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Sabtu, 18 Desember 2010

Oriental Hornet Using Solar Energy

Sabtu, 18 Desember 2010
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Again, after checking hot thread in "kaskus.us" i found something interesting. the tittle said "a bee change solar energy to their energy". So i searching more abaout it to fulfill my curiosity, then i write it here in my blog. here they are:

The Oriental hornet has a unique ability to harvest solar energy, scientists have discovered.



The large wasp species has a special structure in its abdomen that traps the sun's rays, and a special pigment that harvests the energy they contain.

The discovery helps explain why these hornets have a large yellow stripe across their body and why they become more active as the day gets hotter.

It also changes our understanding of how insect metabolism can work.

"Xanthopterin works as a light harvesting molecule transforming light into electrical energy", Entomologist Dr Marian Plotkin

The discovery, reported in the journal Naturwissenschaften, was made by a team of researchers working in Israel and the UK, led by Dr Marian Plotkin of Tel-Aviv University.

Wasps are usually most active in the early morning, when they are around twice as active as at any other point in the day.

Oriental hornets (Vespa orientalis), which range from the Near East to India, are most active in the middle of the day.

Scientists have also long observed that Oriental hornet workers, which dig out nests underground, correlate their digging activity with the intensity of sunlight.

However, it was unclear why these Oriental hornets behave in this way.

That was until one biologist, the late Professor Jacob S Ishay, proposed that the insects may somehow be capable of harvesting solar radiation.

Dr Plotkin's team has now tested this hypothesis, with remarkable results.

Using an atomic force microscope, they examined the fine structure of the hornet's cuticle, hard layers of which form the insect's outer body, or exoskeleton.

The part of the cuticle coloured brown is made from an array of grooves, with a height of just 160 nanometres.

The structure of the yellow part of the hornet's body is different.

This is made from a series of oval-shaped protrusions, each containing a pinhole-sized depression. Each protrusion is just 50nm tall and interlocks with another.

Further tests revealed what these structures do.

Essentially, say the researchers, they stop light being reflected off the hornet's body. Instead the light is trapped, and harvested for energy.
Oriental hornet (image: Dûrzan Cîrano)
The yellow pigment harvests light

The brown part of the insect's body has the best anti-reflectance properties, helping to split any sunlight that falls upon it into several beams travelling in different directions.

The cuticle also contains a second thin sheet-like structure, with a series of sheets stacked on top of each other, with decreasing thickness from top to bottom.

Stacked together in every layer are rod-like structures composed of chains of a polymer called chitin. These rods are embedded in a protein matrix.

This intricate structure further serves to trap light within the cuticle, forcing it to bounce between different layers.

Capturing the sun

But the ability of the hornets to harvest solar energy does not stop there.

Within this cuticle is a pigment that actually captures the energy of the sun's rays.

"The pigment melanin gives the hornet its dominant brown colour. The pigment xanthopterin, in the head and abdomen in a form of stripes and bands, gives the Oriental hornet its bright yellow colour," explains Dr Plotkin.
Highly magnified view of the wasp cuticle
Highly magnified view of the wasp cuticle

"Xanthopterin works as a light harvesting molecule transforming light into electrical energy."

The hornets' ability to convert sunlight in this way could explain why they become more active during the middle of the day, when the light intensity is highest.

"We assume that some of the energy is transformed in a photo-biochemical process which aids the hornets with their energy demanding digging activity," Dr Plotkin told the BBC.

The solar-powered hornets have one further unique claim.

Until now, insects were thought to perform metabolism in an organ known as the fat body, which performs a similar function to the human liver.

Most of the fat body is in an insect's abdomen surrounding the gut, where it can quickly take up absorbed nutrients, though some is scattered elsewhere.

"We have found that the main metabolic activity in the Oriental hornet is actually in the yellow pigment layer," says Dr Plotkin.

source : news.bbc.co.uk

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Jumat, 17 Desember 2010

Solar Boat Biggest in the World

Jumat, 17 Desember 2010
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A beautifull holiday, like usual i open the internet. The first thing i do is open my facebook, checking for email and browsing in kaskus.us trying to find some unusual thing. i see something amazing, solar boat. its huge and looks awesome for me. so i try to find more about it and write it here, in my blog.

PlanetSolar, a 31 meter long catamaran, was unveiled in Kiel, Germany, and its deck just so happens to be completely covered with photovoltaic panels, making it the world’s largest solar powered boat. it want to promote solar energy. The makers of the boat say, “PlanetSolar wants to show that we can change, that solutions exist and that it isn’t too late. Future generations are looking to us; our choices will mark the future of humanity.”



