logging in or signing up Solar3applications sm Davide Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 388 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: January 11, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Engineering Photovoltaic Systems II: Engineering Photovoltaic Systems II Application Flexibility of Solar Electricity Original Presentation by J. M. Pearce, 2006 Email: profpearce@gmail.comOutline Part II: Outline Part II Distributed Energy Source Roof Retrofits BIPV Tiles, Shingles Facades Parking and Sound Barriers Centralized PV PV Systems for Transportation Cars, Boats, and Bikes Photovoltaic Cells as Distributed Energy Source: Photovoltaic Cells as Distributed Energy Source Located near the consumer in order to eliminate transmission losses (which can be higher than 50% on some antiquated grids). Panels can be placed on roofs, built into roofs, building facades, carports, highway sound barriers, etc. Any surface which is exposed to sunlight is fair game. Roof Retrofits: Roof Retrofits This house on right is modular construction and includes 6 kW of PV modules. Below retrofits to schoolsBuilding Integrated Photovoltaics or BIPV: Building Integrated Photovoltaics or BIPV The design and integration of PV technology into the building envelope, usually replacing conventional building materials: vertical facades, replacing view glass, spandrel glass, or other facade material; into semitransparent skylight systems; into roofing systems, replacing traditional roofing materials; into shading "eyebrows" over windows; or other building envelope systems. Solar modules come in a variety of shapes, colors, sizes and can be integrated into any type of architecture. Advantages Aesthetics Reduce the cost of the system (e.g. roof, awning, etc.)Residential Rooftops: Residential Rooftops Specifically designed for PV. This energy efficient home in Oxford generates more electricity than it uses. Surplus electricity is sold to the local utility company and to power an electric car Roofing Tiles and Shingles: Roofing Tiles and Shingles The PV shingle shown here won Popular Science Magazine's grand award for What's new in Environmental Technology. PV shingles can replace common roofing shingles. PV shingles look much like ordinary roofing shingles, but they generate electricity. They were laid out and nailed to the roof using the same methods as are used to lay conventional shingles. Like their non-PV counterparts, these shingles overlap providing for water shedding capability. Relaxing on Solar Shingles: Relaxing on Solar Shingles Bill Ball, president of the Stellar Sun Shop in Little Rock, Arkansas, is clearly comfortable with PV shingles on the rooftop of his shop. The flexible shingles, rated at 17 watts each, are manufactured by United Solar Systems Corp. Peal and Stick Solar Cells: Peal and Stick Solar Cells Thin film amorphous silicon solar cells which can be deposited on plastic or steel (right) are extremely versatile The panels on the right can be stuck directly to standard standing seam metal roofsStanding-Seam PV: Standing-Seam PV Buildings with standing-seam metal roofs can use solar module material referred to as "thin films" that can be rolled out inside the standing seams. Roof-integrated PV panels were installed on the south-facing roof of the BigHorn Home Improvement Center in Silverthorne, Colorado. Semi-Transparent Solar PV: Semi-Transparent Solar PV These panels have amorphous silicon deposited on glass and are semi-transparent – they can be used both as tinted glass but also as a project screen backdrop.Putting it all Together: Putting it all Together The Boston Edison “Impact 2000” home incorporated a 4-kWp utility-connected photovoltaic array in the original construction all electric appliances, solar electric water heating, and both passive and active space heating. Commercial Rooftops: Commercial Rooftops Large rooftops are ideal locations for PV PowerGuard sloped tiles, 150 Wp per tile, shown on customer's roof PV at Lowe's: PV at Lowe's Lowe’s executives determined that clean, reliable distributed solar generation offers many benefits both to its retail operations and to the surrounding community. Lowe’s is extremely committed to reducing greenhouse gas emissions, while promoting and selling energy efficient home improvement products. Lowe’s sought a cost-effective solution to reduce the operating costs associated with providing reliable electricity supply at its West Hills store. Could Wal-Mart be far behind?: Could Wal-Mart be far behind? Wal-Mart McKinney Location: TX Operator: Wal-Mart Configuration: 59 kWp PV Operation: 2005 System supplier: RWE Schott This pilot installation for Wal-Mart has 5,500sqft of crystalline and thin film PV in five separate locations. Solar Powered Hotels: Solar Powered Hotels Hawaii’s Mauna Lani Bay Hotel This sprawling hotel had acres of roof space, making it the perfect host for a photovoltaic system. They installed a PowerGuard (R) system of insulating PV roofing tiles that covers 10,000 ft2 and generates 75kWs. The hotel will be spared hundreds and thousands of dollars in utility bills. 