SEMESTER-10
REDEVELOPMENT OF BORIVALI RAILWAY STATION INTO TRANSIT HUB CUM COMMERCIAL COMPLEX DR. D.Y. PATIL COLLEGE OF ARCHITECTURE
MADHURA KANKAL ROLL NO.: 16040 SEAT NO.: 6967
INTRODUCTION TO TOPIC • The Borivali station is a terminus for slow, semi-fast and fast trains on Mumbai Suburban Railway System. • It also serves as the final city limit station for all mails and express trains on Western Railway before leaving Mumbai. The station caters to 2.99 lakhs passengers daily and is the busiest station on the western line. • Borivali railway station is up for redevelopment under the Ministry of railway’s policy of redevelopment of railway stations across the country. • The station will be redeveloped into a state-of-the-art multi-modal transit hub which will include rail transport, bus transport connected with cab, auto-rickshaw services and personal vehicles along with a commercial office complex.
BENEFITS OF MIXED USE T.O.D • Promoting higher densities and the concentration of jobs within relatively small areas, transit oriented development creates agglomeration effects proven to boost a city’s competitiveness. • This concentration creates vibrant communities with high-quality public areas and shorter commuting distances—making cities more livable. • By concentrating jobs, services, and housing within the catchment area of transit stations, TOD makes public transport a more attractive and efficient option, while reducing dependence on private cars and promoting shorter commutes. As a result, TOD typically translates into higher productivity and a smaller carbon Footprint.
BORIVALI WEST
BORIVALI EAST
CURRENT SITE MAP
ABOUT TOPIC
LOCATION OF BORIVALI ON MUMBAI SUBURBAN RAILWAY NETWORK MAP
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
AIM: • To provide architectural solutions by developing the existing railway terminal along with bus station and a commercial hub considering the current scenario as well as foreseeing the future growth of Borivali. • Redeveloping the former structure with a new State of the art Multi-modal transit hub that will cater to smooth flow of passengers.
OBJECTIVES: • To study the current problems. • To study the current footfall and design spaces according to the passenger load. • Achieving a design of efficient transit hub. • To study the problems faced by a certain group of users . • Efficiently integrating of various modes of transport. • To integrate the commercial complex with the transit hub.
• To create a high-quality business environment. • Encourage superior project design.
ABOUT TOPIC
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
JUSTIFICATION OF TOPIC
PICTURES OF EXISTING BORIVALI STATION
ABOUT TOPIC
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SITE LOCATION: The site is located in Borivali. The railway station divides the city in two halves, east and west
SITE AREA: Ground coverage area of site: 73742 m2 (18.2 acres) Area for air space development: 86570m2 (21.4 acres) Area for commercial exploitation: 19740m2 (4.9 acres) FSI PERMISSIBLE- 1+0.88 SOIL TYPE: Alluvial and loamy
Accessibility: CLIMATE: Warm and humid Max. temperature: 40 deg. Min. temperature: 18 deg. WIND DIRECTION:
North east-south west
ABOUT SITE
Railway station: Borivali railway station – 0km Bus stop: Borivali railway station stop – 0km Airport: Mumbai international airport – 18.4 km Ferry: 1. Gorai ferry- 3.6km
2. Marve jetty – 9.6km
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL SITE TRANSIT STUDY HUB MADHURA KANKAL
EXISTING SITE INFORMATION AS PER TENDER DOCUMENT
PASSENGER AMENITIES DETAILS MAP SHOWING EXISTING SITE PLAN AND TENTATIVE LOCATION FOR RELOCATION OF EXISTING ASSETS
LAND USE MAP PLATFORM DETAILS
ABOUT SITE
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SITE PLAN
1
RAILWAY STATION
2
BUS STOPS COMMERCIAL BUILDING (25 M2) COMMERCIAL BUILDING(35 M2) COMMERCIAL BUILDING (90 M2) 1
STATION BUILDING
2
PARKING WASTE DISPOSAL STP
BLOWN UP PLAN
SITE PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
GROUND FLOOR PLAN
ENTRANCE HALL TO STATION REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
GROUND FLOOR PLAN
ENTRANCE LOBBY CONNECTED TO FOOT OVER BRIDGE REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
GROUND FLOOR PLAN
2-WHEELER PARKING- EAST 170 PARKING
2-WHEELER PARKING- WEST 200 PARKING REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
GROUND FLOOR PLAN
STATION BUILDINGEAST
STATION BULDINGWEST REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
GROUND FLOOR PLAN
CAB AND AUTO STAND
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
BUS STATION LEVEL PLAN- 7.05M
ELEVATED BUS STATION REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
OFFICE BUILDING -25M2
+00 LVL.
