• How low-e coatings work• The differences between “passive” and “solar control” low-e coatings• How the energy, environmental and economic benefits of low-e glass have been quantified• The energy impact of various low-e coated glass through simulation modeling
Solar lighting provides a cost-effective alternative to grid-connected lighting for pathways and trails. Solar lights can be installed at a lower cost than trenching, wiring, and connecting to the electrical grid. They also avoid environmental impacts from installing underground infrastructure. Solar lights are powered by the sun and produce no greenhouse gases. They provide safety and security for trails at night without requiring electrical service or equipment.
This document provides information about the Optoma EX631 DLP projector. In 3 sentences:
The Optoma EX631 projector offers 6000 hours of lamp life, 70% energy savings with Eco+ mode, and projects bright, detailed images with 10,000:1 contrast ratio. It has extensive connectivity including HDMI and VGA inputs, and features like network control with Crestron RoomView for remote management. The EX631 is suited for business and education presentations with its XGA resolution, built-in speakers, and wireless projection capabilities through an optional adapter.
The document introduces the Eco-Lens design system for improving LED flashlights. It summarizes three common flashlight designs and their limitations, then demonstrates through examples how Eco-Lens reflector designs can provide brighter and more uniform illumination compared to traditional designs, while allowing for smaller packaging. Specific benefits shown include up to 60% brighter illumination within the same or tighter beam, more tailored spillbeam properties, and the ability to immediately replace existing reflectors for improved performance.
Sourcetec is a Canadian engineering company that has designed, manufactured, installed, and maintained solar solutions since 1993. They provide solar street lamps as a reliable, efficient alternative to grid-connected street lights. Solar street lamps have significant benefits over traditional lights, including zero annual energy costs and maintenance requirements that are half the cost. A financial comparison of solar street lamps versus grid-connected high pressure sodium lamps found that the solar option had lower total cost of ownership over 10 years due to energy and maintenance savings.
Stonco is proud to unveil our brand new LED site lighting package featuring Philips LifeLED Technology. Our package includes a collection of architectural area lights, wall mounted sconces and ceiling mounted parking garage and canopy luminaires.
LED lighting uses less energy and saves money compared to traditional lighting sources. LEDs produce light through electroluminescence, emitting photons when electrons and holes recombine within the semiconductor material. LED lights have long lifespans of over 50,000 hours and provide flexibility through various color temperatures and control options. LED lighting is more efficient and environmentally friendly than incandescent, fluorescent, or halogen lighting.
The document discusses the history and science of LED lights. It describes how a Russian inventor first observed light being emitted from diodes in the 1920s. It explains that LEDs are more efficient and durable than incandescent and CFL bulbs, lasting 50,000 hours compared to 1,200 and 8,000 hours respectively. LEDs also use less energy, produce less heat, and contain no mercury. The document provides examples of LED use in traffic lights, vehicles, and architectural lighting.
Basics of opical imaging (NON IMAGING OPTICS)Tayyab Farooq
1) The document provides an introduction to basic optical concepts including refraction, total internal reflection, Fresnel reflection losses, blackbody radiation, color mixing, and the human eye response.
2) It describes Lambertian and uniform emitters and their radiation patterns. Lambertian emitters radiate light uniformly in all directions from a surface, while uniform emitters radiate light uniformly in solid angle.
3) The document discusses several nonimaging optics design rules for efficiently transferring light from a source to a target, including flux, etendue, and luminance conservation as well as the edge ray principle.
Solar lighting provides a cost-effective alternative to grid-connected lighting for pathways and trails. Solar lights can be installed at a lower cost than trenching, wiring, and connecting to the electrical grid. They also avoid environmental impacts from installing underground infrastructure. Solar lights are powered by the sun and produce no greenhouse gases. They provide safety and security for trails at night without requiring electrical service or equipment.
This document provides information about the Optoma EX631 DLP projector. In 3 sentences:
The Optoma EX631 projector offers 6000 hours of lamp life, 70% energy savings with Eco+ mode, and projects bright, detailed images with 10,000:1 contrast ratio. It has extensive connectivity including HDMI and VGA inputs, and features like network control with Crestron RoomView for remote management. The EX631 is suited for business and education presentations with its XGA resolution, built-in speakers, and wireless projection capabilities through an optional adapter.
The document introduces the Eco-Lens design system for improving LED flashlights. It summarizes three common flashlight designs and their limitations, then demonstrates through examples how Eco-Lens reflector designs can provide brighter and more uniform illumination compared to traditional designs, while allowing for smaller packaging. Specific benefits shown include up to 60% brighter illumination within the same or tighter beam, more tailored spillbeam properties, and the ability to immediately replace existing reflectors for improved performance.
Sourcetec is a Canadian engineering company that has designed, manufactured, installed, and maintained solar solutions since 1993. They provide solar street lamps as a reliable, efficient alternative to grid-connected street lights. Solar street lamps have significant benefits over traditional lights, including zero annual energy costs and maintenance requirements that are half the cost. A financial comparison of solar street lamps versus grid-connected high pressure sodium lamps found that the solar option had lower total cost of ownership over 10 years due to energy and maintenance savings.
Stonco is proud to unveil our brand new LED site lighting package featuring Philips LifeLED Technology. Our package includes a collection of architectural area lights, wall mounted sconces and ceiling mounted parking garage and canopy luminaires.
LED lighting uses less energy and saves money compared to traditional lighting sources. LEDs produce light through electroluminescence, emitting photons when electrons and holes recombine within the semiconductor material. LED lights have long lifespans of over 50,000 hours and provide flexibility through various color temperatures and control options. LED lighting is more efficient and environmentally friendly than incandescent, fluorescent, or halogen lighting.
The document discusses the history and science of LED lights. It describes how a Russian inventor first observed light being emitted from diodes in the 1920s. It explains that LEDs are more efficient and durable than incandescent and CFL bulbs, lasting 50,000 hours compared to 1,200 and 8,000 hours respectively. LEDs also use less energy, produce less heat, and contain no mercury. The document provides examples of LED use in traffic lights, vehicles, and architectural lighting.
Basics of opical imaging (NON IMAGING OPTICS)Tayyab Farooq
1) The document provides an introduction to basic optical concepts including refraction, total internal reflection, Fresnel reflection losses, blackbody radiation, color mixing, and the human eye response.
2) It describes Lambertian and uniform emitters and their radiation patterns. Lambertian emitters radiate light uniformly in all directions from a surface, while uniform emitters radiate light uniformly in solid angle.
3) The document discusses several nonimaging optics design rules for efficiently transferring light from a source to a target, including flux, etendue, and luminance conservation as well as the edge ray principle.
The document provides information on Shrishti Enterprises' induction lighting systems for street lamps. It includes physical dimensions and specifications for several street lamp models ranging from 40W to 200W. The lamps have a color rendering index over 80, high luminous efficiency between 64-82 lumens per watt, and long lifetimes before maintenance is needed. Induction lighting is described as providing energy savings over other lamp types due to high efficiency and long lifetime with no need for relamping.