4 Times Square - BIPV : 4 Times Square - BIPV The building’s most advanced feature is the photovoltaic skin, a system that uses thin-film PV panels to replace traditional glass cladding material. The PV curtain wall extends from the 35th to the 48th floor on the south and east walls of the building, making it a highly visible part of the midtown New York skyline. Solar Skylights and Cladding: Solar Skylights and CladdingPV Facades: PV Facades Scheidegger Building with photovoltaic facade near Bern in Switzerland. Courtesy of Atlantis Solar Systeme AG Austria SwtizerlandSlide20: Building FacadesBuilding Facades: Building Facades 73 kW system and generates ~ 55 000 kW-hrs of electricity per year in Sunderland, UK. This 3500 m2 solar office building at the Doxford International Business Park near Sunderland in the UK incorporates 646 m2 of photovoltaic modules. Facades: Facades Solar cells can be made in different colors Glass façades on office buildings, winter gardens or sunroofs on automobiles will become energy suppliers with the transparent solar cell. The use of the transparent, dark blue solar cells allows a beautiful play of light and shadow. The standard product lets a tenth of the light pass through and has a 10 % efficiency rate. Solar Cube: Solar Cube The 20kW cube stands 135 feet tall on top of the Discovery Science Center in Santa AnaSolar Olympics: Solar Olympics The 1996 Olympic Games in Atlanta featured a very unique PV system. The Natatorium (swimming and diving facility) that houses a large PV array for powering the facility also features a canopy system at the entrance to the building. The modules were made especially for the swimming facility with a clear backing to allow light to pass through. Solar PV as Shading: Solar PV as ShadingCentralized PV: Centralized PV Prescott Airport Location: AZ Operator: Arizona Public Service Configuration: 1,450 kWp SGS Solar Location: AZ Operator: Tucson Electric Power Co Configuration: 3,200 kWpPros and Cons of Centralized PV: Pros and Cons of Centralized PV Advantages Economy of scale Single location for maintenance You can put a fence around it Disadvantages All eggs in one basket – natural/terrorist disaster Transmission losses Land costRem: Distributed vs Centralized: Rem: Distributed vs Centralized Hysperia PV Power Station. Solar Concentrators: Solar Concentrators These 20-kW Solar Systems dishes dwarf visitors in Alice Springs, Australia. The concentrators use an array of mirrors to focus sunlight onto high-efficiency solar cells. Four supports hold the cells in front of the mirrors The supports also supply cooling water and electrical connections Centralized Wind-Solar Hybrid System: Centralized Wind-Solar Hybrid System In hybrid energy systems more than a single source of energy supplies the electricity. Wind and Solar compliment one another Hybrid PV-Diesel Systems: Hybrid PV-Diesel Systems Unique to the project is the introduction of a new generation of hybrid power processing equipment. This new 115 kW PV/hybrid energy systemArt and PV: Art and PV Located among the rolling hills of Northern California, these solar electric sunflowers elegantly combine art and technology. Each sunflower produces 1 kW of solar electricity and consists of four 240 Wp polycrystalline PV modules custom made with yellow back-skins and yellow frames. The custom PV modules are attached to a two-axis-tracking mechanism and mounted on custom-painted green poles producing a field of 36 kW solar electric sunflowers. The sunflowers wake up each day and follow the sun's path from sunrise to sunset, increasing solar harvest over a fixed array by 25%. This system produces enough energy for approximately eight to ten homes and was an ideal engineering solution for the steep hillside site.PV Systems for Transportation : PV Systems for Transportation PV will be most applicable to transportation if it can be stored Batteries Electrolysis of water to produce hydrogenSolar Car Racing: Solar Car Racing Car #195, Cal State University/Long Beach, at the start line of Sunrayce 1995 Sunrayce is a biennial solar-powered car race for colleges and universities in North America. Students design, build and then race their car 1,250 km from Indianapolis, IN, to Colo. Springs, CO.Can Cars be Solar Powered?: Can Cars be Solar Powered? From July 15th to the 25th, 2001, 2300 miles of solar “raycing” challenged teams from around the world. High tech and high efficiency solar cars crossed the Great Plains, climbed the Rocky Mountains, and dashed over the Great American Desert to the finish line in Southern California More Solar Cars: More Solar Cars