Com-Bat-Solar powered spy bat

Check out this crazy gadget, a solar powered spy bat called the Com-Bat 

This crazy spy gadget is being developed by the US Army and the University Of Michigan College Of Engineering.

This 6″ robotic spy plane, also known as COM-BAT, uses a low-power miniaturized radar and a very sensitive navigation system to help it find its way through the dark – just like how a bat does. It’s small size translates to limited battery power, but its beauty lies in the fact that it scavenges energy from solar, wind, vibration and other sources to help keep its battery juiced up. Being able to run indefinitely (if all conditions are met) makes this a formidable tool to provide significant and sustained information that could help turn the tide of the battle in war.

The US Army have already provided the University Of Michigan College Of Engineering with a $10 million grant to get this crazy gadget off the ground.

Electree-Solar bonsai tree

French designer Vivien Muller is the man behind this incredible concept. The Electree is a solar bonsai tree which was inspired by the tree’s ability to photosynthesise form sun. The concept took three years to reach the point where it is now. It is a perfect combination of aesthetics, ecology and functionality.

This Electree consists of 27 amorphous silicon solar panels which captures sunlight more efficiently. The Electree has been divided into different modules which rotate freely to create various shapes with the bonsai tree.


The solar panels receive the solar energy , convert it and then store it in a 13,500 mAh battery in the base of the bonsai tree. The battery can be fully charged in less than 36 hours which then can be used to charge various portable devices like MP3 players, cell phones, tablets, etc. through USB connection. The Electree is designed to place indoors near windows to get most of the sunlight possible.



Some specifications of the Bonsai Electree are:

Solar Panels: 27 (96mm x 96mm) silicon solar panels
Electree Size: 40cm high
Battery Capacity: 13,500 mAh
Electrical Output: USB + AC plug

YEE flying car concept

YEE is an ingenious vehicle that is capable of transforming into a flying machine instantly. Simply by upturning the front wheels sideways and rear wheels to the outside back, this interesting concept vehicle would take you away from a hectic traffic jam. The concept car has been envisioned to be powered by solar panels spread over its roof.

 

 Three Chinese students from South China University of Technology(SCUT), Jiazhe Pan, Lai and Zhu Wenxi Zexin devised the concept YEE, a flying car, simply. They have created a concept car that can evolve on land and in the air.

For land mode, the wings are folded down and through the small wheels at their ends. Note the flying car has only two “real “ rear wheels.

Although the concept YEE has won the “Gold Award for Best Creative Future ” in Beijing, it is obviously impossible to achieve as presented in the current state of our technologies.

Straddling Bus

 A company in the southern Chinese town of Shenzhen has done Tried designing a vehicle that takes up no road space. And make it partly solar powered.  To address the country’s problems with traffic and air quality, Shenzhen Huashi Future Parking Equipment has developed a decidedly odd-looking, extra-wide and extra-tall vehicle that can carry up to 1,200 passengers.

Though it is called the “straddling bus,” Huashi’s invention resembles a train in many respects — but it requires neither elevated tracks nor extensive tunneling. Its passenger compartment spans the width of two traffic lanes and sits high above the road surface, on a pair of fence like stilts that leave the road clear for ordinary cars to pass underneath. It runs along a fixed route.

Huashi Future Parking’s outsize invention — six meters, or about 20 feet, wide — is to be powered by a combination of municipal electricity and solar power derived from panels mounted on the roofs of the vehicles and at bus stops.

A pilot project for the vehicle is in the works in Beijing, and several other Chinese cities have shown interest.

The company says the vehicle — which will travel at an average speed of 40 kilometers an hour, or about 25 m.p.h. — could reduce traffic jams by 25 to 30 percent on main routes.

The straddling bus could replace up to 40 conventional buses, potentially saving the 860 tons of fuel that 40 buses would consume annually, and preventing 2,640 tons of carbon emissions, said Youzhou Song, the vehicle’s designer.