Lighting is a major component of electrical energy consumption in commercial buildings.With increases in energy costs, there is a growing need for efficient, cost-effective lighting options. At this workshop, Cheryl Allen of Green Planet Lighting will display modern lighting alternatives to control operational costs and deliver more sustainable solutions.
Choosing Lenses For Power Led Based Luminairevfurlan
There are many Power LED lens manufacturers worldwide. Each of them is producing lenses for determined types and manufacturers of Power LED. LED are all different so that one lens can be used on only one LED. From experience gained in the last months, we can say that a significant part of these lenses are not so dedicated and the results are quite different from expectations. When measuring lenses in combination with adequate LED we focused our attention on efficacy, repeatability, consistency with the nominal data and problems with the installation.
The document analyzes three production spotlights (TIR lenses) and compares their performance to equivalent Eco-TIR lenses designed using BrightBurst's Eco-Lens design system. Simulation results show the Eco-TIR lenses produce brighter, more uniform illuminance distributions with no hotspots compared to the production lenses, increasing brightness by up to 2.7 times. The Eco-TIR lenses achieve superior performance using simpler, single-sided injection molded designs compared to production lenses which use additional complex lens features and diffusion.
Epson home entertainment projectors provide a big screen experience for movies, sports and games. They feature simple setup and use Epson's 3LCD technology for sharp, accurate colors without flicker. Models are available for HD resolution up to 1080p with high brightness for daylight viewing. Epson projectors can connect to various devices and are portable for flexible home entertainment.
Epson home entertainment projectors provide a big screen experience for movies, sports and games. They feature simple setup and use Epson's 3LCD technology for sharp, accurate colors without flicker. Models are available for HD resolution up to 1080p with high brightness for daylight viewing. Epson projectors can connect to various devices and are portable for flexible home entertainment.
I enjoy baking. I enjoy technologies for example led flashlight. I basically by no means concept to put the 2 together. Israel-based artist and designer Debbi Nitsan, nonetheless, is already on the case.
The document discusses replacing traditional street lighting with solar LED lighting. It introduces Visionary Lighting and Energy, a social enterprise focused on bringing renewable energy and LED lighting technologies to developing countries. Solar LED street lighting systems are presented as an energy efficient and low maintenance alternative to traditional street lights. Calculations show the solar LED lights can reduce energy consumption by over 60% and pay for themselves within 2 years, while also reducing carbon emissions.
The document provides an overview of general lighting concepts, including the nature of light and lamps. It defines key radiometric and photometric terms like luminous flux, illuminance, luminous intensity, and luminance. It also covers the visible light spectrum, color temperature, and color rendering properties. Various lamp types are described such as incandescent, halogen, fluorescent, sodium vapor, and LEDs. Performance metrics like efficacy and lifetime are discussed.
This document summarizes several LED products for lighting applications. It provides specifications for multiple product lines including: LCW100Z1, LCW100Z2, 803 Series, 728 Series, 5630 Series, P4 Series, Z5, Z6, Z7, and A3. For each product line, it lists key advantages, applications, size, electrical and optical characteristics, and production schedules. The level of detail provided about specifications allows for comparison of performance across the different LED options.
This document introduces Everwild Energy Solutions (EES) and their mission to enhance lives through integrated energy solutions. It provides details on EES's LED lighting products, including street lights, wall packs, ceiling lights, and linear tubes. The LED lights have a lifetime of up to 100,000 hours and offer energy savings compared to traditional lighting through revolutionary thermal design and management. EES aims to provide eco-friendly lighting that meets all relevant certifications and standards while delivering excellent customer service.
The document discusses energy efficient building envelopes from the perspective of the Energy Conservation Building Code (ECBC) in India. It covers key factors related to the building envelope that impact energy efficiency, such as opaque walls and spandrels, vision glass or fenestration, shading, and air leakage. Specific parameters discussed include insulation R-values, U-values, solar heat gain coefficients (SHGC), visible light transmittance, and building envelope sealing details. The benefits of using glass systems in construction are outlined. Key performance factors for glass like total heat gain, light transmission, and strategies to control daylight and energy are summarized.
Big Ed™ 3700 Photoluminescent Flashlight
Same as the 3700 Flashlight but outfitted with a lens ring that emits a bright glow in the dark.
The new generation photoluminescent material in the plastic absorbs the energy from any
light source - fluorescent lights, the sun, or even the flashlight\'s own beam. No more
fumbling in the dark for your flashlight. The Big Ed 3700PL is powered by 4 C alkaline cells.
The document discusses common myths and misconceptions about LED lighting technology. It begins by explaining what LEDs are and how they work, then discusses their advantages over traditional lighting sources like incandescent and fluorescent bulbs. It outlines 12 common myths, such as claims that LEDs last forever, produce no heat, or are always less expensive than other options. The document emphasizes that proper thermal management and testing standards are important to ensure high quality performance and longevity of LED lighting systems.
Cree is a leading manufacturer of LED lighting technologies. They have driven down the cost of LED lighting through improvements in LED chip, package, and phosphor technologies that have increased LED efficacy and lumen output over time. Cree offers a range of LED products from discrete LEDs to integrated arrays suited for different lighting applications. Proper binning of LEDs by color point and flux ensures quality and consistency of light output.
Induction lighting is a fluorescent lamp technology that generates light through electromagnetic induction. It eliminates the need for electrodes and filaments by using a high frequency magnetic field to excite mercury atoms within the lamp. This causes the mercury to emit UV light that the phosphor coating converts to visible light. External induction lamps have an induction coil wrapped around the lamp tube, while internal lamps have a re-entrant cavity containing the coil. Induction lamps have longer lifetimes than traditional fluorescent lamps and produce light with a higher scotopic to photopic ratio, making the light appear brighter to human vision and allowing lower wattage induction lamps to replace higher wattage traditional lamps.
This document discusses various types of lighting technologies and their properties. It covers incandescent, fluorescent, high intensity discharge (HID), and emergency lighting. It provides information on spectral properties, luminous flux, luminous intensity, illuminance, efficacy, lamp types, ballasts, starters, advantages and disadvantages of each technology type. It also discusses lighting calculations, photometry, glare, distribution, and emergency evacuation lighting requirements and standards.
The document discusses mesopic vision and its importance in lighting design. It describes the three states of human eye response - scotopic, mesopic, and photopic. Mesopic vision occurs at low light levels, between scotopic and photopic, and the eye has a peak sensitivity to light in the blue-green region of the spectrum. This mesopic effect is quantified using the S/P ratio and effective luminance factor (ELF). Considering mesopic vision can improve the efficacy of LED lighting systems compared to high pressure sodium lamps, with energy savings for street lighting applications. Tables show typical S/P ratios and ELF values are affected by light source spectrum.
Website: https://www.customtintsolutions.com/cities/austin/
Custom Tint Solutions Window Film Austin.
