URBAN SYMBIOSIS
SELF SUSTAINABILITY RATIO : 161% SOLAR POTENTIAL ROOF AREA:282600 M2 ENERGY:34000 MW/YEAR
Residential density : 25,000 people / sqkm -geographically located in the higher ground -easy access to city amenities
WATER CONSUMPTION LITRES/CAPITA
RESIDENTIAL: 24 KWH/M2.YEAR OFFICE: 160 KWH/M2.YEAR
RESIDENTIAL : 135 LITER/CAPITA OFFICE : 45 LITER/CAPITA
MOBILITY
ENERGY CONSUMPTION PER/ M2
built up area: 22% residential: office commercial institutional
BUILDING PROGRAM
SITE
SELF SUSTAINABILITY RATIO 250%
MRT
Tram
Bus
Constant reduction of green in the urban scenario due to many factors is a serious alarm to adapt greenery on the buildings
contour interval : 5m contour difference across site:55m
Residential : 12.5% Industry : Office : Commercial : 15.5% Institutional : 5%
Private greenery : 12.5% Restricted greenery : Roadside greenery : 15.5% Public greenery
Constant reduction of green in the urban scenario due to many factors is a serious alarm to adapt greenery on the buildings
Private blue space : .5% Public blue space : 8.6%
:
The waste generated in the surrounndings is not treated by the local authorities and the huge office does not care for the neighbours
The form of the building plays a mojor role in determining the cooling load required for the building thereby has a direct impact on energy consumption
Generally the Photovoltaic panels installed on the roof of the office buildings supports only few floors even on peak periods.
The profile and the form factor of the building designed according to the sun angle radiation provides shade for the indoor spaces and also provides space for greenery and recreation spaces within the building
Office buildings in the urban context should take care of the Office buildings in the urban context should take care of the A sustainable office building should take care of the waste For a smart building the PV panels is installed not only on green in the neighburhood and also adapt grrenery within green in the neighburhood and also adapt grrenery within generated and the government in turn give subsidies to these the building but also on the neighbouring buildings to tap the energy & in turn the neighbouring context gets the grey the buildings on various cales the buildings on various cales infrastructures water treated and send back to the households
SMART OFFICE
TYPICAL OFFICE
DESIGN EVOLUTION - SYMBIOTIC ARCHITECTURE
Road area : 10%
CONTOUR, LEVEL NOTIFICATION, NATURAL WATERBODY NAME OF MAJOR THINGS
BLUE SPACE
GREYWATER:2514 M3/YEAR
GEOGRAPHICAL CON-
MOBILITY MAP
RAINWATER:802 M3/YEAR
ROAD NETWORK
WATER COLLECTION
site locality
GREEN STRUCTURE
The site is chosen at INDIA-Bombay-Bandra. There are many reaons to choose this place: poor waste management, loss of green, blue social space, growing economic indifferences, etc. An Office building which can be an URBAN ACCUPUNTURE can lead to a vast amount of changes in the city.
site locality
SATELLITE MAP
VIEWS OF BANDRA
BUILT UP DENSITY MAP
SITE LOCATION
SUSTAINABLE OFFICE BUILDING |
BUILDING FOOTPRINT
01
DESIGN STRATEGIES
INTERPRETATION OF AN URBAN SMART The design strategies are based on the sun path study. The facade of the building is designed with two layers of glazing with corridor and lounge space in between. The west face of the building has gor green wall feature which also provides space for urban farming. The office woorkspace has been extended from indoor to outdoor to increase the ease of working.
SYSTEM OF GROWTH
The Urban smart green office is developed in different phases. A smart office should use all waste materials in the context thereby BUILDING FROM WASTE By the end of the construction the waste produced in the region of Mumbai should have been clear and further waste generated can also be treated in this building and used for various purposes
PHASE 1
PHASE 2
Development of the three units
Creating public spaces on top of these units
Waste recycling
Grey water recycling
Waste recycling
PHASE 3
Generating the circulation core of the building
PHASE 4
PHASE 5
Prefabricated structures made out of recycled materials assembled at site
Final development of the building
A SYMBIOTIC RELATIONSHIP BETWEEN HOUSING AND OFFICE BUILDING. SUSTAINABLE SMART OFFICE IS NOT ONLY SELF-SUFFICIENT BUT ALSO SUSTAINABLE LIVING MACHINE FOR THE SURROUNDING CONTEXT
02
URBAN SYMBIOSIS
SUSTAINABLE OFFICE BUILDING |
S O L A R RADIATION ANALYSIS SUMMER
SHADOW R A N G E ANALYSIS
WINTER
AUTUMN
SPRING
SITE SECTION Green - The office building provides
Future expansion
greens spaces like terraces and green walls to grow crops and vegetables by the neighborhood
Central circulation & services core
Energy - The energy is generated from the
surrounding context by installing the PV panels on their roof space for a period of 10 years and returning the panels to the households
Green wall
Water - The grey water generated in the neighbourhood
residences is treated in the office water treatment plant using biotopes and used for the non potable water usage. The excess water is returned back to the grid.
Waste - The waste generated in the surrounding context is
Organic fertiliser
water treatment
grey water + rainwater
AERIAL VIEW
USING HEXAGONAL SHAPE ALLOWS FLEXIBILITY, ADAPTABILITY AND CAN BE DEVELOPED IN MANY DIFFERENT POSSIBILITIES
Bio gas
treated in the waste digester and the by product is used for the fertiliser for the urban farming
Solar energy generated
TYPICAL WORKSPACE FLOORPLAN
power storage
waste treatment
Excess water is sent back to the grid
When many such Urban Smart offices evolves the city becomes more sustainable and energy efficient It is a ‘win-win’ situation
INTERIOR VIEW
FLOOR STACKS