The cost of construction — 50 million renminbi, or $7.4 million, for one bus and about 25 miles of route facilities — is roughly one-tenth what it costs to build a subway of the same length, he said.

Water Droplet Resort

Based on an innovative concept ‘Water Droplet resort’ is an architectural marvel that has been designed in the shape of water drop by Orlando De Urrutia. It is the first building of its type which converts air into water with the help of solar power. It sounds unbelievable or magic but is true! The concept to design the building is nothing but a combination of technology and nature.

 Inspired by the form of a drop of water falling from the heights, the building is projected and thought to create conscience of the water. Designed for construction in warm and humid coasts, the Water Building Resort, will house an aquarium, Restaurant, Gyms, Hotel, Spa services, Convention Halls and Conference rooms. Moreover, the bottom floor of this resort complex will have a water treatment zone for purifying rain water and salty sea water and a technological investigation center to control and verify water quality. The building also incorporates a technology research center (Cidemco) which controlled certification of quality industrial products.

The building design allows the integration of renewable energy uptake and energy optimization. The sun-facing facade is covered with photovoltaic crystals latest technology that allows transparency and

energy to capture the electricity of the building. The facade opposite the sun are shutters that allow air

to enter which is conducted through the water producing equipment. The air passing

 through the central courtyard is speeding up and out the upper wind turbine, generating electricity for all teams abasteceder.

 Water Building Resort, will be the first build in the world that transform the air into water, starting to obtain water from the air it seems to science fiction, however it is a reality thanks to new technology and modern TeexMicron incorporated in this building.

 Their production based on the condensation of the humidity that is in the air, its location in the water of the sea, add a big value regarding a bigger condensation. Allowing to take advantage of the night daily evaporation and condensation.

Moreover, Building Water Resort recycles water from rain and purging with marine desalination equipment incorporated in the base of the building. Water generators “TeexMicron” capable of producing 5,000 liters of water per volume of 21.17 m³ team, 48 people, for the calculations we use an average of 105 liters per person.

Solar Tent From Orange

 Orange has revealed their vision for the tent of the future. Utilising cutting edge eco-energy technology, the Orange Solar Concept Tent will allow campers to keep in touch and power their essential camping gadgets.

 The Concept Tent has been designed in association with American product design consultancy Kaleidoscope and builds on learnings from the original Orange Solar Tent that was trialled at Glastonbury in 2003, as well as 2004’s Orange Text Me Home Dome. Having worked closely with Glastonbury for the last eleven years, Orange know the importance of keeping in contact with friends while on site and undertook this concept project to look at how the festival goers communication and power supply needs might be met in the future.

Latest research shows that by weaving specially coated solar threads into conventional fabric, revolutionary new ways of capturing the sun’s energy could soon become a reality. These radical advances mean that rather than relying upon familiar fixed panels, designers were free to conceive how a tent of flexible solar fabrics might look.

The Concept Tent’s solar shell uses this technology to full effect with three directional glides which can be moved throughout the day to maximise its solar efficiency, capturing the optimum amount of energy which can to be used throughout the tent in a variety of new and exciting ways.

 The heart of the Concept Tent is a central wireless control hub which displays energy generated and consumed as well as providing a wireless internet signal; all information is displayed on a flexible, touchscreen LCD display screen.

 Integrated into the hub is a wireless charging pouch which powers mobile phones and other portable devices without the need for messy wires and multiple chargers. The ‘magnetic induction’ technology passes an electric current through a coil embedded in the charging pouch, this in turn generates a magnetic field which creates a charge and powers the battery.

Also controlled by the central hub is an internal heating element embedded within the tent’s groundsheet; this under floor heating is triggered automatically once the interior temperature falls below a set level.

Kaleidoscope Strategist, Finn McKenty, said: “The development of photovoltaic fabric will revolutionise festival tent design, in working with Orange we have created a vision for a solar tent that we believe is a great glimpse of what’s to come.”

