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Day lighting

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Deepak Thapa
Deepak Thapa

Day lighting and architecture illumination

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Daylighting ARCHITECTURAL ILLUMINATION
introduction “ DAYLIGHT IS A RENEWABLE SOURCE OF LIGHT WHOSE UTILIZATION FOR LIGHTING OFBUILDING INTERIORS DURING THE PERIOD IT IS AVAILABLE, COULD LEAD TO ENERGY CONSERVATION AND PROMOTION OFA FRIENDLY ENVIRONMENT.”  SOURCES OF DAYLIGHTING:  The primary source of light for daylighting is the sun.  The light received by the earth from the sun consists of two parts:  Direct solar illumination  Design Methods  For the purpose of the daylighting design, direct solar illumination shall not be considered and only skylight shall be taken as a contributing factor to the illuminance of the building interiors during the day.
advantage s  The overall objective of daylighting is to minimize the amount of artificial light and reduce electricity costs, but it can also lower HVAC costs as well.  the overall energy savings range from 15 to 40 percent.  Reduced cooling loads by 10-20%  Improved lighting conditions  Colour Rendition  Colour Temperature  “sparkle”  Occupant Satisfaction  Occupant Comfort.  Connection to Nature  Reducing the amount of electrical energy used also reduces the amount of greenhouse gases released that are associated with the production of said energy.  Health: circadian rhythms…
drawback sAlthough daylighting can provide numerous positive results in regards to worker performance, if a daylighting program has not been executed properly, it can produce negative results.  Increased heat gains.  A high-performance daylighting system may initially require a significant investment.  Glare-Direct sunlight penetration in classrooms and office spaces often produces an unpleasant glare on worksurfaces, making it difficult to work or view a computer screen.  Some architectural features, such as a building’s roof, atrium shapes or a building’s angles, can prevent daylight from illuminating a space.
orientation of building • The orientation of building is very important to achieve maximum day light • If the length of the building is oriented in an East-West axis, it will allow penetration of passive heating or cooling within the building • A North-South façade is better as it allows penetration of good day light by avoiding glare and over heating. • Designers could decide which rooms need direct or indirect sun-light and requirement of the quantity of heat loss or heat gain
day-lighting in tropics HOT-DRY CLIMATES:  Direct sunlight must be excluded from buildings for the following reasons:  Thermal  Create glare  Windows tend to be small – not much sky will be visible from any point indoors – hence SC (sky component) is insufficient.  Ground & external surfaces of other bldgs. are usually light coloured – in strong sunlight these may create glare – hence ERC can be used with provision to avoid glare.  Internally reflected light – most convenient form of daylighting.  Suitable arrangement – high level window – sill above eyelevel – would admit reflected light to the ceiling.  If the ceiling is white – above method would ensure sufficient & well diffused interior light through a small window.
WARM AND HUMID CLIMATE:  Buildings in WARM AND HUMID climatic zone have:  Large openings to ensure cross ventilation & air movement.  Provided with wide overhanging eaves or shading devices.  Direct sunlight is excluded – thermal reason - bright sky could provide sufficient light - but its high luminance would cause glare view of sky should be screened by shading device / plants.  Sky luminance - less near the horizon than at higher altitude angles - view of sky up to about 15⁰ may be permissible. day-lighting in tropics Criteria for the design of shading devices: •Permit view of sky near the horizon only. •Exclude view of bright ground & sunlit blade / louvre surfaces. •Daylight should be reflected from ground & louvres to the ceiling – ceiling should be of light colour.
