A forty percent improvement on
turbine blade power production is huge.
Design decisions have turned on far less than that. Obviously this design protocol will be
adopted for turbines generally and plausibly the differential is sufficient to
justify refitting present systems were practical.
More likely though, with money
now going into tidal turbines, this system may make that industry work as that
most approaches the operating conditions experienced by the basking shark
Without question, taking power
from water flow needs to be carefully managed through design. The actual speeds are quite slow though the effective
reaction mass is large and compression is not a usable factor. Thus any disturbance in the flow design bleeds
of energy.
Filter feeding basking shark inspires more efficient hydroelectric
turbine
By Darren
Quick
00:03 February 7, 2011
Studying the bumpy protrusions on the fins of humpback whales has
already led to more efficient wind and tidal power turbines and now nature is once again the
source of inspiration for a new and more efficient hydroelectric turbine. The
latest source of biomimicry is the basking shark, which industrial design
student Anthony Reale has borrowed from to create "strait power," a
water-powered turbine generator that tests have shown is 40 percent more
efficient than current designs.
Despite being the second largest shark in the ocean, the basking shark
is generally considered harmless to humans as it is a filter feeder. It swims
with its mouth open to sift zooplankton, small fish and invertebrates from the
water before the water is expelled through extended gill slits that nearly
encircle its whole head. Although this flow of water assists in the shark’s
swimming, Reale recognized that the shape of the shark’s body also played an
important role.
With the basking shark’s jaw able to stretch up to 1.2 meter (3.9 ft)
in width, a pressure differential is created as the shark swims. As with the
wings of an airplane, the water pressure is greater along the straight bottom,
while the curved surface of the shark’s body increases the distance the water
has to travel, resulting in lower pressure across the shark’s top.
This pressure differential helps draw the water out of the basking
shark’s gills and allows the basking shark to be only filter feeder shark that
relies solely on the passive flow of water through its pharynx to feed. Other
filter feeder sharks, the whale shark and megamouth shark, assist the process
by suction or actively pumping water into their pharynxes.
With this in mind, Reale designed his ‘Strait Power’ turbine with a
double converging nozzle or an opening within an opening. The water enters the
turbine through the first opening and the second nozzle – like the shark’s
gills – compresses the water and creates a low-pressure zone to draw the water
through and generate more energy.
Reale came up with the design for his senior project at the College for
Creative Studies (CCS) in Detroit and recently had the opportunity to put it to
the test at the University of Michigan’s (UM) Marine Hydrodynamics Laboratory.
The UM researchers with whom Reale collaborated were interested as they had
been working on something similar to provide power for remote research camps in
Alaska
Subjected to 200 hours of testing in UM’s 100-yard-long (91 m),
22-foot-wide (6.7 m), 10-foot-deep (3 m) tow tank, Reale’s 900-pound (408 kg)
turbine model made mostly of wood, screwed together and sealed with marine
paint came out looking battered and bruised. But the results were promising
with the researchers saying the design improved the power output of a single
blade by around 40 percent – a figure that Reale expects to improve upon with
future versions.
Reale has filed a patent for the technology and has designed five
potential commercial uses of the Strait Power system ranging from a portable and
collapsible version for charging small electrical devices designed for outdoor
and military use, up to industrial versions with 10-foot (3 m) diameter blades
for powering high-power electrical generators of 40,000 watts and higher.
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