Ian Smith, Head of Sponsorship, Orange UK, said: “Since becoming Official Communications Partner of Glastonbury Festival in 1997 Orange have strived to enhance the camping experience through a variety of sustainable initiatives. Our vision of the concept tent builds on this heritage and recognises the revolutionary effect cutting edge solar technology and wireless communication could have on festival goers’ camping experiences.”

Whilst currently only a concept, the vision of the Orange Solar Concept Tent has been designed to celebrate Orange’s 11th year at Glastonbury. This year, Orange Chill ‘n’ Charge tent will be at Glastonbury again, providing 600 mobile phone charging points, free internet access and live music.

Q-SOUND Bluetooth headphones---Solar-powered Bluetooth headphones

When it comes to wearable devices that harness the power of the sun, it would seem to make sense that the obvious place for solar panels would be the place that generally gets the most sunlight – namely the top of the head. That might not be desirable for items such as backpacks, jackets or sunglasses, but it’s such a perfect fit for headphones that you wonder why no one has thought of it before. Engineering student Shepeleff Stephen has hit on the obvious with his concept for Bluetooth-enabled headphones that incorporate solar panels into the headband.

 The Q-SOUND headphones would not only allow you to listen to music via any Bluetooth-enabled digital audio player, but also would let you take calls on any Bluetooth-enabled cell phone. If your player doesn’t support Bluetooth there is also a 3.5mm jack to allow for a wired connection. The headband is constructed of flexible plastic incorporating amorphous silicon solar cells, while each rubber-based earpiece can be adjusted to fit differently shaped and sized heads.

 Two removable NiMH rechargeable batteries, with a capacity of 800mAh and operating voltage of 1.2V, are located within the headband, just above either earpiece, which keep the headphones charged for up to 40 hours. According to Shepeleff, an hour of sunlight should provide more than 2.67 hours of running time for the headphones when operating on maximum volume.

Shepeleff’s futuristic design for the Q-SOUND headphones not only ensures that your music enjoyment is energy-efficient, but also that your projection of detached cool won’t be compromised. Makes us wonder just how long it is before we see something like Shepeleff’s concept crop up in the real world.

PS10--- the first solar power tower

Construction of the PS10 project, an 11 MW Solar Thermal Power Plant in Southern Spain has been completed. The main project goals for design, construction and commercial operation have been achieved. The plant is a first-of-its-kind Solar Central Receiver System (CRS) producing electricity in grid-connected mode.The PS10 solar power plant, which is located in Sanlúcar la Mayor, 15 km west of the city of Seville...

The PS10 solar power tower is the first commercial plant in the world to use tower technology. This 11 MW tower is located at the Solúcar Complex in Sanlúcar la Mayor (Seville). PS10 went online in mid-2007 and the plant has been operating successfully since then, supplying clean energy to the power grid.

 The PS10 power tower/heliostat field technology has a solar field composed of 624 120 m2 heliostats with a mobile curved reflective surface that concentrate solar radiation on a receiver at the top of a 100 m tower. The receiver, which produces 40 bar 250ºC saturated steam from thermal energy supplied by the concentrated solar radiation flux, has a cavity design to reduce radiation and convection losses.

 The solar field occupies 148 acres and is composed of 624 heliostats, each being 1,291 sq. ft. Designed by Abengoa Solar, these heliostats concentrate the solar radiation they capture onto a receiver located at the top of a 377-foot tower. PS10 also features a 30-minute storage capability, which enables the plant to continue running under conditions of low solar radiation and no insolation.

 The PS10 tower produces enough electricity to meet the demand of approximately 5,500 households, the equivalent to the population of Sanlúcar la Mayor. It prevents the release of 6,000 tons of CO2 into the atmosphere annually, while at the same time reducing natural resource consumption and waste generation.

PS10, the World’s First Commercial Power Tower
Description:
Location: Solucar Complex, Seville, Spain
Output: 11 MW
Technology: power tower
Solar field: 148 acres
Household supplied with clean energy: 5,500
CO2 emissions eliminated each year: 6,000
Status: in operation