This file is from Austin, Texas. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Custom Tint Solutions hopes you enjoy.
This document discusses different glazing systems and their properties. It compares the thermal performance and costs of sealed insulating glass versus dual glazing systems. Sealed insulating glass has better thermal performance due to its low emissivity coatings and air space, but dual glazing allows for between-glass options and easier re-glazing. The document provides details on glass properties, heat transfer mechanisms, and the impact of low-e coatings, spacers and blinds on thermal performance.
Website: https://www.customtintsolutions.com/cities/austin/
Custom Tint Solutions Window Film Austin.
This file is from Austin, Texas. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Custom Tint Solutions hopes you enjoy.
The document provides information on Shrishti Enterprises' induction lighting systems for street lamps. It includes physical dimensions and specifications for several street lamp models ranging from 40W to 200W. The lamps have a color rendering index over 80, high luminous efficiency between 64-82 lumens per watt, and long lifetimes before maintenance is needed. Induction lighting is described as providing energy savings over other lamp types due to high efficiency and long lifetime with no need for relamping.
Lighting is a major component of electrical energy consumption in commercial buildings.With increases in energy costs, there is a growing need for efficient, cost-effective lighting options. At this workshop, Cheryl Allen of Green Planet Lighting will display modern lighting alternatives to control operational costs and deliver more sustainable solutions.
Choosing Lenses For Power Led Based Luminairevfurlan
There are many Power LED lens manufacturers worldwide. Each of them is producing lenses for determined types and manufacturers of Power LED. LED are all different so that one lens can be used on only one LED. From experience gained in the last months, we can say that a significant part of these lenses are not so dedicated and the results are quite different from expectations. When measuring lenses in combination with adequate LED we focused our attention on efficacy, repeatability, consistency with the nominal data and problems with the installation.
The document analyzes three production spotlights (TIR lenses) and compares their performance to equivalent Eco-TIR lenses designed using BrightBurst's Eco-Lens design system. Simulation results show the Eco-TIR lenses produce brighter, more uniform illuminance distributions with no hotspots compared to the production lenses, increasing brightness by up to 2.7 times. The Eco-TIR lenses achieve superior performance using simpler, single-sided injection molded designs compared to production lenses which use additional complex lens features and diffusion.
Epson home entertainment projectors provide a big screen experience for movies, sports and games. They feature simple setup and use Epson's 3LCD technology for sharp, accurate colors without flicker. Models are available for HD resolution up to 1080p with high brightness for daylight viewing. Epson projectors can connect to various devices and are portable for flexible home entertainment.
Epson home entertainment projectors provide a big screen experience for movies, sports and games. They feature simple setup and use Epson's 3LCD technology for sharp, accurate colors without flicker. Models are available for HD resolution up to 1080p with high brightness for daylight viewing. Epson projectors can connect to various devices and are portable for flexible home entertainment.
I enjoy baking. I enjoy technologies for example led flashlight. I basically by no means concept to put the 2 together. Israel-based artist and designer Debbi Nitsan, nonetheless, is already on the case.
The document discusses replacing traditional street lighting with solar LED lighting. It introduces Visionary Lighting and Energy, a social enterprise focused on bringing renewable energy and LED lighting technologies to developing countries. Solar LED street lighting systems are presented as an energy efficient and low maintenance alternative to traditional street lights. Calculations show the solar LED lights can reduce energy consumption by over 60% and pay for themselves within 2 years, while also reducing carbon emissions.
The document provides an overview of general lighting concepts, including the nature of light and lamps. It defines key radiometric and photometric terms like luminous flux, illuminance, luminous intensity, and luminance. It also covers the visible light spectrum, color temperature, and color rendering properties. Various lamp types are described such as incandescent, halogen, fluorescent, sodium vapor, and LEDs. Performance metrics like efficacy and lifetime are discussed.
This document summarizes several LED products for lighting applications. It provides specifications for multiple product lines including: LCW100Z1, LCW100Z2, 803 Series, 728 Series, 5630 Series, P4 Series, Z5, Z6, Z7, and A3. For each product line, it lists key advantages, applications, size, electrical and optical characteristics, and production schedules. The level of detail provided about specifications allows for comparison of performance across the different LED options.
This document introduces Everwild Energy Solutions (EES) and their mission to enhance lives through integrated energy solutions. It provides details on EES's LED lighting products, including street lights, wall packs, ceiling lights, and linear tubes. The LED lights have a lifetime of up to 100,000 hours and offer energy savings compared to traditional lighting through revolutionary thermal design and management. EES aims to provide eco-friendly lighting that meets all relevant certifications and standards while delivering excellent customer service.
The document discusses energy efficient building envelopes from the perspective of the Energy Conservation Building Code (ECBC) in India. It covers key factors related to the building envelope that impact energy efficiency, such as opaque walls and spandrels, vision glass or fenestration, shading, and air leakage. Specific parameters discussed include insulation R-values, U-values, solar heat gain coefficients (SHGC), visible light transmittance, and building envelope sealing details. The benefits of using glass systems in construction are outlined. Key performance factors for glass like total heat gain, light transmission, and strategies to control daylight and energy are summarized.
Big Ed™ 3700 Photoluminescent Flashlight
Same as the 3700 Flashlight but outfitted with a lens ring that emits a bright glow in the dark.
The new generation photoluminescent material in the plastic absorbs the energy from any
light source - fluorescent lights, the sun, or even the flashlight\'s own beam. No more
fumbling in the dark for your flashlight. The Big Ed 3700PL is powered by 4 C alkaline cells.
The document discusses common myths and misconceptions about LED lighting technology. It begins by explaining what LEDs are and how they work, then discusses their advantages over traditional lighting sources like incandescent and fluorescent bulbs. It outlines 12 common myths, such as claims that LEDs last forever, produce no heat, or are always less expensive than other options. The document emphasizes that proper thermal management and testing standards are important to ensure high quality performance and longevity of LED lighting systems.
Cree is a leading manufacturer of LED lighting technologies. They have driven down the cost of LED lighting through improvements in LED chip, package, and phosphor technologies that have increased LED efficacy and lumen output over time. Cree offers a range of LED products from discrete LEDs to integrated arrays suited for different lighting applications. Proper binning of LEDs by color point and flux ensures quality and consistency of light output.
Induction lighting is a fluorescent lamp technology that generates light through electromagnetic induction. It eliminates the need for electrodes and filaments by using a high frequency magnetic field to excite mercury atoms within the lamp. This causes the mercury to emit UV light that the phosphor coating converts to visible light. External induction lamps have an induction coil wrapped around the lamp tube, while internal lamps have a re-entrant cavity containing the coil. Induction lamps have longer lifetimes than traditional fluorescent lamps and produce light with a higher scotopic to photopic ratio, making the light appear brighter to human vision and allowing lower wattage induction lamps to replace higher wattage traditional lamps.
