Explanation : Nuclear Submarines

Posted by Roz | Saturday, November 29, 2008 | , | 0 comments »

A nuclear submarine is a submarine powered by nuclear reactor technology. Previously, conventional submarines used diesel engines that required air for combustion while travelling on the surface of the water, but used battery-powered electric motors while diving. The limited lifetime of electric batteries meant that even the most advanced conventional submarine could only remain submerged for a few days at slow speed, and only a few hours at top speed. Nuclear submarines consume a relatively small amount of fuel. Current generations of nuclear submarines never need to be refueled throughout their 25-year lifespans, meaning they can sail around the world 41 times without surfacing.This ability, combined with advanced weapons technology, makes nuclear submarines some of the most useful warships ever built.

The main difference between conventional submarines and nuclear submarines is the power generation system. Nuclear submarines deploy nuclear reactors for this task. They either generate electricity that powers electric motors connected to the propeller shaft or rely on the reactor heat to produce steam that drives steam turbines (cf. nuclear marine propulsion). Reactors used in submarines typically use highly enriched fuel (often greater than 20%) to enable them to deliver a large amount of energy from a smaller reactor.

Nuclear Submarines WorkPicture Courtesy Encarta (encarta.msn.com)

The nuclear reactor also supplies energy to the submarine's other subsystems, such as for maintenance of air quality, fresh water production by distilling salt water from the ocean, temperature regulation, etc. All underway Navy nuclear reactors are operated with diesel generators as a backup power system. These engines are able to provide emergency electrical power for reactor decay heat removal as well as enough electric power to supply an emergency propulsion mechanism. Submarines may carry nuclear fuel for up to 30 years of operation. The only resource that limits the time underwater is the food supply for the crew.


How Submarines Work

Submarines are incredible pieces of technology. Not so long ago, a naval force worked entirely above the water; with the addition of the s­ubmarine to the standard naval arsenal, the world below the surface became a battleground as well.

The adaptations and inventions that allow sailors to not only fight a battle, but also live for months or even years underwater are some of the most brilliant developments in military history.

In this article, you will see how a submarine dives and surfaces in the water, how life support is maintained, how the submarine gets its power, how a submarine finds its way in the deep ocean and how submarines might be rescued.

Diving and Surfacing

SubmarinesA submarine or a ship can float because the weight of water that it displaces is equal to the­ weight of the ship. This displacement of water creates an upward force called the buoyant force and acts opposite to gravity, which would pull the ship down. Unlike a ship, a submarine can control its buoyancy, thus allowing it to sink and surface at will.

To control its buoyancy, the submarine has ballast tanks and auxiliary, or trim tanks, that can be alternately filled with water or air. When the submarine is on the surface, the ballast tanks are filled with air and the submarine's overall density is less than that of the surrounding water. As the submarine dives, the ballast tanks are flooded with water and the air in the ballast tanks is vented from the submarine until its overall density is greater than the surrounding water and the submarine begins to sink (negative buoyancy). A supply of compressed air is maintained aboard the submarine in air flasks for life support and for use with the ballast tanks. In addition, the submarine has movable sets of short "wings" called hydroplanes on the stern (back) that help to control the angle of the dive. The hydroplanes are angled so that water moves over the stern, which forces the stern upward; therefore, the submarine is angled downward.

Buoyancy in a submarine.
Click on the Surface and Submerge
buttons to watch buoyancy in action.

To keep the submarine level at any set depth, the submarine maintains a balance of air and water in the trim tanks so that its overall density is equal to the surrounding water (neutral buoyancy). When the submarine reaches its cruising depth, the hydroplanes are leveled so that the submarine travels level through the water. Water is also forced between the bow and stern trim tanks to keep the sub level. The submarine can steer in the water by using the tail rudder to turn starboard (right) or port (left) and the hydroplanes to control the fore-aft angle of the submarine. In addition, some submarines are equipped with a retractable secondary propulsion motor that can swivel 360 degrees.

When the submarine surfaces, compressed air flows from the air flasks into the ballast tanks and the water is forced out of the submarine until its overall density is less than the surrounding water (positive buoyancy) and the submarine rises. The hydroplanes are angled so that water moves up over the stern, which forces the stern downward; therefore, the submarine is angled upward. In an emergency, the ballast tanks can be filled quickly with high-pressure air to take the submarine to the surface very rapidly.