concepts of day- lighting  WINDOWS AND SKYLIGHTS:  The strategic installation of skylights allows natural light to enter a building through the ceiling.  As well, the installation of tall windows allows outside light to enter rooms more easily. The placement of these windows must be carefully considered to minimize potential glare.  Solar shading devices known as overhangs can be used to minimize the direct Sun that enters the space. There are numerous ways that sunlight can be used advantageously inside buildings. Some traditional techniques to improve natural lighting in buildings includes are listed below:
concepts of day-lighting SKYLIGHT PLACEMENT AS A FUNCTION OF BUILDING HEIGHT
concepts of day- lighting CLERESTORIES : They are high windows with sill heights greater than seven feet above the floor and are excellent strategies for task illumination on horizontal and vertical surfaces. Glass higher on a wall generally provides deeper penetration into a room
concepts of day- lighting ATRIA: They are central areas of multi-storied buildings open to the sky. Atria can be glazed to create a controlled environment. Short and wide atria perform better than tall and narrow atria. Performance of atria, like light wells, is dependent on aspect ratio.
 SAWTOOTHS: They are apertures with vertical or angled glazing installed in a slopped roof plane. Saw- tooth's are most effective when used in series of three and were historically used in industrial and manufacturing buildings as the primary light source. Sawtooth slope is generally at a 45 degree angle. concepts of day- lighting
 LIGHT SHELVES:A light shelf is a horizontal surface that reflects daylight deep into a building.  Light shelves are placed above eye-level and have high- reflectance upper surfaces, which reflect daylight onto the ceiling and deeper into the space.  Light shelves are typically used in high-rise and low-rise office buildings, as well as institutional buildings. This design is generally used on the equator- facing side of the building, which is where maximum sunlight is found, and as a result is most effective concepts of day- lighting
concepts of day- lighting BUILDING DESIGN:  There are numerous design changes that can be made on buildings to increase the amount of natural light that can enter the building.  One way to improve the amount of natural light in a building is to build with a shallow-plan design.  This simply means buildings are designed so that daylight can enter all rooms and hallways, the building is "shallow" enough that light can penetrate all the way in.  As well, the installation of task lighting (lighting directly over work spaces) can help reduce energy costs as it reduces the need to light the entire room.
concepts of day- lighting LIGHT TUBES AND FIBRE OPTICS: There are also a number of more experimental techniques being used in an attempt to direct light into buildings.  One of these methods is by using steerable mirrors to direct like into areas it would not normally reach.  As well, the use of optical fibres and light ducts to spread natural light through a building is currently being experimented with.  Light ducts are simply tubular devices that are coated with a reflective film that channel light from the roof of a building to the interior ceiling.  They are beneficial as they are much smaller than skylights, but just as effective.  Fibre optic lighting devices send light through a bundle of optical cables into a building using a physical mechanism known as total internal reflection. This simply means that the light in the cables bounces around on the inside of the cable, being transported as it reflects.
DAY LIGHTING THROUGH LIGHT TUBES DAY-LIGHTING DUCT SYSTEM It is more energy efficient than skylight since less energy escapes from the interior due to less surface area.
design tools  The location of the window(s) on the shorter or longer wall has to be taken into consideration, as it influences the availability of daylight at the centre of the room or nearby area.  The relation between the daylight factor at the centre of a room (or the rear of it, that is near the rear wall) and window are expressed as a percentage of the floor area that will provide the daylight factor is shown in graphs for four possible situations: (a) the aperture is just an opening in the wall, (b) the opening is glazed with 3 rom thick glass, (c) the glazed opening is a wooden window, and (d) the glazed opening is a metal window (it is to be noted that a wooden window frame cuts off more daylight as compared to a metallic window. frame).  The sill height should be between 80 and 105 cm to get the maximum advantage of vertical and horizontal plane illumination.  The need to provide suitable louvers or overhangs to avoid direct sunshine should be considered. WINDOW DESIGN
DAYLIGHT AVAILABILITY AT THE CENTRE OF A ROOM OR ITS REAR ARE ASCERTAINED WITH FOLLOWING ASSUMPTIONS  The interior of the room possesses the following reflection factors: i) walls: 45-50 percent; ii) ceiling: 70-75 percent; and iii) floor: 24-30 percent.  The combined thickness of wall and width of louver is taken to be 60 cm;.  The ground reflection factor is taken as 0.25.  The average daylight factor equation can be used to estimate the require window-to-wall ratio (WWR) for adequate daylighting. (Expressed as a fraction) window design