This document discusses various types of lighting technologies and their properties. It covers incandescent, fluorescent, high intensity discharge (HID), and emergency lighting. It provides information on spectral properties, luminous flux, luminous intensity, illuminance, efficacy, lamp types, ballasts, starters, advantages and disadvantages of each technology type. It also discusses lighting calculations, photometry, glare, distribution, and emergency evacuation lighting requirements and standards.
The document discusses mesopic vision and its importance in lighting design. It describes the three states of human eye response - scotopic, mesopic, and photopic. Mesopic vision occurs at low light levels, between scotopic and photopic, and the eye has a peak sensitivity to light in the blue-green region of the spectrum. This mesopic effect is quantified using the S/P ratio and effective luminance factor (ELF). Considering mesopic vision can improve the efficacy of LED lighting systems compared to high pressure sodium lamps, with energy savings for street lighting applications. Tables show typical S/P ratios and ELF values are affected by light source spectrum.
Website: https://www.customtintsolutions.com/cities/austin/
Custom Tint Solutions Window Film Austin.
This file is from Austin, Texas. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Custom Tint Solutions hopes you enjoy.
This document discusses different glazing systems and their properties. It compares the thermal performance and costs of sealed insulating glass versus dual glazing systems. Sealed insulating glass has better thermal performance due to its low emissivity coatings and air space, but dual glazing allows for between-glass options and easier re-glazing. The document provides details on glass properties, heat transfer mechanisms, and the impact of low-e coatings, spacers and blinds on thermal performance.
Website: https://www.customtintsolutions.com/cities/austin/
Custom Tint Solutions Window Film Austin.
This file is from Austin, Texas. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Custom Tint Solutions hopes you enjoy.
Salt lake-window-tinting-window-film-madico-architectural-spec-sheet-1SaltLakeWindowTinting
This file is from Salt Lake City, Utah. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Salt Lake Window Tinting hopes you enjoy.
Website: https://www.scottishwindowtinting.com/salt-lake-city/
Scottish Window Tinting Salt Lake City.
This file is from Salt Lake City, Utah. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Scottish Window Tinting hopes you enjoy.
Website: https://www.customtintsolutions.com/cities/austin/
Custom Tint Solutions Window Film Austin.
This file is from Austin, Texas. It contains information about window tinting. All information and rights to the material are copyrighted by the company to whom it belongs to. Thank you for viewing. Custom Tint Solutions hopes you enjoy.
This document provides specifications for various solar control window films, including their performance ratings for total solar energy transmission, visible light transmission, solar heat gain, infrared rejection, and ultraviolet rejection. The films are divided into product lines/series including Premium, Decorator, Reflective, Exterior, and Specialty. Within each series, multiple film options are listed with their specific optical and thermal properties such as visible light transmission percentages ranging from 10% to 85% across film types.
1. The document discusses reflective coatings that can improve energy efficiency by reducing internal temperatures.
2. An experiment tested different coating materials and found that barium sulfate had the highest reflectance, reducing inside temperatures the most in a prototype.
3. The coatings can lower air conditioning costs and emissions by decreasing the need to power energy-intensive cooling systems.
Dynamic Glazing by Guardian - Tint on demandSam Malty
SunGuard EC glass transitions between clear and tinted states using an electrochromic coating, allowing control over heat gain and daylighting for energy savings. In its clear state, it admits daylight and passive solar heat, while in its tinted state it blocks unwanted solar heat. This provides increased occupant comfort, improved energy performance, and reduced operating costs compared to using shades or blinds. SunGuard EC glass can help projects meet building codes and gain LEED credits.
Dominant Factors Of Gloss Control Rad Tech 2008 Presentationsureshdevisetti
The document discusses factors that influence gloss in radiation curable coatings. It finds that the thickness of the uncured coating layer after the first curing stage is the most important factor in achieving low gloss. The uncured layer thickness depends on parameters like irradiance, UV energy dose, and photoinitiator level during curing. At the optimum photoinitiator percentage, gloss is independent of irradiance and can be controlled using total energy dose. Across photoinitiator levels, gloss correlates best with the concept of "absorbed light intensity" which accounts for irradiance and photoinitiator concentration.
This document provides information on electrodeless induction lamps. It explains that induction lamps operate without electrodes, enhancing lamp life compared to conventional fluorescent lamps. The document discusses the working principle of induction lamps and their advantages, such as extremely long life, high efficiency, and instant starting without flickering. It also notes that the lack of electrodes allows induction lamps to achieve lifespans of up to 60,000 hours. Tables compare induction lamps to other light sources and provide specifications for various induction lamp models.
This document discusses energy efficient building envelopes from the perspective of the Energy Conservation Building Code (ECBC) in India. It covers factors like opaque walls, insulation materials, vision glass, fenestration, shading, air leakage, and building envelope sealing. It then discusses the advantages of using glass and glazing systems, including faster construction, increased floor area, and predictable behavior. Key performance factors for glass like heat gain, U-value, and light transmission are explained. The document also covers daylighting strategies and their effect, as well as strategies to control heat gain like coatings, fritting, and louvers. ECBC compliance requirements for glass and window-to-wall ratios in different climate zones are summarized
This document discusses the development of a new building integrated concentrating photovoltaic system. It aims to generate electricity and control heat flux into buildings. It uses a thermotropic layer that is transparent below a transition temperature but reflective above it. Simulation results show the system could generate around 3.25 kWh of electricity per day for a 10 square meter window in London. Future research plans include experimental validation and exploring the system's thermal performance.
This document is a catalog from SunGET Opto-electronics Co.,Limited that describes their LED lighting products. It lists over 10 pages of LED lighting models including bay lights, flood lights, tunnel lights, down lights, and tube lights. For each model it provides information on power consumption, color temperature, efficiency, lifespan, certifications, and intended applications.
IRJET- Study of Organic Light Emitting DiodeIRJET Journal
This document discusses organic light emitting diodes (OLEDs). It provides background on OLEDs, explaining that they are thin films of organic materials sandwiched between two conductive layers that emit light when electric current is applied. OLEDs are self-luminous, efficient, thin, and flexible. They can be used for displays in devices like phones, laptops, TVs, and signs. The document outlines the working principles of OLEDs and their advantages over other display technologies like LCDs. However, it also notes some challenges with OLEDs related to color balance issues, water damage, and power consumption.
Spectrophotometry uses light absorption to quantitatively analyze chemical substances. The key components of a spectrophotometer include a light source, wavelength selector like a monochromator, sample holder, detector, and readout device. Absorption spectrophotometers operate by measuring the intensity of light passing through a sample, allowing calculation of the sample's absorbance and concentration. Double beam spectrophotometers improve accuracy by simultaneously measuring both the sample and reference beams.
Similar to FG0005 Energy Efficient Glazings HSW SD (20)
This article discusses three key numbers related to global warming:
1) 2° Celsius - The target maximum increase in global average temperature agreed to in international accords to avoid catastrophic climate change. We are currently at 0.8°C of warming and on track to exceed 2°C.
