Blu-ray (not Blue-ray) also known as Blu-ray Disc (BD), is the
name of a new optical disc format jointly developed by the
Blu-ray Disc Association (BDA), a group of the world's leading
consumer electronics, personal computer and media manufacturers
(including Apple, Dell, Hitachi, HP, JVC, LG, Mitsubishi, Panasonic,
Pioneer, Philips, Samsung, Sharp, Sony, TDK and Thomson).
The format was developed to enable recording, rewriting and playback
of high-definition video (HD), as well as storing large
amounts of data. The format offers more than five times the storage
capacity of traditional DVDs and can hold up to 25GB on a
single-layer disc and 50GB on a dual-layer disc. This extra capacity
combined with the use of advanced video and audio codecs
will offer consumers an unprecedented HD experience.
While current optical disc technologies such as DVD, DVD±R, DVD±RW, and
DVD-RAM rely on a red laser to read and
write data, the new format uses a blue-violet laser instead, hence
the name Blu-ray. Despite the different type of lasers used,
Blu-ray products can easily be made backwards compatible with CDs and
DVDs through the use of a BD/DVD/CD compatible optical
pickup unit. The benefit of using a blue-violet laser (405nm) is that
it has a shorter wavelength than a red laser (650nm),
which makes it possible to focus the laser spot with even greater
precision. This allows data to be packed more tightly and
stored in less space, so it's possible to fit more data on the disc
even though it's the same size as a CD/DVD. This together
with the change of numerical aperture to 0.85 is what enables Blu-ray
Discs to hold 25GB/50GB. Recent development by Pioneer
has pushed the storage capacity to 500GB on a single disc by using 20 layers.
Blu-ray is currently supported by about 200 of the world's leading
consumer electronics, personal computer, recording media,
video game and music companies. The format also has support from all
Hollywood studios and countless smaller studios as
a successor to today's DVD format.
Many studios have also announced that they will begin releasing new
feature films on Blu-ray Disc day-and-date with DVD, as well
as a continuous slate of catalog titles every month.
For more information about Blu-ray movies, check out our Blu-ray movies and Blu-ray reviews
section which offers information about new and upcoming Blu-ray
releases, as well as what movies are currently available in the Blu-ray
format.
The tide moves a huge amount of water twice each day, and harnessing it could provide a great deal of energy - around 20% of Britain's needs.
Although the energy supply is reliable and plentiful, converting it into useful electrical power is not easy.
There are eight main sites around Britain where tidal power stations could usefully be built, including the Severn, Dee, Solway and Humber estuaries. Only around 20 sites in the world have been identified as possible tidal power stations.
A few years ago, "tidal power" meant "tidal barrage", but these days there are other options as well.
How It Works - Tidal Barrages
These work rather like a hydro-electric scheme, except that the dam is much bigger.
A huge dam (called a "barrage") is built across a river estuary. When the tide goes in and out, the water flows through tunnels in the dam.
The ebb and flow of the tides can be used to turn a turbine, or it can be used to push air through a pipe, which then turns a turbine. Large lock gates, like the ones used on canals, allow ships to pass.
If one was built across the Severn Estuary, the tides at Weston-super-Mare would not go out nearly as far - there'd be water to play in for most of the time.
But the Severn Estuary carries sewage and other wastes from many places (e.g. Bristol & Gloucester) out to sea. A tidal barrage would mean that this stuff would hang around Weston-super-Mare an awful lot longer!
Also, if you're one of the 80,000+ birds that feeds on the exposed mud flats when the tide goes out, then you have a problem, because the tide won't be going out properly any more.
More
The largest tidal power station in the world (and the only one in Europe) is in the Rance estuary in northern France, near St. Malo. It was built in 1966.
A major drawback of tidal power stations is that they can only generate when the tide is flowing in or out - in other words, only for 10 hours each day. However, tides are totally predictable, so we can plan to have other power stations generating at those times when the tidal station is out of action.
There have been plans for a "Severn Barrage" from Brean Down in Somerset to Lavernock Point in Wales. Every now and again the idea gets proposed, but nothing has been built yet.
It would cost at least £15 billion to build, but other figures about the project seem to vary depending on where you look. For example, one source says the Severn Barrage would provide over 8,000 Megawatts of power (that's over 12 nuclear power station's worth), another says it would be equivalent to 3 nuclear power stations. The variation in the numbers is because there are several different Severn Barrage projects being proposed, so be careful about which numbers you quote if you're a student researching this topic.
There would be a number of benefits, including protecting a large stretch of coastline against damage from high storm tides, and providing a ready-made road bridge. However, the drastic changes to the currents in the estuary could have huge effects on the ecosystem, and huge numbers of birds that feed on the mud flats in the estuary when the tide goes out would have nowhere to feed.
Another option is to use offshore turbines, rather like an underwater wind farm.
This has the advantage of being much cheaper to build, and does not have the environmental problems that a tidal barrage would bring.
The University of Wales Swansea and partners are also researching techniques to extract electrical energy from flowing water.
The "Swanturbines" design is different to other devices in a number of ways. The most significant is that it is direct drive, where the blades are connected directly to the electrical generator without a gearbox between. This is more efficient and there is no gearbox to go wrong. Another difference is that it uses a "gravity base", a large concrete block to hold it to the seabed, rather than drilling into the seabed. Finally, the blades are fixed pitch, rather than actively controlled, this is again to design out components that could be unreliable.
December 2008: A "Tidal Reef" across the Severn Estuary is being proposed
At first glance this looks like a tidal barrage, but this design does not block the water movement as much, so it wouldn't affect the tides as severely and the environmental consequences would be much less. It could be built in sections, so power could start being generated sooner.
Migratory fish could get through, mud flats could still be exposed at low tide, and it would be able to generate power for more hours in the tidal cycle. Sections of it would open to allow shipping through, and it could be used to control tidal levels further upstream, for example preventing storm surges from flooding low-lying land. (Author's note - I live on low-lying land near the Severn Estuary, so I'm quite keen on this!)
Tidal barrages have been built before, whereas this idea is untested - so it'll be interesting to see if it gets approved.
Advantages
Once you've built it, tidal power is free.
It produces no greenhouse gases or other waste.
It needs no fuel.
It produces electricity reliably.
Not expensive to maintain.
Tides are totally predictable.
Offshore turbines and vertical-axis turbines are not ruinously expensive to build and do not have a large environmental impact.
Disadvantages
A barrage across an estuary is very expensive to build, and affects a very wide area - the environment is changed for many miles upstream and downstream. Many birds rely on the tide uncovering the mud flats so that they can feed. Fish can't migrate, unless "fish ladders" are installed.
Only provides power for around 10 hours each day, when the tide is actually moving in or out.
There are few suitable sites for tidal barrages
Is it renewable?
Tidal energy isrenewable. The tides will continue to ebb and flow, and the energy is there for the taking.