principles of window design GLARE is a visual sensation caused by excessive and uncontrolled brightness. It can be disabling or simply uncomfortable. It is subjective, and sensitivity to glare can vary widely. Older people are usually more sensitive to glare due to the aging characteristics of the eye. Disability glare is the reduction in visibility caused by intense light sources in the field of view Discomfort glare is the sensation of annoyance or even pain induced by overly
day light factor “PERCENTAGE RATIO OF THE INSTANTANEOUS ILLUMINATION LEVEL AT A REFERENCE POINT INSIDE A ROOM TO THAT OCCURRING SIMULTANEOUSLY OUTSIDE IN AN UNOBSTRUCTED POSITION”. COMPONENTS OF DAYLIGHT FACTOR: The daylight factor is the sum of all the daylight reaching an indoor reference point from the following sources:  The direct sky visible from the point –SKY COMPONENT  External surfaces reflecting light directly to the point –EXTERNAL REFLECTED COMPONENT  Internal surfaces reflecting and inter reflecting light to the point – INTERNAL REFLECTED COMPONENT DF = (Ei / Eo) X 100% Ei – illuminance due to daylight at a point on the indoors working plane. Eo – simultaneous outdoor illuminance on a horizontal plane from an unobstructed hemisphere of sky. 2% OR 5% DF ARE 2 COMMON THRESHOLDS FOR DAYLIGHTING
deep penetration In a side-lit space with a standard window and venetian blinds, the depth of the daylit area usually lies between 1.5 and 2 time the window-head height. If a space does not require the use of a shading device the ratio can increase up to 2.5.
day-lighting in interiors Using daylight or natural light for indoor illumination has become the most popular and demanded application as it is a very sustainable use of light, which not only reduces electrical energy consumption, but also conserves it, creates healthy indoor for any type of spaces.  Daylight can be induced in residential spaces to office, commercial and even hospitality interiors.  The most important benefit of using daylight is it can illuminate large part of an interior in an uniform way, without any energy consumption .  Sunlight kills many microbes and bacteria, keeping the interior environment fresh, healthy and cheerful  Using daylight reduces a lot amount of cost which is usually spent on artificial lighting.
examples PANTHEON, ROME  the most visionary and fortunately the best preserved Roman building, originally built in 31 BC by the general and then mayor of Rome, Agrippa, following a rectangular layout.  Hadrian rebuilt Pantheon in 125 AD in the cylindrical shape.  The interior of the Pantheon is an impressive space due to its huge dome. With its 44 m in diameter was two times larger than any dome that had been built before.  The light falls from the great 8.9 m in diameter central hole (oculus) in the top of the dome, emphasizing the curve of the roof through a play of light and shadow.  Light travels 43 meters to symbolize the connection of heaven with the earthly world. The interior conveys a sense of grandeur and
examples TOMOTHERAPY; WISCONSIN Design Build was the primary force behind the promotion of day-lighting for the TomoTherapy building as a means of improving energy efficiency and helping to ensure occupant comfort.  Of the 70,000 square feet of floor space in this building, 12,000 square feet employ photo sensor-controlled dimming. Within this day-lit area, 22% of the lighting energy is saved due to the dimming system. DESIGN STRATEGY  The building orientation is predominantly along a north/south axis to fit onto the available land/site configuration. This causes the majority of the windows to face east or west.  The window glass is all low-emissivity (low-e) insulating glass. The bottom majority of the windows or view windows are heavily tinted to reduce solar transmittance and glare. The heavy tinting reduces summer air-conditioning needs.  The top sections of the windows are fitted with slightly clearer glass to allow daylight to illuminate the office and assembly spaces. Solar transmittance is 24% and visible transmittance is 60%.  The u-value for all windows is 0.30 BTU/hr/ft²/°F. HEAVY TINTED AND LOW E WINDOWS
examples Manual window blinds are employed to reduce glare. LIGHTING STRATEGY The open office areas on the first and second floors employ direct/ indirect Peerless lighting fixtures with a single T5, high-output (HO), 54-watt, 4100 K lamp.  General illumination levels logged over time and instantaneous readings indicate highs of approximately 120 foot candles near windows on sunny days to 17 foot Candles in interior spaces or near the windows on cloudy days. Because of the higher-than-normal ceiling height and the use of T5 HO lamps, the number of lighting fixtures necessary for general illumination is reduced from more prevalent office lighting designs.  Most private and semi-private offices have two recessed, 2’ x 4’ parabolic light fixtures with three T8, 4100 K lamps and electronic instant- start ballasts. These lights are controlled through a motion sensor with manual-on and automatic- off functions.  Hallways are lit with two-lamp, quad tube compact fluorescent down light fixtures. Each compact fluorescent lamp is rated 26 watts.  Observations during the evaluation and data logged on lighting energy usage indicate these lights remain off until the evening hours.