2) 565 gigatons - The estimated amount of additional carbon dioxide that can be emitted while still having a reasonable chance of staying below the 2°C target.
3) 2,795 gigatons - The estimated amount of carbon already contained in proven fossil fuel reserves held by companies and countries. This is 5 times higher than the 565 gigaton "carbon budget" and makes limiting warming below 2
This document lists trademarks owned by PPG Industries and related entities. It highlights some of PPG's innovations in areas like airplane windows that dim, metal coatings that change color with viewing angle, automotive paint technology, and environmentally friendly marine coatings. It also discusses PPG's focus on innovation, sustainability, and color leadership across various industries.
The Texas Glass Association (TGA) announced that Mr. Deron Patterson, Sales Development Manager of PPG Industries, was elected President Elect to the 2011-2012 Board of Directors. The TGA represents businesses in the glass industry and aims to serve glass companies, enhance glass products and services, and advance the glass industry in Texas and the US. Mr. Patterson has worked in the glass industry since 1999 and has been involved with TGA since joining, receiving an award in 2009 and being elected to the Board of Directors in 2010.
The document discusses life purpose from a biblical perspective. It defines life purpose as progressively realizing who God is and being willing to be used to the full extent of His unique will. It notes that discovering life purpose is a spiritual process that involves examining one's past, present, personality, passions, burdens and consecrating oneself to God's will through prayer. Barriers to discovering purpose include lack of commitment, relying on logic, unresolved sin, and busyness. The document provides guidance on crafting a life purpose statement through reflection and receiving revelation from God.
Fg0005 VentaneríA De Eficiencia EnergéTica MéXico Tradderonpatterson
Este documento presenta información sobre ventanería de eficiencia energética. Explica cómo funcionan los revestimientos de baja emisividad y las diferencias entre los revestimientos pasivos y de control solar. También describe cómo se han cuantificado los beneficios energéticos, ambientales y económicos de los cristales de baja emisividad a través de modelos simulados. El objetivo es ayudar al lector a comprender mejor cómo la ventanería de eficiencia energética puede reducir los costos de energía y mejorar la com
This document discusses PPG's sustainable glass and coating products. It provides an overview of PPG as a global leader in sustainability, and describes its portfolio of green products including high-performance low-E glasses, solar control glasses, and sustainable coatings. The document then explains how glass can help manage energy in buildings through factors like visible light transmittance, solar heat gain coefficient, light to solar gain ratio, and U-value. PPG glasses are presented as high-performing solutions for balancing daylighting and solar control.
El documento recomienda el uso de vidrio aislante de baja emisividad con capa suave para lograr la máxima eficiencia energética y reducir los costos en los proyectos de construcción en México. Este tipo de vidrio ofrece los valores más bajos de transmisión térmica (U) y ganancia solar (SHGC), lo que permite reducir significativamente el tamaño de los sistemas de aire acondicionado y los costos anuales de energía. Además, su uso ayuda a reducir la contaminación causada por la que
El documento describe los beneficios del uso del cristal aislante Solarban 70XL en edificios comerciales en México. Un estudio encontró que este cristal puede reducir significativamente los costos iniciales de equipos HVAC y los costos operativos de energía anuales, resultando en ahorros totales de decenas de millones de dólares durante la vida útil de un edificio. Además, el cristal aislante Solarban 70XL puede reducir las emisiones de CO2 en miles de toneladas comparado con otros tipos de cristal.
2. AIA CES Master – Energy Efficient Glazing FG005
PPG Industries Inc. is a Registered Provider with The
American Institute of Architects Continuing Education
Systems. Credit earned on completion of this program will be
reported to CES Records for AIA members. Certificate of
Completion for non-AIA members are available on request.
This program is registered with the AIA/CES for continuing
professional education. As such, it does not include content
that may be deemed or construed to be an approval or
endorsement by the AIA of any material construction or any
method or manner of handling, using, distributing or dealing in
any material or product. Questions related to specific
materials, methods, and services will be addressed at the
conclusion of this presentation.
3. Copyright Materials
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PPG Industries Inc. 2008
4. Learning Objectives
By the end of this presentation, you will
understand:
• How low-e coatings work
• The differences between “passive” and “solar control”
low-e coatings
• How the energy, environmental and economic benefits
of low-e glass have been quantified
• The energy impact of various low-e coated glass
through simulation modeling
5. Energy Efficient Glazing
Solar Energy Spectrum
Percent
Transmittance
UV VISIBLE IR
100
90
Spectral distribution of solar energy
80 at the surface of the Earth
70
60
50
40
30
20
Infrared
UV 10 Visible 53%
3% 44%
0
300 500 700 900 1100 1300 1500 1700 1900 2100
Wavelength (NM)
7. Energy Efficient Glazing
Benefits:
Low infrared heat gain
High visible natural light
transmittance
Less artificial lighting
Reduction of long wave
heat gain/loss
Increased
comfort/productivity
Results:
Overall reduction in
energy usage
8. Energy Efficient Glazing
Types of Coated Glass
Passive Low-E (pyrolytic, hard coat and MSVD , soft coat)
Solar Control Low-E (mostly MSVD, soft coat)
Non Low-E Glass (coated for tints or reflectivity)
11. Energy Efficient Glazing
Passive Low-E: Pyrolytic Coating Process
Pyrolytic Coating (Chemical Vapor Deposition)
Chemically applied or sprayed on hot glass during
manufacturing process (on-line process)
Creates strong thermal bond
12. Energy Efficient Glazing
Passive Low-E: Pyrolytic Coating Process
Pyrolytic Coating (Chemical Vapor Deposition)
Hard coat
Very durable
Withstands processing
Long shelf life prior to fabrication
14. Energy Efficient Glazing
Solar Control Low-E: MSVD Coating Process
Magnetic Sputtered Vacuum Deposition (MSVD)
Off-line coating process
Coating applied at room temperature
Most solar control low-e glasses are “soft coat”
Must be sealed in IG or laminated unit
Superior solar control performance
15. Low-E Coatings Role in
Energy Efficient Glazing
Visible Light Transmittance (VLT)
16. Low-E Coatings Role in
Energy Efficient Glazing
Solar Heat Gain Coefficient (SHGC)
17. Low-E Coatings Role in
Energy Efficient Glazing
Light to Solar Gain (LSG) Ratio:
VLT ÷ SHGC = LSG
21. Energy Efficient Glazing
DOE Funded LBNL Glazing Study On
Spectrally Selective Glazings
“A well-proven window technology to reduce energy costs while
enhancing daylight and view.”