Life Support

There are three main problems of life support in the closed environment of submarine:
  1. Maintaining the air quality
  2. Maintaining a fresh water supply
  3. Maintaining temperature
* Maintaining the Air Quality
The air we breathe is made up of significant quantities of four gases:
  • Nitrogen (78 percent)
  • Oxygen (21 percent)
  • Argon (0.94 percent)
  • Carbon dioxide (0.04 percent)
When we breathe in air, our bodies consume its oxygen and convert it to carbon dioxide. Exhaled air contains about 4.5 percent carbon dioxide. Our bodies do not do anything with nitrogen or argon. A submarine is a sealed container that contains people and a limited supply of air. There are three things that must happen in order to keep air in a submarine breathable:
  • Oxygen has to be replenished as it is consumed. If the percentage of oxygen in the air falls too low, a person suffocates.
  • Carbon dioxide must be removed from the air. As the concentration of carbon dioxide rises, it becomes a toxin.
  • The moisture that we exhale in our breath must be removed.
Oxygen is supplied either from pressurized tanks, an oxygen generator (which can form oxygen from the electrolysis of water) or some sort of "oxygen canister" that releases oxygen by a very hot chemical reaction. (You may remember these canisters because of their problems on the MIR space station -- see this page for details). Oxygen is either released continuously by a computerized system that senses the percentage of oxygen in the air, or it is released in batches periodically through the day.

Carbon dioxide can be removed from the air chemically using soda lime (sodium hydroxide and calcium hydroxide) in devices called scrubbers. The carbon dioxide is trapped in the soda lime by a chemical reaction and removed from the air. Other similar reactions can accomplish the same goal.

The moisture can be removed by a dehumidifier or by chemicals. This prevents it from condensing on the walls and equipment inside the ship.

In addition, other gases such as carbon monoxide or hydrogen, which are generated by equipment and cigarette smoke, can be removed by burners. Finally, filters are used to remove particulates, dirt and dust from the air.

* Maintaining a Fresh Water Supply
Most submarines have a distillation apparatus that can take in seawater and produce fresh water. The distillation plant heats the seawater to water vapor, which removes the salts, and then cools the water vapor into a collecting tank of fresh water. The distillation plant on some submarines can produce 10,000 to 40,000 gallons (38,000 - 150,000 liters) of fresh water per day. This water is used mainly for cooling electronic equipment (such as computers and navigation equipment) and for supporting the crew (for example, drinking, cooking and personal hygiene).

* Maintaining Temperature
The temperature of the ocean surrounding the submarine is typically 39 degrees Fahrenheit (4 degrees Celsius). The metal of the submarine conducts internal heat to the surrounding water. So, submarines must be electrically heated to maintain a comfortable temperature for the crew. The electrical power for the heaters comes from the nuclear reactor, diesel engine, or batteries (emergency).

Power Supply

­Nuclear submarines use nuclear reactors, steam turbines and reduction ge­aring to drive the main propeller shaft, which provides the forward and reverse thrust in the water (an electric motor drives the same shaft when docking or in an emergency).

Submarines also need electric power to operate the equipment on board. To supply this power, submarines are equipped with diesel engines that burn fuel and/or nuclear reactors that use nuclear fission. Submarines also have batteries to supply electrical power. Electrical equipment is often run off the batteries and power from the diesel engine or nuclear reactor is used to charge the batteries. In cases of emergency, the batteries may be the only source of electrical power to run the submarine.

A diesel submarine is a very good example of a hybrid vehicle. Most diesel subs have two or more diesel engines. The diesel engines can run propellers or they can run generators that recharge a very large battery bank. Or they can work in combination, one engine driving a propeller and the other driving a generator. The sub must surface (or cruise just below the surface using a snorkel) to run the diesel engines. Once the batteries are fully charged, the sub can head underwater. The batteries power electric motors driving the propellers. Battery operation is the only way a diesel sub can actually submerge. The limits of battery technology severely constrain the amount of time a diesel sub can stay underwater.

Because of these limitations of batteries, it was recognized that nuclear power in a submarine provided a huge benefit. Nuclear generators need no oxygen, so a nuclear sub can stay underwater for weeks at a time. Also, because nuclear fuel lasts much longer than diesel fuel (years), a nuclear submarine does not have to come to the surface or to a port to refuel and can stay at sea longer.

Nuclear subs and aircraft carriers are powered by nuclear reactors that are nearly identical to the reactors used in commercial power plants. The reactor produces heat to generate steam to drive a steam turbine. The turbine in a ship directly drives the propellers, as well as electrical generators. The two major differences between commercial reactors and reactors in nuclear ships are:
  • The reactor in a nuclear ship is smaller.
  • The reactor in a nuclear ship uses highly enriched fuel to allow it to deliver a large amount of energy from a smaller reactor.
Navigation

­Light does not penetrate very far into the ocean, so submarines must nav­igate through the water virtually blind. However, submarines are equipped with navigational charts and sophisticated navigational equipment. When on the surface, a sophisticated global positioning system (GPS) accurately determines latitude and longitude, but this system cannot work when the submarine is submerged. Underwater, the submarine uses inertial guidance systems (electric, mechanical) that keep track of the ship's motion from a fixed starting point by using gyroscopes. The inertial guidance systems are accurate to 150 hours of operation and must be realigned by other surface-dependent navigational systems (GPS, radio, radar, satellite). With these systems onboard, a submarine can be accurately navigated and be within a hundred feet of its intended course.