shading devices  Sun Shading Devices inhibit the solar radiation(block, allow,, etc.) incident on a building and are used either internally or externally or in between the internal and the external building space.  Types of shading devices: a) internal b) external c) interpane INTERNAL SHADING DEVICES  Limit the glare resulting from solar radiation.  Usually are adjustable and allow occupants to regulate the amount of direct light entering their space.  CURTAINS: It is the most commonly used shading device, mostly used on residential buildings.  VENETIAN BLIND: basic slatted blinds made of metal or plastic, wood or bamboo can also be used. Suspended by a strip of cloth called tapes, all slats in unison can be rotated through nearly 180 degrees. Slat width can be between 16 and 120 mm, with 25 mm being a common
shading devices  VERTICAL LOUVRE BLINDS: Suitable for many applications in commercial and public buildings where the control of heat, light and glare are of concern. It can be used in larger windows and doors too.  ROLLER BLINDS: Roller blinds are usually stiffened polyester, mounted on a metal pole and operated with a side chain or spring mechanism.  BLACKOUT BINDS: Blackout blinds stop light from passing through thanks to special treatments and extra tight woven fabrics to help control the light levels in a room. It is designed to block the external lights to enter the room.
shading devicesEXTERNAL SHADING DEVICES  Considered better than internal  TYPES: Horizontal, Vertical or inclined projections; Vegetation and other buildings HORIZONTAL DEVICES: to shade a window during hot summer months, but to allow sunlight to shine through a window in the winter, to help warm a building. VERTICAL DEVICES: Primarily useful for east and west exposures to improve the insulation value of glass in winter months by acting as a windbreak.THE EGG-CRATE: A combination of vertical and horizontal shading elements commonly used in hot climate regions because of their high shading efficiencies. The horizontal elements control ground glare from reflected solar rays. The device works well on walls
shading devices DESIGNING A SHADING DEVICE  SELECT SHADING TYPE:  IDENTIFY DESIGN DIMENSIONS: Shading type: Horizontal Overhang Shading category: fixed Design dimensions: Relationship between the overhang Depth (L) and the opening height (H). L=H; L=3H/4; L=H/2; L=H/3; L=H/4 Shading type: Vertical Overhang Shading category: fixed Design Dimensions: Relationship between the overhang Depth (L) and the opening width (d). L=d L=3d/4 L=d/2  IDENTIFY CATEGORY: Fixed Adjustable Movable Dynamic Manual Automatic
Thank you..!! GROUP MEMBERS:  Ch. Lakshmi Vyshnavi-13031AA035  G. Siri Chandana-13031AA047  K. Srujani-13031AA059  B. Navya-13031AA024  N. Sriram-13031AA125  G. Ajay-13031AA046  E. Naresh-13031AA042  Ch. Sandeep-13031AA034

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Day lighting

  • 2. introduction “ DAYLIGHT IS A RENEWABLE SOURCE OF LIGHT WHOSE UTILIZATION FOR LIGHTING OFBUILDING INTERIORS DURING THE PERIOD IT IS AVAILABLE, COULD LEAD TO ENERGY CONSERVATION AND PROMOTION OFA FRIENDLY ENVIRONMENT.”  SOURCES OF DAYLIGHTING:  The primary source of light for daylighting is the sun.  The light received by the earth from the sun consists of two parts:  Direct solar illumination  Design Methods  For the purpose of the daylighting design, direct solar illumination shall not be considered and only skylight shall be taken as a contributing factor to the illuminance of the building interiors during the day.