This solar powered race car was built in Philadelphia, Pennsylvania, by students at Drexel University during the 1989-1990 school year. Car #43, University of Missouri/ Columbia, on the road in Sunrayce 1995 PV Covered Parking: PV Covered Parking Electric or hybrid electric vehicles can recharge their batteries at PV power stations such as this one at the University of S. Florida. Covered parking in California provides shading and makes electricityPV Integrated into Highway Sound Barriers: PV Integrated into Highway Sound Barriers Solar Panels on Sound Barriers This solar power, in proposed system, could give EVs essentially unlimited range on freeways that supply in-transit power. Highway sound barrier above planted slope, with integrated PV panels, in Austria. An upcoming project in Holland will use PVs, installed on railway right-of-way, to power an entire electric rail system. Solar Powered Bikes and Gold Carts!: Solar Powered Bikes and Gold Carts! Team #2, from Green Mountain High School in Lakewood, CO won the women's division of the solar bike race These golf carts are powered by photovoltaic modules from Shell SolarSolar Electric for Boats: Solar Electric for Boats 300-watt system powers on-board communications and lighting, an application that has been in use for 15 years Solar Boats: Solar Boats On board, the solar modules create a fascinating play of light, shadow, and transparency. The largest solar boat in the world began operating on the Alster River in Hamburg on May 23, 2000. This boat can hold up to 120 passengers for excursions and charter tours The boat can hold up to 120 passengers for excursions and charter tours. The "Alster Sun" reaches a speed of 5 kmph just from solar power. If it has to go faster, the rest of the energy comes from batteries. Solar Powered Fun!: Solar Powered Fun! Catamaran “Sol 10”: direct current powering from 550 to 1600 watts. No drivers license needed, unsinkable, and easy to use. Solar Photovoltaics is the Future: Solar Photovoltaics is the FutureAcknowledgements: Acknowledgements This is the third in a series of presentations created for the solar energy community to assist in the dissemination of information about solar photovoltaics. This work was supported from a grant from the Pennsylvania State System of Higher Education. The author would like to acknowledge assistance in collecting information for this presentation from Heather Zielonka. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Solar3applications sm Davide Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 388 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: January 11, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Engineering Photovoltaic Systems II: Engineering Photovoltaic Systems II Application Flexibility of Solar Electricity Original Presentation by J. M. Pearce, 2006 Email: profpearce@gmail.comOutline Part II: Outline Part II Distributed Energy Source Roof Retrofits BIPV Tiles, Shingles Facades Parking and Sound Barriers Centralized PV PV Systems for Transportation Cars, Boats, and Bikes Photovoltaic Cells as Distributed Energy Source: Photovoltaic Cells as Distributed Energy Source Located near the consumer in order to eliminate transmission losses (which can be higher than 50% on some antiquated grids). Panels can be placed on roofs, built into roofs, building facades, carports, highway sound barriers, etc. Any surface which is exposed to sunlight is fair game. Roof Retrofits: Roof Retrofits This house on right is modular construction and includes 6 kW of PV modules. Below retrofits to schoolsBuilding Integrated Photovoltaics or BIPV: Building Integrated Photovoltaics or BIPV The design and integration of PV technology into the building envelope, usually replacing conventional building materials: vertical facades, replacing view glass, spandrel glass, or other facade material; into semitransparent skylight systems; into roofing systems, replacing traditional roofing materials; into shading "eyebrows" over windows; or other building envelope systems. Solar modules come in a variety of shapes, colors, sizes and can be integrated into any type of architecture. Advantages Aesthetics Reduce the cost of the system (e.g. roof, awning, etc.)Residential Rooftops: Residential Rooftops Specifically designed for PV. This energy efficient home in Oxford generates more electricity than it uses. Surplus electricity is sold to the local utility company and to power an electric car Roofing Tiles and Shingles: Roofing Tiles and Shingles The PV shingle shown here won Popular Science Magazine's grand award for What's new in Environmental Technology. PV shingles can replace common roofing shingles. PV shingles look much like ordinary roofing shingles, but they generate electricity. They were laid out and nailed to the roof using the same methods as are used to lay conventional shingles. Like