Most people, these days, live in automobile cities. Cars are essential for getting around; they mediate the experience of the city; they occupy huge amounts of real estate; they make a lot of noise and they clutter up the streets. Yet architects and urban designers mostly take them as given, and are content to design streets and public spaces around whatever the world’s few remaining automobile manufacturers happen to provide. Here Dr. Mitchell Joachim tries to challenge and reverse this well-worn assumption.
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This is an energy saving product for public spaces. With its 7.3 square meters of the main panel with solar cells and with MoSESS (Movement sensors energy saving system), it is able to provide illumination throughout all night. All objects that are part of this concept are connected to each other by an underground connection and also to electric grid which enables sharing of leftover energy in cases when this is needed.
Public telephones and other public services (such as Automatic telling machines, Internet services, informational services) that are put in streets for more convince to customers consume electric energy. Not only for illumination but for different digital devices such as computers, LCDs, information panels, wireless devices… More and more of these services will be available on streets and more energy will be needed to support them. Solar public multipurpose booths provide, whatever the apparatus is inside, with necessary energy. Also every booth has lights that are powered by the same solar panels.
Bus stops with their large protective panels provide ideal space for application of solar cells. Generally, bus stops do not use much energy and in this way they can help other users from the SOLAR STREET FAMILY that use more electricity. Even more, the electricity collected by the Solar bus stops can be used by any other user as they are all connected to each other as well as to electric company. Lights of the bus stop itself are positioned in the base of solar panel and in the bus stop seating directed toward ground.
Solar park lamp uses the same MoSESS (Movement Sensors Energy Saving System) as Solar street lamp to reduce energy consumption. In the same way it recharges its batteries during the day and in the night uses it for illumination.
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The concept of “Clean Technology Tower” is brought to you by Adrian Smith and Gordon Gill. This building will be built in Chicago as highly efficient building. They plan to put the wind turbines in each of the corners of the building, to make sure it captures the wind at its highest velocity as it accelerates around the tower. At the apex, where wind speeds are at a maximum, a domed double roof cavity directs the wind towards an array of wind turbines. The negative pressure created by the turbines will be used to ventilate interior spaces. The dome itself is shaded by solar cells that capture the southern sun. These systems provide both comfort and energy to the space. Building on principles of biomimicry, Clean Technology Tower utilizes advanced technologies and climate-appropriate building systems to foster a symbiotic relationship with its local environment.
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Those who have claustrophobic offices should thank Mathias Schnyder who designed this mobile workspace. It is a great alternative to let people works outdoors. The workstation can be set up on university campus, backyard, or office landscape. With the help of solar cell on the sunroof, you don’t have to worry about your notebook battery, just use the electric socket which is in the middle of the table.