  • 3. advantage s  The overall objective of daylighting is to minimize the amount of artificial light and reduce electricity costs, but it can also lower HVAC costs as well.  the overall energy savings range from 15 to 40 percent.  Reduced cooling loads by 10-20%  Improved lighting conditions  Colour Rendition  Colour Temperature  “sparkle”  Occupant Satisfaction  Occupant Comfort.  Connection to Nature  Reducing the amount of electrical energy used also reduces the amount of greenhouse gases released that are associated with the production of said energy.  Health: circadian rhythms…
  • 4. drawback sAlthough daylighting can provide numerous positive results in regards to worker performance, if a daylighting program has not been executed properly, it can produce negative results.  Increased heat gains.  A high-performance daylighting system may initially require a significant investment.  Glare-Direct sunlight penetration in classrooms and office spaces often produces an unpleasant glare on worksurfaces, making it difficult to work or view a computer screen.  Some architectural features, such as a building’s roof, atrium shapes or a building’s angles, can prevent daylight from illuminating a space.
  • 5. orientation of building • The orientation of building is very important to achieve maximum day light • If the length of the building is oriented in an East-West axis, it will allow penetration of passive heating or cooling within the building • A North-South façade is better as it allows penetration of good day light by avoiding glare and over heating. • Designers could decide which rooms need direct or indirect sun-light and requirement of the quantity of heat loss or heat gain
  • 6. day-lighting in tropics HOT-DRY CLIMATES:  Direct sunlight must be excluded from buildings for the following reasons:  Thermal  Create glare  Windows tend to be small – not much sky will be visible from any point indoors – hence SC (sky component) is insufficient.  Ground & external surfaces of other bldgs. are usually light coloured – in strong sunlight these may create glare – hence ERC can be used with provision to avoid glare.  Internally reflected light – most convenient form of daylighting.  Suitable arrangement – high level window – sill above eyelevel – would admit reflected light to the ceiling.  If the ceiling is white – above method would ensure sufficient & well diffused interior light through a small window.
  • 7. WARM AND HUMID CLIMATE:  Buildings in WARM AND HUMID climatic zone have:  Large openings to ensure cross ventilation & air movement.  Provided with wide overhanging eaves or shading devices.  Direct sunlight is excluded – thermal reason - bright sky could provide sufficient light - but its high luminance would cause glare view of sky should be screened by shading device / plants.  Sky luminance - less near the horizon than at higher altitude angles - view of sky up to about 15⁰ may be permissible. day-lighting in tropics Criteria for the design of shading devices: •Permit view of sky near the horizon only. •Exclude view of bright ground & sunlit blade / louvre surfaces. •Daylight should be reflected from ground & louvres to the ceiling – ceiling should be of light colour.
  • 8. concepts of day- lighting  WINDOWS AND SKYLIGHTS:  The strategic installation of skylights allows natural light to enter a building through the ceiling.  As well, the installation of tall windows allows outside light to enter rooms more easily. The placement of these windows must be carefully considered to minimize potential glare.  Solar shading devices known as overhangs can be used to minimize the direct Sun that enters the space. There are numerous ways that sunlight can be used advantageously inside buildings. Some traditional techniques to improve natural lighting in buildings includes are listed below:
  • 9. concepts of day-lighting SKYLIGHT PLACEMENT AS A FUNCTION OF BUILDING HEIGHT
  • 10. concepts of day- lighting CLERESTORIES : They are high windows with sill heights greater than seven feet above the floor and are excellent strategies for task illumination on horizontal and vertical surfaces. Glass higher on a wall generally provides deeper penetration into a room
  • 11. concepts of day- lighting ATRIA: They are central areas of multi-storied buildings open to the sky. Atria can be glazed to create a controlled environment. Short and wide atria perform better than tall and narrow atria. Performance of atria, like light wells, is dependent on aspect ratio.
