Location via proxy:   [ UP ]  
[Report a bug]   [Manage cookies]                
SlideShare a Scribd company logo

Climate responsive architecture (1)

Download as PPTX, PDF

The document discusses different climate types and their key characteristics: - Climate Hot and Humid located between 15°N-S with day temperatures 27-32°C, high humidity, and annual rainfall of 2000-5000mm. - Hot and Dry located 15-30°N/S with day temperatures 43-49°C, low humidity, and low annual rainfall of 50mm. - Composite climate near tropics with temperatures and rainfall varying between dry and wet seasons.

1 of 33
Presented by: Mithilesh Mandal 114AR0006 Sonakshi Bhattacharjee 114AR0024 Guidance: Prof. Binit Kumar
Climate Hot andHumid Hot and dry Composite Location 15° N-15° S 15°-30° N & S Near tropic of Cancer and Capricon Temperature Day 27°-32° C 43°-49° C 32°-43° C(dry) 27°-32° C(wet) Night 21°-29° C 10°-18° C(cool season) 27°-32° C(dry season) 21°-27° C(dry) 24°-27° C(wet) Humidity 55-100% 10%-55% 20%-55%(dry) 55%-90%(wet) Vapour Pressure 2500-3500 N/m² 750-1500 N/m² 1300-1600 N/m² (dry) 2000-2500 N/m² (wet) Precipitation(annual ) 2000-5000 mm 50mm 500-1300 mm Sky condition 850-7000 cd/m² 1700-2500 cd/m² Varies with seasons Solar Radiation Partly reflected, partly scattered Direct and strong Direct and strong during clear period
Flat roof - is used because of sandstorms – not obstruct the wind flow Pitch roof - should be built as double layers Small windows - to prevent sand and dust from entering the house Thick wall – the entering of heat into the house during daytime become slower and at night the cold air push the warm air to flow outside and the building is maintained cold (ie: pyramid) Concrete houses are built Colors of the buildings - light / bright Materials - crack and break up cause by high daytime temperature and rapid cooling at night
Climate responsive architecture (1)
Wall - is still warm at night because of the high solar radiation during the day Pitch roof - is used act as a buffer to reduce the entering of heat into the house Gutters are built Plastered single layer wall – to prevent heat captured in the house Window hoods and balcony - to reduce the entering of solar radiation and daylight into the house More windows and the opening are wide Aprons - to prevent dirt on the wall Wide doors – wind shaft is built to enable heated air go outside Ceiling (high ceiling) – to prevent direct heat into the house
Climate responsive architecture (1)
Courtyard type buildings are very suitable A moderate dense, low rise development Large projecting eaves and wide verandahs are needed in the warm-humid season as out door living areas - to reduce sky glare, keep out the rain and provide shade Shading devices should preferably be of low thermal capacity Roof and external walls - constructed of solid masonry and concrete. Resistance insulation - placed at the outside surfaces of external walls or roofs. Large openings in opposite walls - preferably with solid shutters.
Climate responsive architecture (1)
 Case Study - I  Case Study – II  Case Study – III  Case Study -IV
Hot and dry climate OVERVIEW OF DESIGN PRINCIPLES. • Courtyard or patio • White colored walls (“cool” colours reduce heat reflection ). • Arrangement of the houses in is very closely packed to each other. • Vegetation (reduces the temperature, filter’s the dust in and around the house, elevates the humidity level may reduce as well as increase the wind speed) . • Small openings • Double roof or white single roof • Thick walls • Big basin to collect rainwater • Louvered windows pergolas a water body
Climate responsive architecture (1)
Climate responsive architecture (1)
Climate responsive architecture (1)
Climate responsive architecture (1)
Climate responsive architecture (1)
HOT AND HUMID CLIMATE OVERVIEW OF DESIGN PRINCIPLES- • Resisting heat gain • Promoting heat loss • Landform and Waterbodies • Open spaces and built form • Orientation and Planform • cross-ventilation. • Semiopen spaces • Building Envelope • Fenestration
Project details Designers: Andrew Spiers (homeowner) and David Bridgman, MODE DESIGN Builder: Garrett Homes Engineer: Elisha Harris, Qantec-McWilliam Size: Approx. 177m2; 2 bedroom Size of land: 80 hectares