Sonar station onboardPhoto courtesy U.S. Department of Defense
Sonar station onboard the USS La Jolla nuclear-powered attack submarine

To locate a target, a submarine uses active and passive SONAR (Sound Navigation and Ranging). Active sonar emits pulses of sound waves that travel through the water, reflect off the target and return to the ship. By knowing the speed of sound in water and the time for the sound wave to travel to the target and back, the computers can quickly calculate distance between the submarine and the target. Whales, dolphins and bats use the same technique for locating prey (echolocation). Passive sonar involves listening to sounds generated by the target. Sonar systems can also be used to realign inertial navigation systems by identifying known ocean floor features .

Rescue

­­W­hen a submarine goes down because of a collision with something (such as another vessel, canyon wall or mine) or an onboard explosion, the crew will radio a distress call or launch a buoy that will transmit a distress call and the submarine's location. Depending upon the circumstances of the disaster, the nuclear reactors will shut down and the submarine may be on battery power alone.

If this is the case, then the crew of the submarine have four primary dangers facing them:
  1. Flooding of the submarine must be contained and minimized.
  2. Oxygen use must be minimized so that the available oxygen supply can hold out long enough for possible rescue attempts.
  3. Carbon dioxide levels will rise and could produce dangerous, toxic effects.
  4. If the batteries run out, then the heating systems will fail and the temperature of the submarine will fall.
­Rescue attempts from the surface must occur quickly, usually within 48 hours of the accident. Attempts will typically involve trying to get some type of rescue vehicle down to remove the crew, or to attach some type of device to raise the submarine from the sea floor. Rescue vehicles include mini-submarines called Deep-Submergence Rescue Vehicles (DSRV) and diving bells.

DSRV secured to the deck of a submarinePhoto courtesy U.S. Department of Defense
DSRV secured to the deck of a submarine


The DSRV can travel independently to the downed submarine, latch onto the submarine over a hatch (escape trunk), create an airtight seal so that the hatch can be opened, and load up to 24 crew members. A diving bell is typically lowered from a support ship down to the submarine, where a similar operation occurs.

To raise the submarine, typically after the crew has been extracted, pontoons may be placed around the submarine and inflated to float it to the surface. Important factors in the success of a rescue operation include the depth of the downed submarine, the terrain of the sea floor, the currents in the vicinity of the downed submarine, the angle of the submarine, and the sea and weather conditions at the surface.


Sources :
  1. HowStuffWorks.com : How Submarines Work
  2. Wikipedia : Nuclear Submarine

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Speedy Tour d’Indonesia 2008

Posted by Roz | Sunday, November 23, 2008 | , , | 0 comments »

After not held in 2007, the international bicycle racing Speedy Tour d'Indonesia 2008 held back again, through 12 stages with 1,793 km start from Jakarta and finish in Bali on 23 November to 5 December 2008.

This most prestigious Bicycle racing in Indonesia held on the cooperation between Sport Bike Association of Indonesia (PB ISSI) and PT. Telekomunikasi Indonesia Tbk (Telkom). This event will be followed by 10 teams from abroad and 10 teams from Indonesia.


This international race have prizes total US $100,000. The route will be taken by the drivers is :

  1. Stage 1 : Jakarta Kreterium (80km).
  2. Stage 2 : Bandung-Cirebon (145km).
  3. Stage 3 : Cirebon-Purwokerto (193km).
  4. Stage 4 : Purwokerto-Semarang (221km).
  5. Stage 5 : Semarang- Yogyakarta (146km) and rest one day (Yogyakarta).
  6. Stage 6 : Yogyakarta-Madiun (196km).
  7. Stage 7 : Madiun-Surabaya (164km).
  8. Stage 8 : Surabaya Kreterium (80km).
  9. Stage 9 : Probolinggo-Banyuwangi (120km).
  10. Stage 10 : Gilimanuk-Candi Dasa (163km).
  11. Stage 11 : Candi Dasa-Denpasar (135km)
  12. Stage 12 : Kuta Kreterium (80km).

Sources :
  1. Antara : Tour d`Indonesia Tempuh Jarak Jakarta-Bali
  2. Kompas.com : Peserta Tour d Indonesia Digenapkan Jadi 20 Tim

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PSA Peugeot Citroen Quark - Hybrid Vehicle

Posted by Roz | Thursday, November 20, 2008 | | 0 comments »

The PSA Peugeot Citroen Quark looks to be a combination motorcycle, car and ATV all wrapped up into one high-tech hydrogen vehicle. When the two-seater was rolled out during the 2004 Paris Motor Show, Quark received much attention for its futuristic design.