Built at the Knierim Yacht Club in Kiel in northern Germany, the PlanetSolar is a 31 by 15 meter catamaran that can expand to 35 by 23 meters when the flaps at the stern and the sides are extended. The deck is completely covered in 500 sq. meters of solar panels with the cockpit sticking out from the top, meaning that there won’t be any bathing beauties lounging on top when they sail into port, but they will be rolling in sans emissions. Manned by two crew members, the catamaran can accommodate up to 50 people on their world voyage. The makers are expecting the boat to get a top speed of 15 knots and an average of 8 knots.




The 40,000 km world voyage will start April 2011 and take an estimated 140 days based on the average speed of 8 knots. To maximize the solar power generated, the crew will stick to a more equatorial route in order to get the most sun. They plan on crossing the Atlantic from Europe through the Panama Canal, crossing the Pacific to the Indian Ocean, and then through the Suez Canal into the Mediterranean Ocean. Along the way they will stop in New York, San Francisco, Darwin in Australia, Hong Kong, Singapore, Abu Dhabi and Marseille in southern France. Now that the boat is built, they trip should be cheap since they don’t have to pay for fuel along the way.

Please leave your comment!

source : inhabitat.com and kaskus.us

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Sabtu, 11 Desember 2010

iPad

Sabtu, 11 Desember 2010
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When i watch Mario Teguh Golden Ways, i saw Mario use a board that looks like a huge cellphone, i dont know exactly what is that so i searched it on internet. And i found out that it was an iPad. So now i want review about iPad to know more about that thing.



The iPad is a tablet computer designed and developed by Apple. It is particularly marketed as a platform for audio and visual media such as books, periodicals, movies, music, and games, as well as web content. At about 1.5 pounds (680 grams), its size and weight are between those of most contemporary smartphones and laptop computers. Apple released the iPad in April 2010, and sold 3 million of the devices in 80 days

According to a report released by Strategy Analytics, the Apple iPad has gained a 95 percent share sales of Tablet PC at the end of second quarter 2010. And during the second quarter 2010, Apple had sold 4.19 million iPads around the world.

The iPad runs the same operating system as the iPod Touch and iPhone. It can run its own applications as well as ones developed for the iPhone. Without modification, it will only run programs approved by Apple and distributed via its online store.

Like iPhone and iPod Touch, the iPad is controlled by a multitouch display — a break from most previous tablet computers, which used a pressure-triggered stylus. The iPad uses a Wi-Fi data connection to browse the Internet, load and stream media, and install software. Some models also have a 3G wireless data connection which can connect to GSM 3G data networks. The device is managed and synced by iTunes on a personal computer via USB cable.

Media reaction to the device has generally been neutral or positive, with more positive reaction after the device was launched.

The iPad's touchscreen display is a 9.7 in (25 cm) liquid crystal display (1024 × 768 pixels) with fingerprint-resistant and scratch-resistant glass. Like the iPhone, the iPad is designed to be controlled by bare fingers; normal gloves and styli that prevent electrical conductivity may not be used, although there are special gloves and capacitive styli designed for this use.

The display responds to two other sensors: an ambient light sensor to adjust screen brightness and a 3-axis accelerometer to sense iPad orientation and switch between portrait and landscape modes. Unlike the iPhone and iPod touch built-in applications, which work in three orientations (portrait, landscape-left and landscape-right), the iPad built-in applications support screen rotation in all four orientations (the three aforementioned ones along with upside-down), meaning that the device has no intrinsic "native" orientation; only the relative position of the home button changes.

The iPad can use Wi-Fi network trilateration from Skyhook Wireless to provide location information to applications such as Google Maps. The 3G model contains A-GPS to allow its position to be calculated with GPS or relative to nearby cellphone towers; it also has a black plastic accent on the back side to improve 3G radio sensitivity.

For wired connectivity, the iPad has a proprietary Apple dock connector; it lacks the Ethernet and USB ports of larger computers.

The iPad uses an internal rechargeable lithium-ion polymer battery. The batteries are made in Taiwan by Simplo Technology, which makes 60% of them, and Dynapack International Technology. The iPad is designed to be charged with a high current (2 amperes) using the included USB 10 W power adapter. While it can be charged by a standard USB port from a computer, these are limited to 500 milliamperes (half an amp). As a result, if the iPad is turned on while being charged with a normal USB computer port, it will charge much more slowly, if at all.