  • 12.  SAWTOOTHS: They are apertures with vertical or angled glazing installed in a slopped roof plane. Saw- tooth's are most effective when used in series of three and were historically used in industrial and manufacturing buildings as the primary light source. Sawtooth slope is generally at a 45 degree angle. concepts of day- lighting
  • 13.  LIGHT SHELVES:A light shelf is a horizontal surface that reflects daylight deep into a building.  Light shelves are placed above eye-level and have high- reflectance upper surfaces, which reflect daylight onto the ceiling and deeper into the space.  Light shelves are typically used in high-rise and low-rise office buildings, as well as institutional buildings. This design is generally used on the equator- facing side of the building, which is where maximum sunlight is found, and as a result is most effective concepts of day- lighting
  • 14. concepts of day- lighting BUILDING DESIGN:  There are numerous design changes that can be made on buildings to increase the amount of natural light that can enter the building.  One way to improve the amount of natural light in a building is to build with a shallow-plan design.  This simply means buildings are designed so that daylight can enter all rooms and hallways, the building is "shallow" enough that light can penetrate all the way in.  As well, the installation of task lighting (lighting directly over work spaces) can help reduce energy costs as it reduces the need to light the entire room.
  • 15. concepts of day- lighting LIGHT TUBES AND FIBRE OPTICS: There are also a number of more experimental techniques being used in an attempt to direct light into buildings.  One of these methods is by using steerable mirrors to direct like into areas it would not normally reach.  As well, the use of optical fibres and light ducts to spread natural light through a building is currently being experimented with.  Light ducts are simply tubular devices that are coated with a reflective film that channel light from the roof of a building to the interior ceiling.  They are beneficial as they are much smaller than skylights, but just as effective.  Fibre optic lighting devices send light through a bundle of optical cables into a building using a physical mechanism known as total internal reflection. This simply means that the light in the cables bounces around on the inside of the cable, being transported as it reflects.
  • 16. DAY LIGHTING THROUGH LIGHT TUBES DAY-LIGHTING DUCT SYSTEM It is more energy efficient than skylight since less energy escapes from the interior due to less surface area.
  • 17. design tools  The location of the window(s) on the shorter or longer wall has to be taken into consideration, as it influences the availability of daylight at the centre of the room or nearby area.  The relation between the daylight factor at the centre of a room (or the rear of it, that is near the rear wall) and window are expressed as a percentage of the floor area that will provide the daylight factor is shown in graphs for four possible situations: (a) the aperture is just an opening in the wall, (b) the opening is glazed with 3 rom thick glass, (c) the glazed opening is a wooden window, and (d) the glazed opening is a metal window (it is to be noted that a wooden window frame cuts off more daylight as compared to a metallic window. frame).  The sill height should be between 80 and 105 cm to get the maximum advantage of vertical and horizontal plane illumination.  The need to provide suitable louvers or overhangs to avoid direct sunshine should be considered. WINDOW DESIGN
  • 18. DAYLIGHT AVAILABILITY AT THE CENTRE OF A ROOM OR ITS REAR ARE ASCERTAINED WITH FOLLOWING ASSUMPTIONS  The interior of the room possesses the following reflection factors: i) walls: 45-50 percent; ii) ceiling: 70-75 percent; and iii) floor: 24-30 percent.  The combined thickness of wall and width of louver is taken to be 60 cm;.  The ground reflection factor is taken as 0.25.  The average daylight factor equation can be used to estimate the require window-to-wall ratio (WWR) for adequate daylighting. (Expressed as a fraction) window design
  • 19. principles of window design GLARE is a visual sensation caused by excessive and uncontrolled brightness. It can be disabling or simply uncomfortable. It is subjective, and sensitivity to glare can vary widely. Older people are usually more sensitive to glare due to the aging characteristics of the eye. Disability glare is the reduction in visibility caused by intense light sources in the field of view Discomfort glare is the sensation of annoyance or even pain induced by overly