+0.6 LVL.
CAR LIFT
PARKING LAYOUT
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
OFFICE BUILDING -25M2
TYPICAL FLOOR PLAN
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
OFFICE BUILDING -35M2 +0.15LVL. +0.6LVL. +0.6LVL.
LIFT. LIFT.
+0.6LVL.
GROUND FLOOR PLAN
SHOPS
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
OFFICE BUILDING -35M2
LIFT. OFFICE 35 M.SQ.
OFFICE 35 M.SQ.
VOID.
OFFICE 35 M.SQ.
LIFT.
OFFICE 35 M.SQ.
VOID.
TYPICAL FLOOR PLAN
35 M.SQ OFFICE
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
COMMERCIAL COMPLEX- LARGE OFFICES
ARIEL VIEW
SITE PLAN
LARGE OFFICE COMPLEX
LANDSCAPE VIEW REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
BUILDING -3
+3.0LVL.
+0.0LVL.
+0.0LVL.
+0.6LVL.
+0.6LVL.
+0.6LVL.
+0.6LVL.
+0.0LVL.
+0.6LVL. +3.0LVL.
+0.0LVL.
+0.0LVL.
GROUND FLOOR PLAN ENTRANCE LOBBY STAIRCASE/LIFT PARKING
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
BUILDING -3
PODIUM LEVEL FLOOR PLAN- 3M ENTRANCE LOBBY STAIRCASE/LIFT PARKING
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
BUILDING -3
25 M. SQ. OFFICES
AHU
TOILET
STAIRCASE. LIFT BLOCK
CONFERENCE ROOM
SUPPORTING SERVICES
ELECRICAL ROOM
RECREATIONAL
SHOPS
CANTEEN/CAFE
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
BUILDING -3
25 M. SQ. OFFICES
AHU
TOILET
STAIRCASE. LIFT BLOCK
CONFERENCE ROOM
SUPPORTING SERVICES
ELECRICAL ROOM
RECREATIONAL
SHOPS
CANTEEN/CAFE
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
BUILDING -3
REFUGE
REFUGE
REFUGE
25 M. SQ. OFFICES
AHU
TOILET
STAIRCASE. LIFT BLOCK
CONFERENCE ROOM
SUPPORTING SERVICES
ELECRICAL ROOM
RECREATIONAL
SHOPS
REFUGE
CANTEEN/CAFE
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
REFUGE
REFUGE
REFUGE
REFUGE
25 M. SQ. OFFICES
AHU
TOILET
STAIRCASE. LIFT BLOCK
CONFERENCE ROOM
SUPPORTING SERVICES
ELECRICAL ROOM
RECREATIONAL
SHOPS
CANTEEN/CAFE
KEY PLAN
BUILDING PLAN
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
OFFICE
LOBBY
LOBBY
OFFICE
OFFICE
LOBBY
LOBBY
OFFICE
OFFICE
LOBBY
LOBBY
OFFICE
OFFICE
LOBBY
LOBBY
OFFICE
OFFICE
LOBBY
LOBBY
OFFICE
CAFE
CAFE
SECTION A-A’
A’
A
KEY PLAN
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SECTION B-B’
B’
B
KEY PLAN
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SECTION C-C’
C’
C
KEY PLAN
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
+31.05M +28.05M
+23.85M +21.5M +19.65M
+15.45M
+11.25M
+7.05M +3.3M +0.6M +0.15M +00 G.L.