22. Low-E Coatings Role in
Energy Efficient Glazing
“Spectrally Selective” vs. Moderate Glazing
Energy Efficient Glass Formula
“Spectrally Selective” = (LSG > 1.25) = Recommended
“Moderate” = (LSG < 1.25) = Not Recommended
23. Low-E Coatings Role in
Energy Efficient Glazing
“Spectrally Selective” vs. Moderate Glazing
Lawrence Berkeley National Laboratories (LBNL)
Glass is Spectrally Selective when:
VLT SHGC = Light to Solar Gain (LSG) > 1.25
Examples (Spectrally Selective Glass)
Triple-Silver Coated MSVD Coated Glass
64% (VLT) ÷ 0.27 (SHGC) = 2.37 (LSG)
Double-Silver Coated MSVD Glass
70% (VLT) ÷ 0.38 (SHGC) = 1.84 (LSG)
Spectrally Selective Tinted Glass
60% (VLT) ÷ 0.40 (SHGC) = 1.50 (LSG)
Examples (Non-Spectrally Selective Glass)
Pyrolytic Low-E (Passive Low-E) Coated Glass
74% (VLT) ÷ 0.62 (SHGC) = 1.19 (LSG)
24. Low-E Coatings Role in
Energy Efficient Glazing
Energy Efficient Glass Formula
Spectrally selective glass – VLT SHGC 1.25 LSG
Greatest amount of natural light transmission
Solar heat gain limited
Less need for daytime electrical lighting, saving energy
Percent
Transmittance
UV VISIBLE IR
100
90
80
Spectral distribution of solar energy
at the surface of the Earth
70
Solar Energy 60
Spectrum 50
40
30
20 INFRARED
UV VISIBLE 53%
3% 10 44%
0
300 500 700 900 1100 1300 1500 1700 1900 2100
Wavelength (NM)
25. Spectrally Selective Tinted
Glazing
Percent Solar Energy Transmittance
Transmittance
UV VISIBLE IR
100
90
80
70 Ideal Glass
60
50 Blue/Green
40 Light Green
Emerald Green
30
20
Aqua Blue/Aqua Green
10
0
300 500 700 900 1100 1300 1500 1700 1900 2100
Wavelength (NM)
26. “Moderate” Bronze/Gray Glazing
Percent Solar Energy Transmittance
Transmittance
UV VISIBLE IR
100
90
80
Ideal
70
Bronze
60
Gray
50
Dark Gray
40
Medium Gray
30
20 Darker Gray
10
0
300 500 700 900 1100 1300 1500 1700 1900 2100
Wavelength (NM)
27. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance Criteria for Glazing
Glass Winter VLT SHGC LSG Ratio
U-Value
Pyrolytic Low-E on Coated 0.35 74% 0.62 1.19
Clear (Passive Low-E)
MSVD Double- Silver 0.29 70% 0.38 1.84
Coated
(Solar Control Low-E)
MSVD Triple-Silver Coated 0.28 64% 0.27 2.37
(Next-Gen Solar Control Low-E)
Spectrally Selective Tinted 0.47 69% 0.49 1.41
Glass
28. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance Criteria
Glass Type Winter VLT SHGC LSG
U-Value
Uncoated Glasses
Clear Glass 0.47 79% 0.70 1.13
Ultra-Clear Glass (Low-iron glass) 0.47 84% 0.82 1.02
Blue/Green (Spectrally Selective) Tinted 0.47 69% 0.49 1.41
Glass
Coated Glasses
Pyrolytic Low-E (Passive Low-E) Glass 0.35 74% 0.62 1.19
Triple Silver Solar Control Low-E 0.28 64% 0.27 2.37
Tinted Solar Control Low-E 0.29 51% 0.31 1.64
Subtly Reflective Tinted 0.47 47% 0.34 1.39
Blue/Green Reflective Tinted 0.48 27% 0.31 0.87
29. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance
Cradle to Cradle Certification, MBDC
The U.S. Green Building Council
Promote energy efficiency and sustainable design
LEED (Leadership in Energy and Environmental Design) program
LEED credits influenced by glass selection
Energy and Atmosphere (Energy Savings)
Materials and Resources (Recyclability)
Indoor Environmental Quality (Daylighting)
Cradle to Cradle™ Certification
30. Industry Background
In commercial buildings, up to 30% of electricity is used for interior
lighting.
Estimated Electricity Usage in Commercial Buildings
HVAC
Interior Light
Office Equipment
Exterior Light
Water
Refrigeration & Cooking
Misc.
0 5 10 15 20 25 30 35 40 45 50
Percentage of Electricity Used
32. Low-E Coatings Role in
Energy Efficient Glazing
• Most buildings in the country are not clad with the most efficient
glass available.
• There are approximately 77.2 billion square feet of built
environment in the U.S.
• This figure is expected to climb by another 7 billion square feet (an
additional 536,000 buildings) in the next five years.
• If this new development incorporates the most efficient glass
technology available, significant upfront and long-term savings will
result.
33. Low-E Coatings Role in
Energy Efficient Glazing
• If all existing buildings and new construction were to use the latest
glazing advancement – triple-silver Low-E glass – 2,134 trillion
BTU’s would be saved annually.
– This is 2% of the total US energy consumption
per year.
– This would save $38 Billion (gas and electric)
per year.
– CO2 emissions would be reduced by 123
million tons/year.
While that is the best-case scenario, the impact triple-silver Low-E
glass can have on energy consumption, economic savings and the
environment is vast.
34. Low-E Coatings Role in
Energy Efficient Glazing
Daylighting and Energy Savings
Performance glazings can significantly affect the
heating, lighting, and cooling costs of a building
Average savings 44% Average savings 52%
$200 per employee $68 per employee
35. Low-E Coatings Role in
Energy Efficient Glazing
Natural light has been shown to be psychologically beneficial, the
more light, the better
Recent studies link natural light with improved work environments
and increased productivity
Average savings 5.5%
$2,475 per employee
36. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance
Energy Modeling
Real World Energy Savings
Real World Equipment Savings
Real World CO2 Emissions
Energy Simulations
DOE 2.2 Building Energy Analysis Simulation
Developed by Lawrence Berkeley and Los Alamos National Labs
Hour-by-Hour Energy Consumption for One Year (8,760 hours)
37. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance
Energy Modeling
Two Major Building Types
Single-Story Middle School
Eight-Story Office Building
12 North American Cities
Five High-Performance Glazing Types
Window Walls or Punch Windows
38. Low-E Coatings Role in
Energy Efficient Glazing
Six Glazing Types
New, Triple-Silver MSVD Solar Control Low-E
Two, Double-Silver MSVD Solar Control Low-E
One, Pyrolytic Passive Low-E
One, (standard) Dual-Pane, Spectrally Selective Tint
39. Low-E Coatings Role in
Energy Efficient Glazing
270,000 square-foot, eight-story 200,000 square-foot, one-story
office building school
Punched window Punched window
Total window area: 33,418 ft2 Total window area:18,863 ft2
Total wall area: 56,640 ft2 Total wall area: 63,520 ft2
Window to wall ratio: 59% glass Window to wall ratio: 30% glass
Window wall Window wall
Total window area: 50,976 ft2 Total window area: 45,027 ft2
Total wall area: 56,640 ft2 Total wall area: 63,520 ft2
Window to wall ratio: 90% glass Window to wall ratio: 71% glass
40. Low-E Coatings Role in
Energy Efficient Glazing
Office HVAC equipment School HVAC equipment
• VAV • Packaged VAV
• Centrifugal chiller • DX coils
• Hot water boilers • Hot water heating
• Gas water heater
41. Low-E Coatings Role in
Energy Efficient Glazing
Office internal peak loads School internal peak loads
• Square ft/occupant: 448 • Square ft/occupant: 123
• Lighting: W/sq.ft.: 1.3 • Lighting: W/sq.ft.: 1.1
• Equipment: W/sq.ft: 0.75 • Equipment: W/sq.ft: 0.45
42. Low-E Coatings Role in
Energy Efficient Glazing
The Variables
• Total Electric Consumption (kWh)
• Total Natural Gas Consumption (therms)
• Peak Cooling Load (tons)
• Peak Heating Loads (kBtu/hr)
• Total Supply Airflow (cfm)
• Total Electric Cost ($)
• Total Natural Gas Cost ($)
• Total Building Energy Consumption Cost ($)
• Cooling Equipment Capital Cost ($)
• HVAC Equipment Capital Cost ($)
• Total Cooling HVAC Capital Cost ($)
43. Low-E Coatings Role in
Energy Efficient Glazing
• Atlanta Houston Mexico City
• Boston Los Angeles Ottawa
• Chicago St. Louis Philadelphia
• Denver Seattle Phoenix
44. Low-E Coatings Role in
Energy Efficient Glazing
The Simulation Model
• DOE 2.2
– Calculates hour-by-hour energy consumption of the prototype facility
over an entire year (8,760 hours)
– Uses hourly climate data for any location
– Detailed input provides accurate simulation of building features such as
shading, fenestration, interior building mass, envelope building mass,
and dynamic response of heating and air conditioning systems.