  • 20. day light factor “PERCENTAGE RATIO OF THE INSTANTANEOUS ILLUMINATION LEVEL AT A REFERENCE POINT INSIDE A ROOM TO THAT OCCURRING SIMULTANEOUSLY OUTSIDE IN AN UNOBSTRUCTED POSITION”. COMPONENTS OF DAYLIGHT FACTOR: The daylight factor is the sum of all the daylight reaching an indoor reference point from the following sources:  The direct sky visible from the point –SKY COMPONENT  External surfaces reflecting light directly to the point –EXTERNAL REFLECTED COMPONENT  Internal surfaces reflecting and inter reflecting light to the point – INTERNAL REFLECTED COMPONENT DF = (Ei / Eo) X 100% Ei – illuminance due to daylight at a point on the indoors working plane. Eo – simultaneous outdoor illuminance on a horizontal plane from an unobstructed hemisphere of sky. 2% OR 5% DF ARE 2 COMMON THRESHOLDS FOR DAYLIGHTING
  • 21. deep penetration In a side-lit space with a standard window and venetian blinds, the depth of the daylit area usually lies between 1.5 and 2 time the window-head height. If a space does not require the use of a shading device the ratio can increase up to 2.5.
  • 22. day-lighting in interiors Using daylight or natural light for indoor illumination has become the most popular and demanded application as it is a very sustainable use of light, which not only reduces electrical energy consumption, but also conserves it, creates healthy indoor for any type of spaces.  Daylight can be induced in residential spaces to office, commercial and even hospitality interiors.  The most important benefit of using daylight is it can illuminate large part of an interior in an uniform way, without any energy consumption .  Sunlight kills many microbes and bacteria, keeping the interior environment fresh, healthy and cheerful  Using daylight reduces a lot amount of cost which is usually spent on artificial lighting.
  • 23. examples PANTHEON, ROME  the most visionary and fortunately the best preserved Roman building, originally built in 31 BC by the general and then mayor of Rome, Agrippa, following a rectangular layout.  Hadrian rebuilt Pantheon in 125 AD in the cylindrical shape.  The interior of the Pantheon is an impressive space due to its huge dome. With its 44 m in diameter was two times larger than any dome that had been built before.  The light falls from the great 8.9 m in diameter central hole (oculus) in the top of the dome, emphasizing the curve of the roof through a play of light and shadow.  Light travels 43 meters to symbolize the connection of heaven with the earthly world. The interior conveys a sense of grandeur and
  • 24. examples TOMOTHERAPY; WISCONSIN Design Build was the primary force behind the promotion of day-lighting for the TomoTherapy building as a means of improving energy efficiency and helping to ensure occupant comfort.  Of the 70,000 square feet of floor space in this building, 12,000 square feet employ photo sensor-controlled dimming. Within this day-lit area, 22% of the lighting energy is saved due to the dimming system. DESIGN STRATEGY  The building orientation is predominantly along a north/south axis to fit onto the available land/site configuration. This causes the majority of the windows to face east or west.  The window glass is all low-emissivity (low-e) insulating glass. The bottom majority of the windows or view windows are heavily tinted to reduce solar transmittance and glare. The heavy tinting reduces summer air-conditioning needs.  The top sections of the windows are fitted with slightly clearer glass to allow daylight to illuminate the office and assembly spaces. Solar transmittance is 24% and visible transmittance is 60%.  The u-value for all windows is 0.30 BTU/hr/ft²/°F. HEAVY TINTED AND LOW E WINDOWS
  • 25. examples Manual window blinds are employed to reduce glare. LIGHTING STRATEGY The open office areas on the first and second floors employ direct/ indirect Peerless lighting fixtures with a single T5, high-output (HO), 54-watt, 4100 K lamp.  General illumination levels logged over time and instantaneous readings indicate highs of approximately 120 foot candles near windows on sunny days to 17 foot Candles in interior spaces or near the windows on cloudy days. Because of the higher-than-normal ceiling height and the use of T5 HO lamps, the number of lighting fixtures necessary for general illumination is reduced from more prevalent office lighting designs.  Most private and semi-private offices have two recessed, 2’ x 4’ parabolic light fixtures with three T8, 4100 K lamps and electronic instant- start ballasts. These lights are controlled through a motion sensor with manual-on and automatic- off functions.  Hallways are lit with two-lamp, quad tube compact fluorescent down light fixtures. Each compact fluorescent lamp is rated 26 watts.  Observations during the evaluation and data logged on lighting energy usage indicate these lights remain off until the evening hours.