SECTION D-D’
D’
D
KEY PLAN
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SECTION E-E’
E’
E
KEY PLAN
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SECTION F-F’
F’
KEY PLAN
SECTIONS
F
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SECTION G-G’
G
G’
KEY PLAN
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
+77.4M +75.6M +74.4M +70.2 +66MM +57.6M +53.4M +49.2M +45M +40.8M +36.6M +32.4M +28.2M +24M +19.8M +15.6M +11.4M +7.2M
SECTION H-H’
+3M +0.9M +00 GROUND LEVEL
H
H’
PLAN
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
I
+77.4M +75.6M +74.4M
+70.2
+66MM
I’
+57.6M
+53.4M
+49.2M
+45M
+40.8M
+36.6M
+32.4M
+28.2M
+24M
+19.8M
+15.6M
+11.4M
+7.2M
+3M +0.9M +00 GROUND LEVEL
SECTION I-I’
SECTIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
EAST ELEVATION
WEST ELEVATION
ELEVATIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
COMMERCIAL BUILDING- WEST ELEVATION
ELEVATIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SOUTH ELEVATION
ELEVATIONS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
VIEWS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
VIEWS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
VIEWS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
VIEWS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
VIEWS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
FOUNDATION- PILE FOUNDATION Pile foundations are deep foundations. They are formed by long, slender, columnar elements typically made from steel or reinforced concrete, or sometimes timber. A foundation is described as 'piled' when its depth is more than three times its breadth.
LOCATION ON SITE
• Depth of the piles will depend upon the soil conditions, if considered medium clay then piles up to 45m approx.
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SLAB BEAM SYSTEM
This system consists of beams framing into columns and supporting slabs spanning between the beams. It is a very traditional system. The relatively deep beams provide a stiff floor capable of long spans, and able to resist lateral loads.
COLUMN BEAM LAYOUT-1
COLUMN BEAM LAYOUT-2 COLUMN BEAM LAYOUT-1
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
WARREN TRUSS • The Warren truss consists of longitudinal members joined only by angled cross-members, forming alternately inverted Equilateral triangle-shaped spaces along its length. This gives a pure truss: each individual strut, beam, or tie is only subject to tension or compression forces, there are no bending or torsional forces on them. • Loads on the diagonals alternate between compression and tension (approaching the center), with no vertical elements, while elements near the center must support both tension and compression in response to live loads. This configuration combines strength with economy of materials and can therefore be relatively light.
Stack ventilation
ROOF PLAN SHOWING COLUMNS AND POSITION OF SKYLIGHT, EXHAUST
Roof covering material- Galvalume sheets • Galvalume is a roofing sheet that has a coating of zinc, silicon, and aluminum. • All these coatings protect the metal and are the primary form of the steel made of oxidation. • It protects the base metal and sacrificial metal coating • The thicknesses of the Galvalume are approx. 1 mil thick.
Stack effect or chimney effect is a phenomenon that occurs because of the natural heat transfer. The warm air has a lower density rather than the cold air and raises to the upper part of the building
Skylight material- polycarbonate sheet Polycarbonate is a thermoplastic that comes in a transparent sheet. It is incredibly tough and absorbs minimal moisture, making it resistant to impact damage as well as water damage. It's also flame-retardant and chemical resistant.
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
Weather Louvers External weather louvres are externally mounted air transfer devices for the fresh air and exhaust air of air conditioning systems. They are installed in external walls and façades. Their narrowly arranged blades give good protection against the direct ingress of rain as well as against leaves and birds. These operate automatically according to the weather.
