The razor clam has a long narrow shell, somewhat resembling an old-fashioned straight razor. The shells also have a sharp edge. The clam is hunted for food in exposed mudflats along the ocean shoreline. Its defense against people and predators is an impressive ability to burrow underground rapidly. They can dig downward at about one centimeter per second to a depth of 70 centimeters, or about 28 inches.
anchoring vessels, seafloor monitoring equipment, and underwater cables
Continue reading Razor Clam – Anchor
Thousands of wind turbines have been installed worldwide in recent years for the production of clean electric energy. Efforts continue to make the large turbines efficient and quiet. One successful modification of existing turbine blades is inspired by the stegosaur.
Continue reading stegosaurus plates for innovative wind-turbines
One of the smallest traps in the world is inspiring physicists in studies of fluids. Bladderworts are a type of plant that grows in standing water or wet soil, and sometimes in very rough conditions. A unique aspect of this plant is its underwater roots which include many microscopic bladder-like traps. The trap looks like a small bubble and is covered with tiny hairs and “trap-doors.” The plants capture tadpoles, protozoa, or even water fleas, depending upon the species. When the unsuspecting victim approaches the trap-door, it suddenly opens, sucks in the creature, and then shuts again, all in less than one-thousandth of a second. Bladderworts are among the smallest carnivorous plants in the world.
ultra thin pipettes
Continue reading ultra-small lab equipment based on Bladderworts roots
It has long been known that many climbing plants produce unusual tendrils for grasping and climbing. When stretched tightly, the spiral-shaped fibers do not unwind to a flat ribbon like a typical spring shape such as a telephone cord. Instead, when stretched, sections of the fiber coil further in two opposite directions, tightening and strengthening the fiber. This allows the plant to pull itself upward toward sunlight by grasping onto a branch or trellis.
machinery, robotics, and biomedicine
Continue reading bio-inspired spring to reach your tall targets
Many trees do not have vertical capillary tubes for transporting water upward. Instead, a spiral network of capillaries and fibers extend the entire length of the tree. This helical geometry strengthens the tree, allowing a greater flexibility or bending motion in high wind or during heavy weight loads. The spiral pattern is sometimes noticed on the surface of dead trees which have lost their bark.
less material useage
Continue reading The design of trees helps to reduce plastic waste
‘Nature demonstrates how maximum performance can be achieved with minimum energy consumption,’ a Festo spokesman said.
“The life-size bionic birds are hydrodynamic and can turn like real penguins because of the flexible glass fibre rods that control their heads.
Continue reading bionic penguin as diving robot
Wind turbines are the Colossus of the modern landscape, their blades sweeping circles more than a football field in diameter. Critics call them unsightly and say that the rotating blades clobber unsuspecting birds.
John Dabiri of Caltech found a solution underwater. He built an experimental wind farm — the Caltech Field Laboratory for Optimized Wind Energy (FLOWE) — in which the location of turbines relative to each other takes advantage of the air flow among them.
Continue reading shoals of fish will offer their secret for windfarms
The humpback whale has pronounced bumps or tubercles along the leading edge of its pectoral flippers (above left). A idealized model of the flipper (above upper right), which was tested in a wind tunnel, demonstrated that the tubercles enhanced hydrodynamic performance…
airblade, turbine, windmill
Continue reading walefin for optimized turbines