Apple claims that the iPad's battery can provide up to 10 hours of video, 140 hours of audio playback, or one month on standby. Like any battery technology, the iPad's LiPo battery loses capacity over time, but is not designed to be user-replaceable. In a program similar to the battery-replacement program for the iPod and the original iPhone, Apple will replace an iPad that does not hold an electrical charge with a refurbished iPad for a fee of $99 (plus $6.95 shipping).

The iPad was released with three options for internal storage size: a 16, 32, or 64 GB flash drive. All data is stored on the flash drive and there is no option to expand storage. Apple sells a camera connection kit with an SD card reader, but it can only be used to transfer photos and videos.

The side of the Wi-Fi + 3G model has a micro-SIM slot (not mini-SIM). Unlike the iPhone, which is usually sold locked to specific carriers, the 3G iPad is sold unlocked and can be used with any compatible GSM carrier.[39] Japan is the exception to this, where the iPad 3G is locked to Softbank. In the U.S., data network access via T-Mobile's network is limited to slower EDGE cellular speeds because T-Mobile's 3G Network uses different frequencies.

Apple offers several iPad accessories, including:

* iPad Keyboard Dock with hardware keyboard, 30-pin connector, and audio jack
* iPad Case which can be used to stand the iPad in various positions
* iPad Dock with 30-pin connector and audio jack
* iPad Dock Connector to VGA Adapter for external monitor or projector
* iPad Camera Connection Kit including a USB Type A connector adapter and an SD card reader, for transferring photos and videos
* iPad 10W USB Power Adapter with 2 A output (10 W)

Like the iPhone, with which it shares a development environment (iPhone SDK, or software development kit, version 3.2 onwards), the iPad only runs its own software, software downloaded from Apple's App Store, and software written by developers who have paid for a developer's license on registered devices. The iPad runs almost all third-party iPhone applications, displaying them at iPhone size or enlarging them to fill the iPad's screen. Developers may also create or modify apps to take advantage of the iPad's features. Application developers use iPhone SDK for developing applications for iPad. The iPad has been shipping with a customized iPad-only version of iPhone OS, dubbed v3.2. On September 1, it was announced the iPad would get iOS 4.2 by November 2010. Apple released iOS 4.2.1 to the public on November 22.

The iPad comes with several applications, including Safari, Mail, Photos, Video, YouTube, iPod, iTunes, App Store, iBooks, Maps, Notes, Calendar, Contacts, and Spotlight Search.[63] Several are improved versions of applications developed for the iPhone.

The iPad syncs with iTunes on a Mac or Windows PC. Apple ported its iWork suite from the Mac to the iPad, and sells pared down versions of Pages, Numbers, and Keynote apps in the App Store. Although the iPad is not designed to replace a mobile phone, a user can use a wired headset or the built-in speaker and microphone and place phone calls over Wi-Fi or 3G using a VoIP application. The iPad has lots of third party applications available for it; as of September 1, 2010, there were 25,000 iPad specific apps on the App Store. The iPad cannot run Xcode since it use the iOS.

source : wikipedia.org

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Nano Leaves, Solution in Electical Energy Produce

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Nowadays when global warming issue disturbing our mind, we need solution where we could produce electrical energy that doesnt make global warming worsen. To capitalize on the wealth of designs and processes found in nature, engineering and technology gave us the ingredients, creative thinking, and unique solutions made it possible to bring all this together into a natural looking leaf - the Nanoleaf.

To complete the tree for multi energy exploitation, the petiole twigs and branches are incorporated with Nano piezo-electric elements. A Nanoleaf is thin like a natural leaf, when outside forces, like the wind pushes the Nanoleaf back and forth, mechanical stresses appear in the petiole, twig and branches. When thousands of Nanoleaves flap back and forth due to wind, millions and millions of Pico watts are generated, the stronger the wind, the more energy is generated.

Our Nanoleaves only reflect a small part of the sunlight that strikes them, mostly the green light, and the rest of the spectrum is efficiently converted into electricity.



Besides converting the visible spectrum of light, our Nanoleaves also convert the invisible light, known as infrared light or radiation, we can’t see it, but we can feel it - it’s warm - that’s why we call it radiation. Due to the unique combination of photovoltaic and thermovoltaic in our Nanoleaves it converts this thermal radiation into electricity, even hours after the sun has set.