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
LATTICE STEEL TRUSS FOOT OVER BRIDGE WITH ISOLATED FOOTING ADVANTAGE OF USING STEEL TRUSS: • ECONOMICAL • SIMPLE TO ASSEMBLE • FLEXIBILITY IN DESIGN • RESISTANCE TO DYNAMIC LOADS • EASY MAINTENANCE • SAFE
3D VIEW STEEL TRUSS BRIDGE
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
LATTICE STEEL TRUSS FOOT OVER BRIDGE WITH ISOLATED FOOTING A
DETAIL AT A-TRUSS DETAIL
SECTION A-A’ D
C
B
DETAIL AT B- FOOTING DETAIL
DETAIL AT C- BRACING AND PLATE DETAIL
DETAIL AT D- SUPPORT BRACKET DETAIL
BRACING DETAIL ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
EXPANSION JOINT
In building construction, an expansion joint is a midstructure separation designed to relieve stress on building materials caused by building movement induced by: thermal expansion and contraction caused by temperature changes, sway caused by wind. seismic EXPANSION JOINT AT FLOOR events.
EXPANSION JOINT BETWEEN FLAT ROOF AND WALL
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
EXPANSION JOINT AT WALL
EXPANSION JOINT AT ROOF LEVEL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
GREEN ROOF A green roof is a layer of vegetation planted over a waterproofing system that is installed on top of a flat or slightly–sloped roof. Green roofs are also known as vegetative or eco–roofs.
GREEN ROOF PLAN
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SKYLIGHT
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
ENTRANCE CANOPY
ISOMETRIC VIEW OF CANOPY
GROUND FLOOR PLAN SHOWING CANOPY
SECTION VIEW OF CANOPY
ARCHITECTURAL REPRESENTATION AND DETAILING
STRUCTURAL
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
TRACK DRAINAGE SYSTEMS • Surface drainage: Surface water due to rain or snow, or from adjacent areas should be drained off properly by designing well-planned and effective surface drains. • Sub-surface drainage : In case water percolates into the formation due to bad soil or such other reasons, the formation gets adversely affected and this has a bearing on the safety and stability of the track. 1 Drainage in Mid-sections Between Railway Stations
2 Drainage in Station Yards
3 Drainage of Station Platforms Slopes away from track Normally, all end platforms should be sloped away from the track. Discharge on non-track side All drains from platform shelters, tea stalls, toilets, water taps, etc., should be enclosed in pipes and should normally discharge or release their contents on the non-track side of the platform. Covered longitudinal drains should be provided on the platform, if necessary.
Discharge not towards run-through lines In the case of island platforms, all drains should discharge their contents on the less important side of the track and not towards run-through lines.
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SEWAGE WATER TREATMENT PLANT
STP PLAN
SCHEMATIC DIAGRAM OF STP • sewage water capacity of proposed sewage treatment plant: 40 kilo liters per day • The treated water will be reused for washing and flushing purposed LOCATION OF STP ON SITE
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
WATER REQUIREMENT CALCULATION ZONE A: RAILWAY STATION ZONE B: LARGE OFFICE BUILDING FOOTFALL= 19,000 CAPACITY: 1,600 WATER REQUIRED IS 10L/PER PERSON/ PER DAYWATER REQUIRED IS 10L/PER PERSON/ PER HENCE WATER REQUIRED= 19,000 X 10 DAY =1,90,000 HENCE WATER REQUIRED= 1600 X 10 WATER FOR FIRE FIGHTING= 50% OF WATER =16,000 REQUIRED WATER FOR FIRE FIGHTING= 50% OF WATER = 50% OF 1,90,000 REQUIRED =95,000 = 50% OF 16000 HENCE, TOTAL WATER REQUIRED = =8000L 1,90,000+95,000 HENCE, TOTAL WATER REQUIRED= 16000+8000 = 2,85,000 = 24,000 LITERS LITERS TOTAL VOLUME OF UGT = 24,000 / 1000 TOTAL VOLUME OF UGT = 2,85,000 / 1000 = 24 CU.M. = 285 CU.M. L X B X H = AREA OF TANK L X B X H = AREA OF TANK L X B X H = 24 CU.M. L X B X H = 285 CU.M. L X B X 2.1 = 24 L X B X 2.1 = 285 L X B = 12 L X B = 136 L=2B L=2B 2B X B= 12 2B X B= 136 B= 2.5 B= 8.5 L=5 L=17 DIMESNIONS OF THE TANK: DIMESNIONS OF THE TANK: L=5, B=2.5 H=2.1.