45. Low-E Coatings Role in
Energy Efficient Glazing
The Simulation Model
• DOE 2.2 energy simulations were developed for each glazing scenario
according to their unique characteristics
• The model ran a simulation for both building types, in all 12 locations, and
for both architectural scenarios (punched windows and window walls)
• The model calculated the effect of each glazing based on the following:
– Building loads
– Cooling equipment size
– Building energy costs
– HVAC Cooling costs
• based on cooling size in tons and total air supply flow into the
building
46. Low-E Coatings Role in
Energy Efficient Glazing
The Simulation Model
• Calculating HVAC capital cooling costs
– Calculations were based on peak cooling loads, in tons, for total air
supply into the building.
– Cooling costs were estimated at $1,200 per ton.
– HVAC equipment costs were estimated at $3.50 per cfm airflow.
• Utility rate calculations
– Utility companies for each of the 12 cities provided the latest rate tariffs
for electricity and natural gas.
47. Low-E Coatings Role in
Energy Efficient Glazing
The Simulation Model
• Calculating carbon emissions
– Derived using Carbon Dioxide Emissions for the Generation of Electric
Power in the United States, a report published in 2000 by the U.S.
Department of Energy.
*Estimates were used to simplify the model and meta calculations.
48. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance
Triple-Silver Coated MSVD vs. Dual Pane-Tinted Glass
City Annual HVAC Operating Annual Total HVAC Equipment Costs Immediate 1st Year
Expenses Savings Equipment Savings
Savings
Dual-Pane Triple Silver Dual-Pane Triple Silver
Tinted Tinted
Atlanta $680,456 $597,772 $82,684 $2,115,464 $1,697,686 $417,597 $500,281
Boston $853,450 $756,001 $97,539 $2,326,967 $1,928,086 $398,881 $496,420
Based on eight-story glass-walled office building
Total Glass Area: 50,967 ft2
Total Floor Area: 270,000 ft2
49. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance
Double-Silver Coated Tinted MSVD vs. Dual Pane-Tinted
Glass
City Annual HVAC Operating Annual Total HVAC Equipment Costs Immediate 1st Year
Expenses Savings Equipment Savings
Savings
Dual-Pane Triple Dual-Pane Triple Silver
Tinted Silver Tinted
Atlanta $681,456 $610,900 $70,556 $2,115,464 $1,772,350 $343,114 $413,680
Boston $853,540 $770,241 $83,299 $2,326,967 $2,003,328 $323,639 $406,938
Based on eight-story glass-walled office building
Total Glass Area: 50,967 ft2
Total Floor Area: 270,000 ft2
50. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance: CO2 reductions
Triple-Silver Coated MSVD vs. Dual Pane-Tinted Glass
City Electricity Gas Annual CO2 40-Year CO2 Acres of Pine
(KwH Savings) (Therm Reductions Reductions Forest Preserved
Savings) (Tons) (Tons)
Atlanta 455,841 18,829 417 16,699 124
Boston 432,301 26,618 354 14,163 105
Chicago 434,777 29,644 502 20,087 149
Houston 473,971 14,199 422 16,889 126
Phoenix 469,246 6,170 411 16,451 122
Seattle 328,567 29,588 250 10,018 74
Based on eight-story glass-walled office building
Total Glass Area: 50,967 ft2
Total Floor Area: 270,000 ft2
51. Low-E Coatings Role in
Energy Efficient Glazing
Energy and Environmental Performance: CO2 reductions
Double-Silver Tinted MSVD vs. Dual Pane-Tinted Glass
City Electricity Gas Annual CO2 40-Year CO2 Acres of Pine
(KwH Savings) (Therm Reductions Reductions Forest Preserved
Savings) (Tons) (Tons)
Atlanta 377,043 17,176 353 14,138 105
Boston 356,143 24,455 306 12,220 91
Chicago 360,903 27,073 431 17,227 128
Houston 390,425 12,516 352 14,093 105
Phoenix 387,284 5,708 343 13,713 102
Seattle 271,799 26,627 219 8,670 64
Based on eight-story glass-walled office building
Total Glass Area: 50,967 ft2
Total Floor Area: 270,000 ft2
52. Low-E Coatings Role in
Energy Efficient Glazing
2nd vs. 3rd Surface
“The general recommendation from the glass industry
for commercial buildings is to leave the choice (coating
on either #2 or #3 surface) to the glass manufacturer.”
(Source: MasterSpec Evaluation Section, Coated Glass.)
“For most commercial buildings, regardless of climate,
in which the primary concern is reducing the solar heat
gain, the location (coated surface) is of less concern,
and placing it on either the second or third surface
should remain an option.”
53. Low-E Coatings Role in
Energy Efficient Glazing
2nd vs. 3rd Surface
Coatings can be applied to the #2 or #3 surface of an
insulating glass unit (IGU)
Having the flexibility to coat either the #2 or # 3
surface of an IGU allows for more competitive pricing
without dramatically impacting its solar control
performance
In some cases, (such as a tinted outdoor lite and a
clear indoor lite) applying coatings to the #3 surface
instead of the #2 surface permits accelerated product
delivery
54. Learning Objectives
This concludes the continuing education portion of the course.