 Site, location and climate  Darwin River is a largely wooded rural suburb some 65km south-east of Darwin.  The house is sited in the western half of the block, away from the river, on the highest point to make the most of seasonal winds: south-easterlies in the dry and north- westerlies in the wet.  The Top End’s tropical climate has high humid summers and warm winters, with mean maximum temperatures of 32°C and a mean minimum of 23.2°C. In the wet season, from November to April, mean January rainfall is 423.8mm; in the dry season, from May to October, rainfall drops to 1.2mm in July.  During the wet season the region is prone to cyclone activity, heavy monsoonal downpours and flooding. The fire season occurs during the dry, from late autumn through to late spring.
 Design response  The home has a high-pitched roof that minimises sun exposure and creates a cathedral ceiling to maximise air circulation. Vents in the roof ridge and apex exhaust heat. The roof is clad with steel and lined with insulation with an air gap to act as an additional insulative barrier to heat exchange.  This home is built entirely with steel which has a low thermal mass. The home and outdoor living area are shaded year-round by the roof and eaves  The home has been orientated west-south-west/east-north- east to capture breezes common to this site The design makes the most of passive cooling principles. The cross- shaped plan ensures the home is only one room wide throughout to encourage cross ventilation. Solid internal walls have been placed on a north-west/south-east axis so they increase natural ventilation by not obstructing air paths  Windows are fitted with roller shutters to protect the house from fire or storm damage.
Climate responsive architecture (1)
COMPOSITE CLIMATE – COLD AND DRY OVERVIEW OF DESIGN PRINCIPLES- • Resisting heat gain • Decrease exposed surface area by orientation and shape of the building. • Providing roof insulation and east and west wall insulation. • Increase shading on east and west walls by overhangs, fins and trees. • Increase surface reflectivity by using light-coloured textures. • Encourage ventilation by locating windows properly. • Increase air exchange rate with the help of courtyardS and Arrangement of openings.
Degree college and hill council, Leh, India • Located in Leh, in upper Himalayas, the degree college and hill council have been built within a cold and dry climate. • The building required to be heated almost throughout the year. It has long winter from October to April .
Climate responsive architecture (1)
Climate responsive architecture (1)
Climate responsive architecture (1)
Climate responsive architecture (1)
COMPOSITE CLIMATE – COLD AND CLOUDY OVERVIEW OF DESIGN PRINCIPLES- • Exposed surface areas are reduced by careful orientation and shape of building. • Wall and roof insulation and double glazing • Thicker walls. • Providing air locks and lobbies darker colours inside as well as outside. • Reduce shading on walls and glazed portions. • Utilise heat from appliances and provide thermal storage mass like trombe wall, mass wall etc. • Sunspace and solarium with day-lighting strategies. • Skylights—domed or pyramid shaped—with baffles to control glare are more efficient. • Glazing area should be 3 to 9 per cent of the floor area to provide adequate lighting levels.
H.P. STATE CO-OPERATIVE BANK BUILDING, SHIMLA  Location : Shimla, Himachal Pradesh  Climate : Cold and Cloudy  Brief description of building : This building is a ground and three-storeyed structure with its longer axis facing the east-west direction. The smaller northern wall faces the prevailing winter winds from the north-eastern direction.
 South-facing Trombe wall and sunspace heats up the interior  South-facing solar collectors on the roof provide warm air, which is circulated by means of ducts  North face is protected by a cavity wall that insulates the building from prevailing winter winds  Western wall is provided with insulation as well as double glazing
 Daylighting is enhanced by providing light shelves.  Skylight on the terrace also provides daylighting  Air lock lobbies are provided to reduce air exchange
Climate responsive architecture (1)
 https://www.google.co.in/  http://www.slideshare.net/  www.teriin.org
THANK YOU !