L=17, B=8.5, H=2.1.
SMALL OFFICE BUILDING-1 + SMALL OFFICE BUILDING-2 (REPEATED ON EAST AND WEST) X 4 CAPACITY: 200 + 450 WATER REQUIRED IS 10L/PER PERSON/ PER DAY HENCE WATER REQUIRED= 650 X 10 =6500 WATER FOR FIRE FIGHTING= 50% OF WATER REQUIRED = 50% OF 6500 =3250 HENCE, TOTAL WATER REQUIRED = 6500+3250 = 9750LITERS TOTAL VOLUME OF UGT = 9750 / 1000 = 10 CU.M. (APPROX.) L X B X H = AREA OF TANK L X B X H = 10CU.M. L X B X 2.1 = 10 LXB=5 L=2B 2B X B= 2.5 B= 1.6 L=3.2 DIMESNIONS OF THE TANK:
L=3.2, B=1.6, H=2.1.
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
UNDERGROUND AND OVER HEAD TANK DETAILS
1
6 5
2
3
4
UNDERGROUND TANK DETAILS
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
OVERHEAD TANK DETAILS
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
RAINWATER HARVESTING Rainwater harvesting calculation: mean annual rainfall in mm x area in m² x runoff factor = collected rainwater in liters. Mean annual rainfall= 2250mm Area in meter2= 20400 m² Run off factor: 0.9 Water collected= 2421 x 20400 x 0.9 = 4,13,10,000 liters per year
UNDERGROUN D TANK
UNDERGROUN D TANK
GUTTER DETAIL
SCHEMATIC DIAGRAM
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
UNDERGROUND TANK
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
SOLAR NET-METERING Net metering (also known as net energy metering or NEM) is a solar incentive that allows you to store energy in the electric grid. When your solar panels produce more electricity than you need, that energy is sent to the grid in exchange for credits. Then, at night or other times when your solar panels are underproducing, you pull energy from the grid and use these credits to offset the costs of that energy.
SOLAR CALCULATIONS: Watts per panel x hours of sunlight received x .75 = daily watt hours Considering watts per solar panel= 250 watts Hours of sunlight received in Borivali= 10 hours 250 x 10 x 0.75= 1875 daily watt hours to convert to KWH divide by 1000 =1875/1000 =1.875 kwh/solar panel According to the roof area available to install solar panels, 300 solar panels will be installed Therefore, total energy generated, =1.875 x 300 = 562.5 KHW
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
FIRE FIGHTING SYSTEM All wet-riser pipes remain charged with water at systems pressure. The opening of a hydrant landing valve or hose reel on any floor reduces the pressure in the pipeline and starts the hydrant pump. Pump-sets of suitable capacity are provided for this purpose. Because of the static pressure differential caused by the change in floor height, a multi-stage pump is employed so that different tapping can be taken from the output of the pump. Each of these tapping can be used to serve more than one floor. Pumps-sets should be fed with reliable electric supply from a separate feeder and it is therefore also desirable to have a stand-by diesel pump.