Here is a quick review of the learning objectives.
• How low-e coatings work
• The differences between “passive” and “solar control” low-e coatings
• How the energy, environmental and economic benefits of low-e glass
are quantified
• The energy impact of various low-e coated glass through simulation
modeling
55. Thank You
PPG is an industry leader in manufacturing architectural glass, metal coatings
and paint and was the first to provide triple-silver MSVD solar-control Low-E
glass. For more information on the study and its results you can contact PPG
by visiting www.ppgideascapes.com or by calling 1-888-ppg-idea (774-4332).
56. Close/Conclusion
This concludes The American Institute of Architects Continuing
Education Systems Program
Questions?
Thank you for your time.
57. PPG Industries
• PPG is a global supplier of paints, coatings,
optical products, specialty materials, glass and
fiber glass
• PPG has manufacturing facilities in 23 countries.
The company has operations and equity affiliates
in more than 60 countries
• PPG generated revenues of $11.2 billion and
invested more than $330 million in research &
development
Australia • Argentina • Belgium •
Brazil • Canada • China • England
• France • Germany
Ireland • Italy • Japan • Mexico •
Netherlands • Philippines • South
Korea • Spain
Taiwan • Thailand • Turkey •
United States • Venezuela
58. Products
Glass
– Worlds Leader in Production of Commercial, Military and
General Aviation Glass
Fiberglass
– Electronic Circuit Boards, Recreational Boat Hulls, Tub
and Shower Units.
Chemicals
– Pharmaceutical, Agricultural, Plastics, Water
Purification, Pulp/paper Manufacturing, Oil Drilling,
Aluminum Production
Plastic Photo Chromic Lenses – Transitions
Transportation Coatings
– World’s Number 1 Producer of Transportation Coatings.
– Two of Every Three New Cars on the Road Today in
North America Contain PPG Coatings
Industrial Coatings
– Agricultural and Construction Equipment, Automotive
Parts and Accessories, Appliance, Coil, Aluminum
Extrusion, Wood Flooring, Recreation and Others
Packaging Coatings
– Beverage Can Linings, Packaging Inks
59. PPG Low-E and
Solar Control Low-E Glasses
Triple-Silver MSVD Coated
Solarban® 70XL Solar Control Low-E Glass
Next-generation Solar Control Low-E Glass
Clear glass appearance
Can be combined with tints for enhanced performance
2006 Architectural Record “Green Product of the Year”
Shades of Green Award, Green Building Alliance
LSG of 2.37, highest in the industry
All PPG glasses are Cradle to Cradle Certified
60. PPG Low-E and
Solar Control Low-E Glasses
Double-Silver MSVD Coated
Solarban® 60 Solar Control Low-E Glasses
Clear glass appearance
Can be combined with tints for enhanced performance
LSG ratio of 1.84 combined with clear glass in a 1” IGU
All PPG glasses are Cradle to Cradle Certified
61. PPG Low-E and
Solar Control Low-E Glasses
Double-Silver MSVD Coated
Solarban® 80 Solar Control Low-E Glasses
Steel jade exterior appearance
LSG ratio of 1.96 combined with clear glass in a 1” IGU
Can be combined with Optiblue glass
Solarban® z50 Solar Control Low-E Glasses
Variety of tints: steel blue-gray to aqua blue
LSG ratios of up to 1.64
30% better performance than competitive products
Low interior reflectance
Clear, natural outdoor views
Optiblue glass is available only with select Solarban
products through PPG Certified Fabricators.
All PPG glasses are Cradle to Cradle Certified
62. PPG Low-E and
Solar Control Low-E Glasses
Pyrolitic Low-E Glass (Passive Low-E)
Sungate® 500 Passive Low-E Glass
Clear glass appearance
Almost two decades of proven performance
More than 200 million square feet shipped in last
decade
LSG of 1.19 with clear glass in a 1” IGU*
Can be combined with tints for LSG ratios of up to
1.66
* Without tints, this glass does not meet the U.S. DOE criteria for spectrally selectivity
All PPG glasses are Cradle to Cradle Certified
63. PPG Low-E and
Solar Control Low-E Glasses
Spectrally Selective Tinted Glasses
Oceans of Color™ Spectrally Selective Glass
Atlantica™ Glass (1.50 LSG ratio)
Azuria™ Glass (1.56 LSG ratio)
Caribia® Glass (1.55 LSG ratio)
Solexia™ Glass (1.41 LSG ratio)
Vistacool® Subtly Reflective, Color-Enriched Glasses
Vistacool Azuria (1.61 LSG ratio)
Vistacool Caribia (1.66 LSG ratio)
Vistacool Solargray (1.13 LSG ratio)*
* This glass does not meet the U.S. DOE criteria for spectrally selectivity
All PPG glasses are Cradle to Cradle Certified
64. PPG Low-E and
Solar Control Low-E Glasses
PPG High-Performance Tinted Glass
PPG Performance Tinted
Optigray® 23 Glass
Graylite® Glass
Solarbronze® Glass
Solargray ® Glass
Solarcool ® Reflective Tinted Glasses
All PPG glasses are Cradle to Cradle Certified
65. The Right Information, Right Away
• Technical & Product Hotline: 888-PPG-IDEA (774-4332)
• Direct technical support
• Sourcing Assistance
PPG’s reliable network of applicators, contractors and
certified fabricators
66. The Right Information, Right Away
• All PPG architectural products
• MSDS sheets and technical data
• Download product literature
• Order samples 24/7
• Order literature 24/7
• Read case studies
• Visit photo galleries
67. A portfolio of proven products to help architects achieve sustainable design
goals.
• Solarban® Solar Control Low-E Glasses
• Sungate® Passive Low-E Glass
• Starphire® Highly-Transmittive Glass
• Oceans of Color™ Spectrally Selective Tinted Glasses
• Vistacool® Subtly Reflective Color Enriched Glass
• Duranar® Fluoropolymer Coatings
• Duranar® ULTRA-Cool® Fluoropolymer Coatings
• Duranar® VARI-CoolTM Fluoropolymer Coatings
• Superl® II ULTRA-Cool® Siliconized Polyester Coatings
• Pittsburgh® Paints Zero-VOC Pure Performance Paint
• Speedhide®, Manor Hall® & Porter® Paints
• MegaSeal® Flooring Systems
68. Environmental Leadership
PPG is committed to environmental sustainability
Our glass and coatings are used in the production of wind and solar power,
and we do extensive research and development to make these technologies
more commercially viable
PPG helped automakers eliminate lead from primer coatings, purge chrome
from rinses, cut VOC emissions, stifle the corrosion of metal, and save energy
by lowering curing temperatures for automotive paints and coatings.
We actively manage our own manufacturing processes to improve air
quality, and reduce water and energy consumption
Corporate Goals:
Reduce energy use by 25% by 2016
Reduce green house gas emissions by 10%