Solar and Wind Energy Arts Cultural Center Design/Michael Jantzen

Introduction Design of the Solar Wind Energy Cultural and Arts Center/Michael Jantzen The Solar Wind Energy Cultural and Arts Center is a cultural center designed for a large-scale wind solar energy installation.

Solar and Wind Energy Arts Cultural Center Design/Michael Jantzen

The Wind Solar Energy Cultural and Arts Center is a cultural and arts center designed for a large-scale wind solar energy installation that can accommodate a variety of activities. The building consists of a series of tapering unit volumes connected by a monolithic base. Each cone-shaped building is equipped with a large vertical axis wind turbine, installed at the top of the cone-shaped building and blending into the overall shape. Four of the south-facing buildings are equipped with photovoltaic solar panels. Additionally, in order to support the normal operation of these photovoltaic cells, the designers also plan to install a solar cooling system. These wind turbines, photovoltaic solar cells and solar cooling systems become the energy supply equipment of this installation. They can provide electricity, heat and hot water to the center to maintain the operation of the entire building. If there is excess energy, it will automatically be fed into other community energy networks. These tall, slender buildings also promote natural ventilation of the space, with air and wind entering through the base of the building and then exiting through specially designed upper exhaust vents. At the same time, there is a skylight at the top of the cone to provide sufficient natural lighting inside. A base connecting the seven tapered buildings provides open space for outdoor cultural and artistic activities and flexibility for future expansion. The main objective of this design is to explore how to combine alternative energy collection and storage facilities with large-scale public buildings, while creating future buildings that combine environmental friendliness and aesthetics.

Michael Jantzen: Designing a Centcultural and artistic re on solar and wind energy

Michael Jantzen: Design of a cultural and artistic center on solar and wind energy

Michael Jantzen: Design of the Solar and Wind Energy Cultural and Arts Center

Michael Jantzen: Design of the Solar and Wind Energy Culture and Arts Center

Michael Jantzen: Design of the wind solar energy cultural and artistic center

Michael Jantzen: Design of a solar and wind energy cultural and artistic center

Michael Jantzen: Design of a center cultural and artistic center on solar and wind energy

Michael Jantzen: Design of the cultural and artistic center on solar and wind energy

Michael Jantzen: design of a cultural and artistic center on solar and wind energy artistic center on solar and wind energy

Michael Jantzen: Design of a cultural and artistic center on solar and wind energywind turbine

Michael Jantzen: Design of a cultural and artistic center using solar and wind energy

Michael Jantzen: Design of a cultural and artistic center using solar and wind energy

< p> Michael jantzfr: Design of a cultural and artistic center using solar and wind energy

Michael Jantzen: Design of a cultural and artistic center using solar and wind energy

Michael Jantzen: Design of a cultural and artistic center with solar and wind energy cultural and artistic center energy

Which place is suitable to build a wind farm?

< p>In fact, the construction of wind buildings is very simple, that is, building large concrete foundations. In terms of data, it includes drawing review reports, start-up report, establishment of measurement records and groove inspection, raw material certificates and rework reports.inspection, relevant process evaluation forms, concrete mix proportions, supervision request forms (such as concrete pouring request forms), etc.

New Swedish environmentally friendly buildings can be used as wind power plants and urban landscapes

When building a wind farm, weather conditions as well as conditions social and natural must first be taken into account.

1. Weather conditions?

1.1. The quality of wind energy must be high. The primary condition for a wind farm site must be abundant wind energy resources. The annual average wind speed is more than 5 m/s, the effective wind hours at a height of 30 m are more than 6,000 hours, and the effective wind power density is more than 240 W/m^2.

In fact, the factors that affect the quality of educationwind energy include annual average wind speed, average wind power density, wind frequency distribution, available hours of effective wind speed, wind direction stability, etc. ?

1.2. The prevailing wind direction at the wind farm site is stable. Stable wind direction can not only increase the utilization of wind energy, but also extend the lifespan of wind turbines. ?

1.3. The degree of turbulence in wind farms must be low. The wind is random and affected by the roughness of the site surface and nearby obstacles. The formation of turbulence in the wind field is usually caused by a wind channel that is too rough or by sudden changes in wind speed and direction caused by obstacles. This will not only affect the efficiency of the wind turbine, but also cause vibration and uneven loading of the wind turbine, reducehas the lifespan of the wind turbine and, in serious cases, could cause accidents in which the blades fly away. ?

1.4. There should be fewer natural disasters at wind energy production sites. Strong winds, hail, thunderstorms, earthquakes, etc. will affect all wind turbines. ?

2. Social and natural conditions?

2.1. The terrain of the wind site must be relatively flat and the geological conditions must be good to facilitate civil construction. ?

2.2. Convenient transportation. It is necessary to determine whether the provision of equipment and transportation of key construction materials of the proposed wind farm is practical. Is it suitable for building and transporting large cranes and flatbed trucks? ?

2.3. The wind farm should be as close as possible to the grid access point. For example: near existing 10 KV e substations and linest 66 KV to reduce power losses and delivery project costs. Occupy as little cultivated land as possible to reduce ecological damage. ?

2.4. Surrounding environment. The construction of wind farms will generally have an impact on birds, their normal life and their migration. In order to protect the ecology, the site should try to avoid bird flight routes and climate.Bird and animal habitats, etc., are far away from nature reserves, military installations, densely populated areas, etc.

According to the British Daily Mail, it is very different from other skyscrapers. At first glance, it looks like a skyscraper wearing a wig. However, in the future, he will become a rising star of architectural design. not only unique but also unique. It has a unique appearance and is extremely environmentally friendly. The “hair” covered by skyscrapers is actually a fiber that canconvert the kinetic energy of wind into electrical energy, thereby making full use of wind energy in high-rise buildings. . Sweden's new eco-friendly building

The artist's depiction of the 'hairy skyscraper' in the Swedish capital. This hairy structure is actually a body of thin fiber that can convert wind energy into electricity when blown by the wind.

Sweden's new green building. friendly building

In the restaurant with floor-to-ceiling windows on the top floor, diners can admire the city view between the “straws”

Sweden's new eco-friendly building

The fiber body uses LED lights of different colors to glow at night. Forming a beautiful cityscape, the project is designed by Belatchew Arkitekter and is called “straw skyscraper”. built in the center of Stockholm, the capital of Sweden. Thetreprise noted that the straw skyscraper offers the latest technology for the construction of urban wind farms in the future. Using piezoelectric technology, large quantities of microscopic “straws” blown by the wind can generate electricity.

This new type of wind power plant opens up the possibility of producing electricity in buildings. Thanks to this technology, a skyscraper will be transformed into an energy-producing entity.

The company says the original architectural cladding also serves as a tourist attraction, with the continuous movement of the straw creating an undulating landscape outside. Buildings are often thought of as static, but a straw skyscraper comes to life, able to move with the wind, as if the building could breathe.

The straw blown by the wind allows the building to continually change its appearance, glowing at night and constantly changing coloruleurs.

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