The more wind there is,the more Nanoleaves are moved. Wind that is moving thousands of Nanoleaves in a tree canopy are causing mechanical strain in the petiole, twigs and branches. Nano piezo-electric elements incorporated in the petiole twigs and branches are the tiny Nano piezo-electric elements that will generate millions and millions of Pico watts as these thousands of Nanoleaves flap back and forth due to wind. The stronger the wind, the higher the “flap” frequency, and therefore the larger the watts generated in the petiole, twigs and branches.




With the progress in nano technology, the photovoltaic, thermovoltaic and piezo electric materials are becoming more efficient and combined in one system it will give our products more efficiency and we believe that soon, SolarBotanic will be a mainstream green energy provider, more reliable/cheaper and above all better looking.



source : www.solarbotanic.com/

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Three Gorges Dam, Biggest Dam in the World

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The Three Gorges Dam is a hydroelectric dam that spans the Yangtze River by the town of Sandouping, located in the Yiling District of Yichang, in Hubei province, China. It is the world's largest electricity-generating plant of any kind, and second in production, only exceeded by Itaipu Dam, Brazil and Paraguay's electricity-generating plant.

The dam body was completed in 2006. Except for a ship lift, the originally planned components of the project were completed on October 30, 2008, when the 26th generator in the shore plant began commercial operation. Each generator has a capacity of 700 MW. Six additional generators in the underground power plant are not expected to become fully operational until 2011. Coupling the dam's thirty-two main generators with two smaller generators (50 MW each) to power the plant itself, the total electric generating capacity of the dam will eventually reach 22.5 GW.

The project produces electricity, increases the river's shipping capacity, and reduces the potential for floods downstream by providing flood storage space. From completion through September 2009 the dam has generated 348.4 TWh (1,254 PJ) of electricity, covering more than one third of its cost.

The Chinese state regards the project as a historic engineering, social and economic success, with the design of state-of-the-art large turbines, and a move toward limiting greenhouse gas emissions. However, the dam flooded archaeological and cultural sites and displaced some 1.3 million people, and is causing significant ecological changes, including an increased risk of landslides. The dam has been a controversial topic both in China and abroad.

The dam is made of concrete and is 2,335 m (7,661 ft) long, and 185 metres (607 ft) high. The project used 200,000 cubic metres (300,000 cu yd) of concrete, 463,000 tonnes of steel, enough to build 63 Eiffel Towers, and moved about 102,600,000 cubic metres (134,200,000 cu yd) of earth.

When the water level is at its maximum of 175 metres (574 ft) over sea level (110 metres (361 ft) above the river level downstream), the dam reservoir is about 660 kilometres (410 mi) in length and 1.12 kilometres (0.70 mi) in width on average, and contains 39.3 km3 (31,900,000 acre·ft) of water. The total surface area of the reservoir is 1,045 km².





When finished, the project is expected to have cost 180 billion yuan, 12% under budget, approximately 30 billion USD. The lower costs are attributed to a low inflation rate rather than lower spending. By the end of 2008, spending had reached 148.365 billion yuan, among which 64.613 billion yuan was spent on construction, 68.557 billion yuan on relocating affected residents, and 15.195 billion yuan on financing. It is estimated that the construction cost will be recovered when the dam has generated 1,000 TWh of electricity, yielding 250 billion yuan. Full cost recovery is expected to occur ten years after the dam starts full operation.

Funding sources include the Three Gorges Dam Construction Fund, profits from the Gezhouba Dam, loans from the China Development Bank, loans from domestic and foreign commercial banks, corporate bonds, and revenue before and after the dam is fully operational. Additional charges were assessed as follows: Every province receiving power from the Three Gorges Dam has to pay ¥7.00 per MWh extra. Other provinces had to pay an additional charge of ¥4.00 per MWh. Tibet pays no surcharge.

Power generation is managed by China Yangtze Power a listed subsidiary of China Three Gorges Corporation (CTGPC) a Central Enterprise SOE administered by SASAC. The Three Gorges Dam is the world’s largest hydroelectric power station by total capacity, eventually reaching 22,500 MW.It will have 32 generators: 30 main generators, each with a capacity of 700 MW, and two plant power generators, each with capacity of 50 MW. Among those 32 main generators, 14 are installed in the north side of the dam, 12 in the south side, and the remaining six in the underground power plant in the mountain south of the dam. The expected annual electricity generation will be over 100 TWh, 18% more than the originally predicted 84.7 TWh, resulting from the six generators added in 2002.