their non-PV counterparts, these shingles overlap providing for water shedding capability. Relaxing on Solar Shingles: Relaxing on Solar Shingles Bill Ball, president of the Stellar Sun Shop in Little Rock, Arkansas, is clearly comfortable with PV shingles on the rooftop of his shop. The flexible shingles, rated at 17 watts each, are manufactured by United Solar Systems Corp. Peal and Stick Solar Cells: Peal and Stick Solar Cells Thin film amorphous silicon solar cells which can be deposited on plastic or steel (right) are extremely versatile The panels on the right can be stuck directly to standard standing seam metal roofsStanding-Seam PV: Standing-Seam PV Buildings with standing-seam metal roofs can use solar module material referred to as "thin films" that can be rolled out inside the standing seams. Roof-integrated PV panels were installed on the south-facing roof of the BigHorn Home Improvement Center in Silverthorne, Colorado. Semi-Transparent Solar PV: Semi-Transparent Solar PV These panels have amorphous silicon deposited on glass and are semi-transparent – they can be used both as tinted glass but also as a project screen backdrop.Putting it all Together: Putting it all Together The Boston Edison “Impact 2000” home incorporated a 4-kWp utility-connected photovoltaic array in the original construction all electric appliances, solar electric water heating, and both passive and active space heating. Commercial Rooftops: Commercial Rooftops Large rooftops are ideal locations for PV PowerGuard sloped tiles, 150 Wp per tile, shown on customer's roof PV at Lowe's: PV at Lowe's Lowe’s executives determined that clean, reliable distributed solar generation offers many benefits both to its retail operations and to the surrounding community. Lowe’s is extremely committed to reducing greenhouse gas emissions, while promoting and selling energy efficient home improvement products. Lowe’s sought a cost-effective solution to reduce the operating costs associated with providing reliable electricity supply at its West Hills store. Could Wal-Mart be far behind?: Could Wal-Mart be far behind? Wal-Mart McKinney Location: TX Operator: Wal-Mart Configuration: 59 kWp PV Operation: 2005 System supplier: RWE Schott This pilot installation for Wal-Mart has 5,500sqft of crystalline and thin film PV in five separate locations. Solar Powered Hotels: Solar Powered Hotels Hawaii’s Mauna Lani Bay Hotel This sprawling hotel had acres of roof space, making it the perfect host for a photovoltaic system. They installed a PowerGuard (R) system of insulating PV roofing tiles that covers 10,000 ft2 and generates 75kWs. The hotel will be spared hundreds and thousands of dollars in utility bills. 4 Times Square - BIPV : 4 Times Square - BIPV The building’s most advanced feature is the photovoltaic skin, a system that uses thin-film PV panels to replace traditional glass cladding material. The PV curtain wall extends from the 35th to the 48th floor on the south and east walls of the building, making it a highly visible part of the midtown New York skyline. Solar Skylights and Cladding: Solar Skylights and CladdingPV Facades: PV Facades Scheidegger Building with photovoltaic facade near Bern in Switzerland. Courtesy of Atlantis Solar Systeme AG Austria SwtizerlandSlide20: Building FacadesBuilding Facades: Building Facades 73 kW system and generates ~ 55 000 kW-hrs of electricity per year in Sunderland, UK. This 3500 m2 solar office building at the Doxford International Business Park near Sunderland in the UK incorporates 646 m2 of photovoltaic modules. Facades: Facades Solar cells can be made in different colors Glass façades on office buildings, winter gardens or sunroofs on automobiles will become energy suppliers with the transparent solar cell. The use of the transparent, dark blue solar cells allows a beautiful play of light and shadow. The standard product lets a tenth of the light pass through and has a 10 % efficiency rate. Solar Cube: Solar Cube The 20kW cube stands 135 feet tall on top of the Discovery Science Center in Santa AnaSolar Olympics: Solar Olympics The 1996 Olympic Games in Atlanta featured a very unique PV system. The Natatorium (swimming and diving facility) that houses a large PV array for powering the facility also features a canopy system at the entrance to the building. The modules were made especially for the swimming facility with a clear backing to allow light to pass through. Solar PV as Shading: Solar PV as ShadingCentralized PV: Centralized PV Prescott Airport Location: AZ Operator: Arizona Public Service Configuration: 1,450 kWp SGS Solar Location: AZ Operator: Tucson Electric Power Co Configuration: 3,200 kWpPros and Cons of Centralized PV: Pros and Cons of Centralized PV Advantages Economy of scale Single location for maintenance You can put a fence around it Disadvantages All eggs in one basket – natural/terrorist disaster Transmission losses Land costRem: Distributed vs Centralized: Rem: Distributed vs Centralized Hysperia PV Power Station. Solar Concentrators: Solar Concentrators These 20-kW Solar Systems dishes dwarf visitors in Alice Springs, Australia. The concentrators use an array of mirrors to focus sunlight onto high-efficiency solar cells. Four supports hold the cells in front of the mirrors The supports also supply cooling water and electrical connections Centralized Wind-Solar Hybrid System: Centralized Wind-Solar Hybrid System In hybrid energy systems more than a single source of energy supplies the electricity. Wind and Solar compliment one another Hybrid PV-Diesel Systems: Hybrid PV-Diesel Systems Unique to the project is the introduction of a new generation of hybrid power processing equipment. This new 115 kW PV/hybrid energy systemArt and PV: Art and PV Located among the rolling hills of Northern California, these solar electric sunflowers elegantly combine art and technology. Each sunflower produces 1 kW of solar electricity and consists of four 240 Wp polycrystalline PV modules custom made with yellow back-skins and yellow frames. The custom PV modules are attached to a two-axis-tracking mechanism and mounted on custom-painted green poles producing a field of 36 kW solar electric sunflowers. The sunflowers wake up each day and follow the sun's path from sunrise to sunset, increasing solar harvest over a fixed array by 25%. This system produces enough energy for approximately eight to ten homes and was an ideal engineering solution for the steep hillside site.PV Systems for Transportation : PV Systems for Transportation PV will be most applicable to transportation if it can be stored Batteries Electrolysis of water to produce hydrogenSolar Car Racing: Solar Car Racing Car #195, Cal State University/Long Beach, at the start line of Sunrayce 1995 Sunrayce is a biennial solar-powered car race for colleges and universities in North America. Students design, build and then race their car 1,250 km from Indianapolis, IN, to Colo. Springs, CO.Can Cars be Solar Powered?: Can Cars be Solar Powered? From July 15th to the 25th, 2001, 2300 miles of solar “raycing” challenged teams from around the world. High tech and high efficiency solar cars crossed the Great Plains, climbed the Rocky Mountains, and dashed over the Great American Desert to the finish line in Southern California More Solar Cars: More Solar Cars This solar powered race car was built in Philadelphia, Pennsylvania, by students at Drexel University during the 1989-1990 school year. Car #43, University of Missouri/ Columbia, on the road in Sunrayce 1995 PV Covered Parking: PV Covered Parking Electric or hybrid electric vehicles can recharge their batteries at PV power stations such as this one at the University of S. Florida. Covered parking in California provides shading and makes electricityPV Integrated into Highway Sound Barriers: PV Integrated into Highway Sound Barriers Solar Panels on Sound Barriers This solar power, in proposed system, could give EVs essentially unlimited range on freeways that supply in-transit power. Highway sound barrier above planted slope, with integrated PV panels, in Austria. An upcoming project in Holland will use PVs, installed on railway right-of-way, to power an entire electric rail system. Solar Powered Bikes and Gold Carts!: Solar Powered Bikes and Gold Carts! Team #2, from Green Mountain High School in Lakewood, CO won the women's division of the solar bike race These golf carts are powered by photovoltaic modules from Shell SolarSolar Electric for Boats: Solar Electric for Boats 300-watt system powers on-board communications and lighting, an application that has been in use for 15 years Solar Boats: Solar Boats On board, the solar modules create a fascinating play of light, shadow, and transparency. The largest solar boat in the world began operating on the Alster River in Hamburg on May 23, 2000. This boat can hold up to 120 passengers for excursions and charter tours The boat can hold up to 120 passengers for excursions and charter tours. The "Alster Sun" reaches a speed of 5 kmph just from solar power. If it has to go faster, the rest of the energy comes from batteries. Solar Powered Fun!: Solar Powered Fun! Catamaran “Sol 10”: direct current powering from 550 to 1600 watts. No drivers license needed, unsinkable, and easy to use. Solar Photovoltaics is the Future: Solar Photovoltaics is the FutureAcknowledgements: Acknowledgements This is the third in a series of presentations created for the solar energy community to assist in the dissemination of information about solar photovoltaics. This work was supported from a grant from the Pennsylvania State System of Higher Education. The author would like to acknowledge assistance in collecting information for this presentation from Heather Zielonka.