  • 26. shading devices  Sun Shading Devices inhibit the solar radiation(block, allow,, etc.) incident on a building and are used either internally or externally or in between the internal and the external building space.  Types of shading devices: a) internal b) external c) interpane INTERNAL SHADING DEVICES  Limit the glare resulting from solar radiation.  Usually are adjustable and allow occupants to regulate the amount of direct light entering their space.  CURTAINS: It is the most commonly used shading device, mostly used on residential buildings.  VENETIAN BLIND: basic slatted blinds made of metal or plastic, wood or bamboo can also be used. Suspended by a strip of cloth called tapes, all slats in unison can be rotated through nearly 180 degrees. Slat width can be between 16 and 120 mm, with 25 mm being a common
  • 27. shading devices  VERTICAL LOUVRE BLINDS: Suitable for many applications in commercial and public buildings where the control of heat, light and glare are of concern. It can be used in larger windows and doors too.  ROLLER BLINDS: Roller blinds are usually stiffened polyester, mounted on a metal pole and operated with a side chain or spring mechanism.  BLACKOUT BINDS: Blackout blinds stop light from passing through thanks to special treatments and extra tight woven fabrics to help control the light levels in a room. It is designed to block the external lights to enter the room.
  • 28. shading devicesEXTERNAL SHADING DEVICES  Considered better than internal  TYPES: Horizontal, Vertical or inclined projections; Vegetation and other buildings HORIZONTAL DEVICES: to shade a window during hot summer months, but to allow sunlight to shine through a window in the winter, to help warm a building. VERTICAL DEVICES: Primarily useful for east and west exposures to improve the insulation value of glass in winter months by acting as a windbreak.THE EGG-CRATE: A combination of vertical and horizontal shading elements commonly used in hot climate regions because of their high shading efficiencies. The horizontal elements control ground glare from reflected solar rays. The device works well on walls
  • 29. shading devices DESIGNING A SHADING DEVICE  SELECT SHADING TYPE:  IDENTIFY DESIGN DIMENSIONS: Shading type: Horizontal Overhang Shading category: fixed Design dimensions: Relationship between the overhang Depth (L) and the opening height (H). L=H; L=3H/4; L=H/2; L=H/3; L=H/4 Shading type: Vertical Overhang Shading category: fixed Design Dimensions: Relationship between the overhang Depth (L) and the opening width (d). L=d L=3d/4 L=d/2  IDENTIFY CATEGORY: Fixed Adjustable Movable Dynamic Manual Automatic
  • 30. Thank you..!! GROUP MEMBERS:  Ch. Lakshmi Vyshnavi-13031AA035  G. Siri Chandana-13031AA047  K. Srujani-13031AA059  B. Navya-13031AA024  N. Sriram-13031AA125  G. Ajay-13031AA046  E. Naresh-13031AA042  Ch. Sandeep-13031AA034