fan, it is set to hit the market in September.
Teamwork for New Technology
The Gossamer Wind fan got its start in the fall
of 1996, when FSEC researchers set out to improve three areas of current
ceiling fan design: the blades, the controls, and the motor. FSEC wanted
to see if a fan with better blades and a smaller motor could perform as
well as the best currently available ceiling fans--and also be more energy
efficient. The researchers wanted to achieve the maximum air flow (in CFM)
per input watt, while providing uniform air flow distribution throughout
the room and quiet operation.
For improving the fan blades, FSEC approached
AeroVironment Incorporated of Monrovia, California, inventors of the Gossamer
Albatross airplane. Based on their expertise in propeller blade design,
AeroVironment designed new blades with a true airfoil. The blades are tapered,
with the outer portion being narrower than the inner one. The taper provides
even loading (lift and thrust) across the width of the blade, so that the
fan is less prone to wobble. The blades provide roughly twice as much air-moving
efficiency as conventional flat blades. The design was optimized for fans
that run at 200 rpm.
FSEC put together two prototypes of the fan,
one with a 52-inch diameter, and another with a 64-inch diameter. Researchers
tested these prototypes against three leading flat-bladed fans. FSEC originally
wanted to use a smaller, more efficient motor, but because high-efficiency
motors are not readily available for commercial production, they gave the
Gossamer Wind fan a standard 50W fan motor with an efficiency of about
3% on low speed and 13% on high. (The low efficiency comes from the fact
that shaded-pole motors are very inefficient.) The Gossamer fans also have
a smaller motor than most flat-bladed fans, so they use less electricity
and generate less heat.
Passing the Test
FSEC tested the Gossamer Wind prototypes against
three flat-bladed fans: the Emerson CF705, the Emerson CF 4852, and the
Hunter Summer Breeze. The fans were tested in terms of air flow (m/sec),
power (W), and speed (rpm). The performance of the 52-inch Gossamer Wind
prototype is clearly superior to that of the flat-bladed fans (see Figure
1).
Because the Emerson CF705 and the 52-inch Gossamer
Wind prototype have the same size motor, the fact that the Gossamer outperformed
the Emerson was due solely to the efficiency of its propeller blades. The
air-moving efficiency of this motor was increased by 86% at low speed--nearly
doubling its overall performance.
The low-speed performance of the Hunter fan approaches
that of the Gossamer Wind prototype (see Table 1) because
the Hunter's highly pitched blades produce air flow that is highest toward
the edge of the blade tips, which encompasses a larger area.
At high speed, the Gossamer Wind prototype showed
an increase in air-moving efficiency of 110% relative to the Emerson CF705.
It also had the greatest total air flow--even more than the Emerson CF4852,
with a motor drawing 88% more power (see Table 2).
Buoyed by the success of these tests, AeroVironment
and FSEC soon began looking for a manufacturer. Catalina Lighting Industries
of Miami, Florida, agreed to manufacture the fans and began negotiations
with Home Depot to carry them in its stores nationwide. They will be the
most energy-efficient fans on the market. The basic model will sell for
roughly $60 to $70, about the same as other, similar ceiling fans. More
advanced models with special features will sell for as much as $200.
Special Features
Advanced models of the Gossamer Wind fan will have
several different special features. One is an energy-efficient light kit
that can provide up to 12,000 hours of superior lighting without a lamp
change. FSEC adapted a 20W Circline fluorescent lamp (Lights of America:
2620C-MPF) to fit within the standard lens of the light kit housing. Six
J-type, 100W R7S incandescent lamps would have to be replaced over the
same time period. This light kit can reduce associated energy use by 80%,
saving approximately $10 per year and reducing the frequency with which
bulbs must be changed by 83%.
Another special feature is the 360° infrared
motion sensor control, which automatically activates the fan when anyone
enters a room and turns it off when occupants are gone. The control is
sensitive to time as well as motion, and also has an override switch.
One feature that consumers sometimes look for
in fans is a reverse switch that allows air to be pulled up; this feature
is not available in the Gossamer Wind fan. Patents for both the ceiling
fan blade and the automatic control system are pending.
FSEC researchers Danny Parker and Michael Callahan
contributed to this article.
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