PSA Peugeot Citroen Quark

The PSA Peugeot Citroen Quark is a hybrid vehicle in that it mainly runs on electric current from its battery, which is supplemented by power generated by the hydrogen fuel cell (1.5 kw) that was manufactured by Swiss manufacturer MES-DEA. The Nickel Metal Hydride (NiMH) battery is actually a series of 40 batteries that generate a cumulative total of 288 volts. The Quark uses a combination of regenerative braking common to hybrids and mechanical braking.

With the Quark, Peugeot has switched air-cooling the fuel cell system rather than the older system that was cooled by water. This allows a more compact design and for the fuel cell to be start in sub-zero temperatures.

The Quark is powered by four electric motors (combined power of 28kW), one for each wheel and has a 9-litre tank that stores the hydrogen at 10,000 psi. The driving range of the Quark is approximately 60 miles before a refuel is needed. Then, its just a matter of swapping out tanks that only takes a minute or so to complete.

Peugeot is focusing on this market segment in order to bring a hydrogen production vehicle to market more quickly than its competitors.


Sources :
Hydrogencarsnow.com : PSA Peugeot Citroen Quark

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By Michael White and James Callan

Nov. 16 (Bloomberg) -- The James Bond thriller "Quantum of Solace'' opened in first place in U.S. and Canadian theaters with ticket sales of $70.4 million for Sony Corp. and Metro- Goldwyn-Mayer Inc., the best-ever debut for the spy franchise.

"Quantum of Solace'' is the second Bond movie to star Daniel Craig as the British super spy and its sales highlight the popularity of edgier updates to aging movie franchises. "Quantum of Solace'' surpassed 2006's "Casino Royale,'' which debuted with $40.8 million in receipts. "Quantum,'' which has premiered abroad already, has made more than $231 million in worldwide sales, according to researcher Box Office Mojo LLC.

"The numbers are amazing,'' said Paul Dergarabedian, president of Media By Numbers, in an interview."'Casino Royale' ushered in a whole new era of Bond and 'Quantum of Solace' definitely capitalized on that. The re-imaging of the franchise has really worked.''

In "Quantum,'' Bond -- played by Daniel Craig -- seeks to unravel the conspiracy that led to the death of his love, Vesper Lynd, in "Casino Royale.'' In both films, the producers did away with the campy one-liners featured in earlier Bond movies, along with the focus on gadgets designed to aid Bond on his missions.

Judi Dench returns in "Quantum" as British intelligence chief "M." Gemma Arterton and Olga Kurylenko co-star.

The following table has figures provided by studios to Media By Numbers. The amounts are based on gross ticket sales from Nov. 21, yesterday and estimates for today.


Movie                 Rev.  Theaters  Wks   Avg./    Pct. Total
(mln) Theater Chg. (mln)

1. Quantum Solace $70.4 3,451 1 $20,400 -- $70.4
2. Madagascar 2 36.1 4,065 2 8,888 -43 118
3. Role Models 11.7 2,798 2 4,185 -39 38.1
4. High School 3 5.88 3,202 4 1,836 -36 84.4
5. Changeling 4.25 1,896 4 2,240 -41 27.6
6. Zack and Miri 3.2 2,210 3 1,448 -49 26.5
7. Soul Men 2.43 2,048 2 1,186 -55 9.4
8. Life of Bees 2.4 1,149 5 1,656 -22 33.6
9. Saw V 1.79 2,002 4 894 -56 55.4
10. Molly Hartley 1.65 1,587 3 1,039 -50 12.7

Sources :
  1. 'Quantum of Solace' Is Top Film, Makes $70.4 Million (Update1)

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James Bond 007 Actors (Daniel Craig)

Posted by Roz | Saturday, November 15, 2008 | , | 0 comments »

The 21st James Bond film, following 2002's Die Another Day. Released November 2006.

Directed by Martin Campbell; screenplay by Neal Purvis and Robert Wade, doctored by Paul Haggis. Starring Daniel Craig as James Bond, Eva Green as Vesper Lynd, Mads Mikkelsen as Le Chiffre and Jeffrey Wright as Felix Leiter. Also with Giancarlo Giannini, Caterina Murino, Simon Abkarian, Tobias Menzies. Theme song by Chris Cornell.


The 22nd James Bond film, following 2006's Casino Royale. UK release October 2008.

Directed by Marc Forster; screenplay by Paul Haggis, Neal Purvis and Robert Wade.
Starring Daniel Craig as James Bond, Mathieu Amalric, Olga Kurylenko, Gemma Arterton, Jeffrey Wright, Giancarlo Giannini, Jesper Christensen.

Source :

  1. Daniel Craig

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