More Related Content

Climate responsive architecture (1)

  • 1. Presented by: Mithilesh Mandal 114AR0006 Sonakshi Bhattacharjee 114AR0024 Guidance: Prof. Binit Kumar
  • 2. Climate Hot andHumid Hot and dry Composite Location 15° N-15° S 15°-30° N & S Near tropic of Cancer and Capricon Temperature Day 27°-32° C 43°-49° C 32°-43° C(dry) 27°-32° C(wet) Night 21°-29° C 10°-18° C(cool season) 27°-32° C(dry season) 21°-27° C(dry) 24°-27° C(wet) Humidity 55-100% 10%-55% 20%-55%(dry) 55%-90%(wet) Vapour Pressure 2500-3500 N/m² 750-1500 N/m² 1300-1600 N/m² (dry) 2000-2500 N/m² (wet) Precipitation(annual ) 2000-5000 mm 50mm 500-1300 mm Sky condition 850-7000 cd/m² 1700-2500 cd/m² Varies with seasons Solar Radiation Partly reflected, partly scattered Direct and strong Direct and strong during clear period
  • 3. Flat roof - is used because of sandstorms – not obstruct the wind flow Pitch roof - should be built as double layers Small windows - to prevent sand and dust from entering the house Thick wall – the entering of heat into the house during daytime become slower and at night the cold air push the warm air to flow outside and the building is maintained cold (ie: pyramid) Concrete houses are built Colors of the buildings - light / bright Materials - crack and break up cause by high daytime temperature and rapid cooling at night
  • 5. Wall - is still warm at night because of the high solar radiation during the day Pitch roof - is used act as a buffer to reduce the entering of heat into the house Gutters are built Plastered single layer wall – to prevent heat captured in the house Window hoods and balcony - to reduce the entering of solar radiation and daylight into the house More windows and the opening are wide Aprons - to prevent dirt on the wall Wide doors – wind shaft is built to enable heated air go outside Ceiling (high ceiling) – to prevent direct heat into the house
  • 7. Courtyard type buildings are very suitable A moderate dense, low rise development Large projecting eaves and wide verandahs are needed in the warm-humid season as out door living areas - to reduce sky glare, keep out the rain and provide shade Shading devices should preferably be of low thermal capacity Roof and external walls - constructed of solid masonry and concrete. Resistance insulation - placed at the outside surfaces of external walls or roofs. Large openings in opposite walls - preferably with solid shutters.
  • 9.  Case Study - I  Case Study – II  Case Study – III  Case Study -IV
  • 10. Hot and dry climate OVERVIEW OF DESIGN PRINCIPLES. • Courtyard or patio • White colored walls (“cool” colours reduce heat reflection ). • Arrangement of the houses in is very closely packed to each other. • Vegetation (reduces the temperature, filter’s the dust in and around the house, elevates the humidity level may reduce as well as increase the wind speed) . • Small openings • Double roof or white single roof • Thick walls • Big basin to collect rainwater • Louvered windows pergolas a water body
  • 16. HOT AND HUMID CLIMATE OVERVIEW OF DESIGN PRINCIPLES- • Resisting heat gain • Promoting heat loss • Landform and Waterbodies • Open spaces and built form • Orientation and Planform • cross-ventilation. • Semiopen spaces • Building Envelope • Fenestration
  • 17. Project details Designers: Andrew Spiers (homeowner) and David Bridgman, MODE DESIGN Builder: Garrett Homes Engineer: Elisha Harris, Qantec-McWilliam Size: Approx. 177m2; 2 bedroom Size of land: 80 hectares
  • 18.  Site, location and climate  Darwin River is a largely wooded rural suburb some 65km south-east of Darwin.  The house is sited in the western half of the block, away from the river, on the highest point to make the most of seasonal winds: south-easterlies in the dry and north- westerlies in the wet.  The Top End’s tropical climate has high humid summers and warm winters, with mean maximum temperatures of 32°C and a mean minimum of 23.2°C. In the wet season, from November to April, mean January rainfall is 423.8mm; in the dry season, from May to October, rainfall drops to 1.2mm in July.  During the wet season the region is prone to cyclone activity, heavy monsoonal downpours and flooding. The fire season occurs during the dry, from late autumn through to late spring.
  • 19.  Design response  The home has a high-pitched roof that minimises sun exposure and creates a cathedral ceiling to maximise air circulation. Vents in the roof ridge and apex exhaust heat. The roof is clad with steel and lined with insulation with an air gap to act as an additional insulative barrier to heat exchange.  This home is built entirely with steel which has a low thermal mass. The home and outdoor living area are shaded year-round by the roof and eaves  The home has been orientated west-south-west/east-north- east to capture breezes common to this site The design makes the most of passive cooling principles. The cross- shaped plan ensures the home is only one room wide throughout to encourage cross ventilation. Solid internal walls have been placed on a north-west/south-east axis so they increase natural ventilation by not obstructing air paths  Windows are fitted with roller shutters to protect the house from fire or storm damage.
  • 21. COMPOSITE CLIMATE – COLD AND DRY OVERVIEW OF DESIGN PRINCIPLES- • Resisting heat gain • Decrease exposed surface area by orientation and shape of the building. • Providing roof insulation and east and west wall insulation. • Increase shading on east and west walls by overhangs, fins and trees. • Increase surface reflectivity by using light-coloured textures. • Encourage ventilation by locating windows properly. • Increase air exchange rate with the help of courtyardS and Arrangement of openings.
  • 22. Degree college and hill council, Leh, India • Located in Leh, in upper Himalayas, the degree college and hill council have been built within a cold and dry climate. • The building required to be heated almost throughout the year. It has long winter from October to April .
  • 27. COMPOSITE CLIMATE – COLD AND CLOUDY OVERVIEW OF DESIGN PRINCIPLES- • Exposed surface areas are reduced by careful orientation and shape of building. • Wall and roof insulation and double glazing • Thicker walls. • Providing air locks and lobbies darker colours inside as well as outside. • Reduce shading on walls and glazed portions. • Utilise heat from appliances and provide thermal storage mass like trombe wall, mass wall etc. • Sunspace and solarium with day-lighting strategies. • Skylights—domed or pyramid shaped—with baffles to control glare are more efficient. • Glazing area should be 3 to 9 per cent of the floor area to provide adequate lighting levels.
  • 28. H.P. STATE CO-OPERATIVE BANK BUILDING, SHIMLA  Location : Shimla, Himachal Pradesh  Climate : Cold and Cloudy  Brief description of building : This building is a ground and three-storeyed structure with its longer axis facing the east-west direction. The smaller northern wall faces the prevailing winter winds from the north-eastern direction.
  • 29.  South-facing Trombe wall and sunspace heats up the interior  South-facing solar collectors on the roof provide warm air, which is circulated by means of ducts  North face is protected by a cavity wall that insulates the building from prevailing winter winds  Western wall is provided with insulation as well as double glazing
  • 30.  Daylighting is enhanced by providing light shelves.  Skylight on the terrace also provides daylighting  Air lock lobbies are provided to reduce air exchange