The main generators weigh about 6,000 tonnes each and are designed to produce more than 700 MW of power. The designed head of the generator is 80.6 meters (264 ft). The flow rate varies between 600–950 cubic metres per second (21,000–34,000 cu ft/s) depending on the head available. The greater the head, the less water needed to reach full power. Three Gorges uses Francis turbines. Turbine diameter is 9.7/10.4 m (VGS design/Alstom's design) and rotation speed is 75 revolutions per minute. Rated power is 778 MVA, with a maximum of 840 MVA and a power factor of 0.9. The generator produces electrical power at 20 kV. The outer diameter of the generator stator is 21.4/20.9 m. The inner diameter is 18.5/18.8 m. The stator, the biggest of its kind, is 3.1/3 m in height. Bearing load is 5050/5500 tonnes. Average efficiency is over 94%, and reaches 96.5%.

The State Grid Corporation and China Southern Power Grid paid a flat rate of ¥250 per MWh ($35.7 US) until July 2, 2008. Since then, the price has varied by province, from ¥228.7-401.8 per MWh. Higher-paying customers receive priority, such as the city of Shanghai.[47] Nine provinces and two cities consume power from the dam.[48]

Power distribution and transmission infrastructure cost about 34.387 billion Yuan. Construction completed in December 2007, one year ahead of schedule.[49]

Power is distributed over multiple 500 kilovolt (kV) transmission lines. Three Direct current (DC) lines to the East China Grid carry 7,200 MW: Three Gorges-Shanghai (3,000 MW), HVDC Three Gorges-Changzhou (3,000 MW), and HVDC Gezhouba - Shanghai (1,200 MW). The alternating current (AC) lines to the Central China Grid have a total capacity of 12,000 MW. The DC transmission line HVDC Three Gorges-Guangdong to the South China Grid has a capacity of 3,000 MW .

The dam was expected to provide 10% of China's power. However, demand has increased more quickly than planned. Even fully operational, it would support only about 3% of 2006 requirements.

According to the National Development and Reform Commission of China, 366 grams of coal would produce 1 kWh of electricity during 2006.[52] At full power, Three Gorges reduces coal consumption by 31 million tonnes per year, avoiding 100 million tonnes of greenhouse gas emissions,[53] millions of tonnes of dust, one million tonnes of sulfur dioxide, 370,000 tonnes of nitric oxide, 10,000 tonnes of carbon monoxide, and a significant amount of mercury.[54] Hydropower saves the energy needed to mine, wash, and transport the coal from northern China.

From 2003 to 2007, power production equaled that of 84 million tonnes of standard coal, reducing carbon dioxide by 190 million tons, sulfur dioxide by 2.29 million tonnes, and nitrogen oxides by 980,000 tonnes.

The dam increased the Yangtze's barge capacity sixfold, reducing carbon dioxide emission by 630,000 tonnes. From 2004 to 2007 a total of 198 million tonnes of goods passed through the ship locks. Compared to using trucking, barges reduced carbon dioxide emission by ten million tonnes and lowered costs 25%.

Two hazards are uniquely identified with the dam. One is that sedimentation projections are not agreed upon, and the other is that the dam sits on a seismic fault. At current levels, 80% of the land in the area is experiencing erosion, depositing about 40 million tons of sediment into the Yangtze annually.

The absence of silt downstream has two effects:

* Some hydrologists expect downstream riverbanks to become more vulnerable to flooding.
* The city of Shanghai, more than 1,000 miles (1,609 km) away, rests on a massive sedimentary plain. The "arriving silt—so long as it does arrive—strengthens the bed on which Shanghai is built... the less the tonnage of arriving sediment the more vulnerable is this biggest of Chinese cities to inundation..." Benthic sediment buildup causes biological damage and reduces aquatic biodiversity.

As of June 2008, China relocated 1.24 million residents, ending with Gaoyang in Hubei Province), about 1.5% of the province's 60.3 million and Chongqing City's 31.44 million population. About 140,000 residents were relocated to other provinces.

Relocation was completed on July 22, 2008. Chongqing City will encourage an additional four million people to move away from the dam to the Chongqing metropolitan area by the year 2020.

Allegedly, funds for relocating 13,000 farmers around Gaoyang disappeared after being sent to the local government, leaving residents without compensation.

source : wikipedia.org

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