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Submitted By- Rohit Arora
M.Tech Structural Engineering
NIT Patna
Roll No-1523019
In today's energy hungry world where the
concepts of zero energy buildings and green
buildings are coming up which reduces...
Bahrain World Trade Centre, Bahrain City.
Apartment Building- “Strata-E1” or “Razor” at Elephant and
Castle, Southwark, London with 3 turbines integrated up at top.
INTRODUCTION
At the present time the debates and discussion are being held about
viability of wind. Wind turbines are cost...
 Wind follows the path of minimum resistance by
going around obstacles such as hills, mountain
passes and buildings. If a...
 High conversion efficiency and low initial
cost.
 Good performance in complex winds.
 Safe operation in the urban envi...
Locating between diffuser shaped buildings
In this case buildings are positioned in such a way that they act
as a diffuser...
Fig- The two towers of Bahrain World Trade Centre are not in same
vertical plane. The inclination generates diffusion effe...
Fig-Wind Simulation on Bahrain World Trade Centre. The
red part shows high wind intensity and the blue colour
shows low wi...
Pearl River Tower is a 71-story, 309.6 m, clean technology
neofuturistic skyscraper at the junction of Jinsui
Road/Zhujian...
Locating wind turbines in building facades
(Along edges of building)
Several designers have created building integrated wi...
Fig- Wind turbines integrated
along the edges into a Chicago
parking.
Kinetica Apartments, Dalston building, London
Locating on the building rooftop
For locating on the roof it has to be kept in mind that the flow
separates at the leading...
Fig- Strata E1 “Razor”
 The first building integrated with wind turbine-
Bahrain WTC has low efficiency and a large payback
time. It fulfils aro...
 Makes buildings self sufficient.
 Reduces dependence on fossil fuels.
 Reduces the carbon emission content of the
buil...
“COR” Building, Miami, USA
Fig- Freedom Tower, New
York
Fig- Proposed Wind Turbines under a road bridge between Italy
and Scilla.
 Window/Facade glasses with PV cells is not a
new phenomena. But, earlier these glasses
came in different colors, gave un...
Pearl Tower- China. World’s First Zero energy Building, most energy
efficient building of the world, incorporates glass pa...
Compared to how solar energy has functioned through PV cells, the
method used by the transparent solar cell is somewhat
co...
Fig- Glass panels with PV cells. Reduced
transparency.
Glass with PV cells at Pfizer company’s building at Granada, Spain
 Produces electricity with the help of
sunlight. Reduces dependence on fossil fuels.
 Solar cell farms requires large co...
The renewable sources of energy can be accommodated on the
structures to reduce the dependence of structures on fossil fue...
[1] http://www.treehugger.com/renewable-energy/worlds-first-
building-integrated-wind-turbines.html
[2] http://www.treehug...
[9] http://planetsave.com/2015/09/05/solar-power-windows-ready-for-
production.html
[10] http://www.extremetech.com/extrem...
Energy producing buildings
Energy producing buildings
Energy producing buildings
Energy producing buildings
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Energy producing buildings are the one which produces there own energy by various techniques. in this ppt, techniques such as building integrated wind turbines and glass panels with photovoltaic cells are introduced.