WET RISER SYSTEM
SPRINKLER SYSTEM
HEAT DETECTORS
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
SITE HYDRANT
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
HVAC SYSTEM FOR COMMERCIAL BUILDING Central air conditioning (or central A/C) is a system in which air is cooled at a central location and distributed to and from rooms by one or more fans and ductwork. The work of the air conditioner compressor is what makes the whole process of air conditioning possible. The compression of the refrigerant gas enables it to discharge heat out of the house, which is how the cool air is created. CENTRAL SYSTEM ICE STORAGE AIR CONDITIONING At night, water freezes and energy in the form of ice is stored. During the day, low energy pump is used to transport the AC coolant through the ice to produce cool air. This allows the energy intensive traditional AC compressor to be shut off to minimize power consumption. The chilled air is then distributed through the HVAC system. Sub systems of centralized AC: A central AC’s main components are: •Fans that pull air through the system •Evaporator coils that change refrigerant from liquid to gas •A compressor that pressurizes refrigerant gas •Condenser coils that turn refrigerant gas into a liquid •Refrigerant lines that carry refrigerant between the coils •An expansion device that regulates refrigerant flowing to the evaporator
WORKING OF CENTRAL ICE STORAGE AIR CONDITIONING
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
1. Outdoor unit / 2. Total enthalpy heat exchanger unit / 3. Cassette-type Air-conditioning equipment / 4. Air-cooling air conditioner / 5. Air-conditioning
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
PERMEABLE PAVERS Permeable paving systems are porous, so they allow water to infiltrate the pavement and drain into the ground or sub-base rock underneath. These paving systems are just as strong and durable as traditional paving materials such as concrete, asphalt, or compacted gravel. Several types of porous paving grids exist, including plastic grid pavers with flexible joints; rigid or rolled plastic pavers; interlocking concrete grids; and permeable concrete and asphalt pavement. The permeable pavers have open cells that are filled with gravel or grass and are designed to let water enter into their surfaces, get detained in the rock base, and absorb into the ground beneath. Paving systems that use hardscape surfaces (concrete, asphalt, or compacted gravel) will collect stormwater, causing it to pool or run off. Instead, permeable pavers have a porous surface that naturally mimics and recreates the way the ground reacts to rainwater. The rate at which the water drains into the surface depends on the specific type of permeable paving system used. Permeable pavements aid stormwater management, reduce runoff, and decrease flooding risks. Conventional concrete, asphalt, and gravel-only pavement are the primary generators of stormwater runoff. Runoff is dangerous for cities, as the water collects contaminants and gets hotter as it rolls through streets. Eventually, this runoff will flow into and disrupt the natural waterways
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
WATERLESS URINALS
Daily water saved calculations: Railway station: Footfall: 19,000
Number of men: 9,500 Urinal requirement according NBC: 4 urinals for first 1000 passengers and 1 after that for every 1000 passengers. Total urinals required: 13 Flush capacity per urinal: 10 liters
Approx. frequency of urinal usage per day= 5000 men Therefore water required for flushing urinals per day= 13 x 10 x 5000 = 6,50,000 liters per day 6,50,000 liters of water will be saved by using waterless urinals at railway station.
Office building: Daily footfall: 4200 In order to limit liquid waste and save water, traditional toilets for man are replaced by waterless urinals in schools, offices, libraries, public transportation and stadiums. Those require lower setting fees and service security. The principle is used a slight piece of liquid which undergo waste from human but avoid the smell. As a result, the amount of water for flushing toilets is reduced, also save money paid for electric bills and keeps the toilets clean which is a necessity at Indian railway station toilets
ARCHITECTURAL REPRESENTATION AND DETAILING
SERVICES
Number of men: 2100 According to nbc: over 200 people add urinals at 2.5% 2.5% of 2100= 53 urinals. Approx. usage of urinals per day: 1500 times Water required per day for urinals= 53 x 10 x 1500 = 795000 liters
Therefore, 7,95,000 liters of water will be saved in the office building by using waterless urinals.
REDEVELOPMENT OF BORIVALI STATION INTO MULTI-MODAL TRANSIT HUB MADHURA KANKAL
WALKTHROUGH
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