14 DAY TRIAL // Energy, in its various forms, is all around us. We have been the most intelligent beings on the planet for around 80,000 years, yet only about two centuries ago we started to need vast amounts of energy, to power up big and small devices that our imagination came up with. And since we rely on one particular form of energy for our entire civilization, electricity, we needed ways of producing it.
We have already started on the wrong foot by depleting the natural resources that our planet created in millions of years. Now, we are desperately trying to find new technologies in order to avoid self-destruction.
The energy of moving water has been exploited for centuries. In Imperial Rome, water powered mills produced flour from grain, and in China and the rest of the Far East, hydraulically operated "pot wheel" pumps raised water into irrigation canals. In the 1830s, at the peak of the canal-building era, hydropower was used to transport barge traffic up and down steep hills using inclined plane railroads.
Direct mechanical power transmission required that industries using hydropower had to be located near the waterfall prior to the widespread availability of commercial electric power and modern hydroelectric power plants still require a dam or a reservoir to operate.
Bourne Energy, an energy research and development company based in California, has developed a novel hydropower technology that does not require either of the two to produce power.
It does not stop or slow natural processes - fish migration, sedimentation and biological processes and it does not prevent other uses of the river - commercial and private marine traffic.
Bourne's river power system is a 20-foot long self-contained energy module composed of a stabilizer, energy absorber, energy transmission, mooring system and energy conversion and control system designed to be sited in-river in long arrays. The concept behind the RiverStar is to harvest hydropower along the entire length of a river instead of harnessing energy in one massive site using a dam and reservoir.
The system can be applied to each river's environment, culture and commercial activities as seamlessly and invisibly as possible thus opening up vast untapped amounts of hydropower worldwide.
In highly industrialized and populated river sites, RiverStar can blend in as small islands, sand bars and rocky embankments. And it can be modified to appear as visually acceptable structures that offer dual use such as docks, small boat marinas, wharfs, floating offices, restaurants and school buildings that produce power from river currents below the surface and solar or wind power on the roof.
In rural sites, vast numbers of arrays of RiverStar modules can be seeded across rivers. Farmers around the country who already grow corn for ethanol and soybeans for biodiesel and lease their land to wind farms may soon harvest the power of rivers that border their property.
Bourne's Developing World version is composed of several modified RiverStar units that can be towed up river or trucked in to a hydro-site and quickly set up to produce the electricity for a rural village during the day and evening and then shift, using its integrated watermaker to fill the freshwater tanks of the village during the night. It can also be used to help in irrigating crops as well double as an emergency flood pumping system.
Today, hydropower is the world's major renewable energy, producing 20% (about 715 GWe) of global electricity. To clarify this, they have an installed electrical capacity of about 800 Gwe. It is also our least expensive energy having an average cost of 2-5 cents/kWh. But only 4% of the world's gross hydropower potential has been developed.