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Energy producing buildings

  1. 1. Submitted By- Rohit Arora M.Tech Structural Engineering NIT Patna Roll No-1523019
  2. 2. In today's energy hungry world where the concepts of zero energy buildings and green buildings are coming up which reduces the energy consumption to bare minimum, a new concept of energy producing building can be introduced. Energy producing buildings not only consume less energy but also they produces energy on their own. In this lecture,  Buildings integrated with wind turbines  Glass panels with photovoltaic cells Will be discussed.
  3. 3. Bahrain World Trade Centre, Bahrain City.
  4. 4. Apartment Building- “Strata-E1” or “Razor” at Elephant and Castle, Southwark, London with 3 turbines integrated up at top.
  5. 5. INTRODUCTION At the present time the debates and discussion are being held about viability of wind. Wind turbines are cost effective and efficient if they are placed on high poles, or integrated with a facility in combination with any renewable energy source. Wind speed increases with height so engineers came to the idea of installing wind turbines on top of buildings. Rooftop wind farm at Oklahoma Medical Research Foundation, Oklahoma City, Ohio, USA.
  6. 6.  Wind follows the path of minimum resistance by going around obstacles such as hills, mountain passes and buildings. If a wind turbine is capable to use this increase in speed and density its energy production can be up to two times higher than when standing in an undistrubed flow.  However, placed on the leeward side of a large obstacle, the output will be reduced to half of the yield normally expected. Since wind turbines designed for urban areas are small, averaging does not diminish the phenomena that describes the power yield.
  7. 7.  High conversion efficiency and low initial cost.  Good performance in complex winds.  Safe operation in the urban environment.  Low noise level.  Simple, rugged design.  Minimised maintenance.  Aesthetic appearance.
  8. 8. Locating between diffuser shaped buildings In this case buildings are positioned in such a way that they act as a diffuser for the wind turbine. Many tests were carried out on horizontal axes wind turbines in ring shaped diffusers. This combination results in a high aerodynamic efficiency compared to other possibilities. The diffuser needs to be long in order to generate an appreciable gain in aerodynamic efficiency. The common shape of the diffuser augmented wind turbine is not very suitable for the built environment. Because of that a combination of “diffuser” and “ duct” is often applied.
  9. 9. Fig- The two towers of Bahrain World Trade Centre are not in same vertical plane. The inclination generates diffusion effect thus concentrating wind force towards the central wind turbines. This increases the efficiency of building integrated wind turbines.
  10. 10. Fig-Wind Simulation on Bahrain World Trade Centre. The red part shows high wind intensity and the blue colour shows low wind intensity areas
  11. 11. Pearl River Tower is a 71-story, 309.6 m, clean technology neofuturistic skyscraper at the junction of Jinsui Road/Zhujiang Avenue West, Tianhe District, Guangzhou, China.
  12. 12. Locating wind turbines in building facades (Along edges of building) Several designers have created building integrated wind turbines that fuses magnificent sculpture-like facades to augment wind flows onto turbines and generate more energy than is traditionally possible. Simultaneously, these artistic wind generating facades overcome some of the traditional problems with this type of dynamic facade, like noise and vibration. Many of these building integrated wind energy systems use the concept of Wind Assisted Rotor Platform (WARP). These consist of small wind turbines mounted to the exterior of an aerodynamically shaped building. The saddle ridge shaped modules swirl around the building to channel and amplify the flows of wind
  13. 13. Fig- Wind turbines integrated along the edges into a Chicago parking.
  14. 14. Kinetica Apartments, Dalston building, London
  15. 15. Locating on the building rooftop For locating on the roof it has to be kept in mind that the flow separates at the leading roof edge and has an angle of about 30-40 degrees to the horizontal roof. For a Darrieus turbine this effect will be less important. For common tip speeds the blades will experience an almost horizontal flow. On a HAWT the tilt will have a larger influence. The airfoils will stall, the aerodynamic efficiency will decrease and the rotor load will be non-uniform. So the Darrieus turbine seems preferable for locating on the roof of buildings. Fig- Darrieus Turbine
  16. 16. Fig- Strata E1 “Razor”
  17. 17.  The first building integrated with wind turbine- Bahrain WTC has low efficiency and a large payback time. It fulfils around 15% of the electricity needs.  noise that turbines make[2].The wind flow creates noise that can be uncomfortable no matter of the frequency.  The structures with integrated wind turbines are unoccupied around the floors where they are placed.  Rotation of turbine generates a centrifugal thrust on the building.  Vibrations causes dynamic loadings on the structure.  High initial cost.  Tricky designing of structures.  Hazards due to heavy rotating machinery.
  18. 18.  Makes buildings self sufficient.  Reduces dependence on fossil fuels.  Reduces the carbon emission content of the buildings.  Uses renewable source of energy.  Long term savings.  A wind turbine between two towers such as in Bahrain WTC is 25% more efficient than free standing wind turbine.  Acts as a landmark, tourists visits such buildings, and gets educated and knowledge about the need of such structures.
  19. 19. “COR” Building, Miami, USA
  20. 20. Fig- Freedom Tower, New York
  21. 21. Fig- Proposed Wind Turbines under a road bridge between Italy and Scilla.
  22. 22.  Window/Facade glasses with PV cells is not a new phenomena. But, earlier these glasses came in different colors, gave uneasy feeling to the residents.  Now transparent glass panels with photovoltaic cells have been developed.  Thus such glass panels can replace our orthodox glass panels with no transparency what-so-ever and these produces electricity too.  Such glass is not completely transparent.
  23. 23. Pearl Tower- China. World’s First Zero energy Building, most energy efficient building of the world, incorporates glass panels with PV cells.
  24. 24. Compared to how solar energy has functioned through PV cells, the method used by the transparent solar cell is somewhat counterintuitive. In the most basic terms, solar PV cells capture the photons and convert those pockets of light into electricity. By contrast, a transparent cell would allow the light to pass directly through, without capturing the photons.
  25. 25. Fig- Glass panels with PV cells. Reduced transparency.
  26. 26. Glass with PV cells at Pfizer company’s building at Granada, Spain
  27. 27.  Produces electricity with the help of sunlight. Reduces dependence on fossil fuels.  Solar cell farms requires large cover land. So, glass with PV cells can save such use of land.  Low maintenance.  Transparent glass with PV cells absorbs only the harmful UV and infrared rays of sun and allows visible light to pass through.  It reflects most of the heat. Therefore, in summers inside temp of building doesn’t escalates high. Thus, reducing the cooling energy required, and vice versa in summers.
  28. 28. The renewable sources of energy can be accommodated on the structures to reduce the dependence of structures on fossil fuels. The lesser use of fossil fuels means lesser carbon footprint of the building. To harness wind energy and solar energy large farms have to be set up. Such farms requires large surface area to be set up. So, even though a little high initial investment is required to set up such turbines and glass with PV cells, it reduces the overall energy cost over a long period of time and also results to a greener planet.
  29. 29. [1] http://www.treehugger.com/renewable-energy/worlds-first- building-integrated-wind-turbines.html [2] http://www.treehugger.com/renewable-energy/does-building- integrated-wind-power-work.html [3]http://www.awea.org/learnabout/publications/upload/awea_an d_canwea_sound_white_paper.pdf [4] http://www.som.com/content.cfm/www_projects?sort_by=FW [5] http://en.wikipedia.org/wiki/Strata_SE1 [6]http://www.buildinggreen.com/auth/article.cfm/2009/4/29/The -Folly-of-Building-Integrated-Wind [7] http://www.solaripedia.com/13/93/folly_of_building- integrated_wind.html [8]Mladen Bošnjaković, senior lecturer, MSc, renewable energy, programming of CNC machines
  30. 30. [9] http://planetsave.com/2015/09/05/solar-power-windows-ready-for- production.html [10] http://www.extremetech.com/extreme/188667-a-fully- transparent-solar-cell-that-could-make-every-window-and-screen-a- power-source.html [11] http://inhabitat.com/revolutionary-transparent-solar-cells-could- produce-50-times-more-energy-than-conventional-solar.html
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Energy producing buildings are the one which produces there own energy by various techniques. in this ppt, techniques such as building integrated wind turbines and glass panels with photovoltaic cells are introduced.

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