BOCHRA RAJKHAN JUMANA BAGHAFAR PROFESSOR: LABOY
1 2 3
MATERIALS
STRUCTURE
LANDSCAPE
SCENARIOS
PLANS
SECTIONS
ENVELOP
MECHANICAL
MANIFESTO D E S I G N
MANIFESTO
CONTEMPORARY LANGUAGE USING A MODERN LOOK PARALLEL WITH MODERN WAY OF BUILDING CREATES THE GUIDELINE TO FULFIL THE PARAMETER OF THE ARCHITECTURE NEEDS IN THIS ERA. THE GUIDELINE WILL PRODUCE A BUILDING THAT WILL OPERATE FOR MANY YEARS AND
DESIGNING IN A
WILL BE A ROOF TO SUPPORT THE COMING GENERATIONS.
PRECAST CONCRETE WILL PROVIDE THE BASE OF THE BUILDING MAKING IT MORE EFFICIENT TO ASSEMBLE ASWELL AS BEING
ENVIRONMENTALLY EFFICIENT.
ECONOMICALLY AND
SYMMETRICAL SHAPES THAT CREATES AN ELEGANT VISUAL RHYTHM AS WELL AS EXTRAORDINARY STRENGTH AND WITH THE RIGHT AGGREGATES, THEY COULD LAST A TAKING A TRADITIONAL MATERIAL, THEN TREATING IT ACCORDINGLY AND MOLDING IT TO FORM
LONG TIME AGAINST DIFFERENT ASPECTS LIKE CORROSION AND BREAKING. THE SYSTEMS ARE ABSTRACTED TO A FORM THAT IS IN DIALOGUE WITH THESE FACTORS.
FLEXIBLE
MODULAR
BEING SAID, IT ALLOWS THE BUILDING TO BE TO CHANGE ACCORDING TO THE PROGRAM THAT WILL CHANGE OVER THE YEARS. A SET OF ARE PRODUCED TO ACCOMPANY THE CHANGE, WITH THE STRUCTURE BEING FOR A 60’ SPAN IN WHICH PROVIDES AN OPEN AND AIRY FEEL IN THE INTERIOR. THE DOUBLE T SLABS FOR THE FLOORS FURTHER EXTENUATE THE VISUAL RHYTHM IN THE INTERIOR, AS WELL AS BEING ABLE SUPPORT MECHANICAL SYSTEMS RUNNING THROUGH THE BUILDING. THE BUILDING TERRACING DOWN CREATES A SOFTNESS TO THE HUMAN EYE, WHERE IT ISN’T JUST A BIG BLOCK STANDING. ORIENTED TO THE RIVER WHERE OCCUPANTS CAN ENJOY BEAUTIFUL SCENERIES WHICH ENHANCES WORK PRODUCTIVITY. GREEN AREAS BEING IMPORTANT TO HUMAN NATURE IS EXTENDED INTO THE BUILDING BY CREATING GREENROOFS, WHICH COULD LATER BE TRANSFORMED INTO AN AREA
SERVING THE COMMUNITY. ADDING AND SUBTRACTING MASSES FROM THE BUILDING WHICH RESULTS IN PLAY WITH LIGHT AND SHADOW AS WELL AS ALLOWING ENOUGH SUNLIGHT TO PROVIDE LIGHT DURING THE DAY. INVITING ENTRANCE AT THE BOTTOM TO WELCOME PEOPLE IN, CREATE AN INDOOROUTDOOR FEEL ADJACENT IS AN ATRIUM THAT SPANS TO THE TOP TO CREATE A SYSTEM OF NATURAL VENTILATION. STARTING AT THE PUBLIC AREA WHEN ENTERING, THEN MOVING INTO A GRADIENT OF PRIVACY.
MATERIALS CONCRETE W H Y
C O N C R E T E
MATERIAL Precast - Concrete Why Concrete
TRANSMITTED NOISE INSIDE OUTSIDE NOISE SOURCE
NOISE
COSTOMIZABLE
Wind & water resistant
HOT
COLD
Rust and chemical resistance
ADMIXTURE C O N C R E T E
T E S T
MATERIAL Precast - Concrete
ADMIXTURES TOUCHSTONE CLASSIFICATION STRENGTH
f. Hardeners – increase surface hardness
a. Air-Entraining – insulation value, weight reduction, workability
g. Pigments – color & appearance
Normal
e. Water Reducers – increase strength
Less Water.
MATERIAL Precast - Concrete
ADMIXTURES TOUCHSTONE CLASSIFICATION STRENGTH
SITE STUDY A L L S T O N , M A
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
32’
PRODUCED BY AN AUTODESK STUDENT VERSION
STRUCTURE DIAGRAMS T H E
E N D U R I N G
STRUCTURE
30’ x 30’ Hight: 18’ or 24’
Precast - Concrete
15’x 60’ Hight 18’ 15’x 60’ Hight 24’
EXITS
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
CIRCULATION PRIMARY COLUMNS
REBARS COLUMN
-UNLIMITED 132’
N O IS R E V T N E D U T S K S E D O T U A N A Y B D E C U D O R P
30’ 30’
15’
15’ 30’ 15’ 60’
• THE STRUCTURE OF THE BUILDING IS FOR 60’ SPAN. • DIFFRENT MOUDULAR WERE MADE AND CONNECTED TO SUIT DIFFERENT PROTOTYPES/ ACTIVITYS
15’
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
DOUBLE T BEAM
• THE CORES ARE PLACED IN THE CENTER OF THE 60’ SPAN. P R O D U C E PDRBOYDAUNC EADUPTR BOY O DDAEUNS CK AEU D STTBOUYDDEAESNKTASVUTETURODSIO DEENSNTK VSETRUSIO D E N T V E R SIO N • THE FURTHEST DISTANCE FROM THE EXIT IS 120’ AWAY ( CODE: NEEDED 148’) P R O D U C E D •BFIRE Y ARATED N A U TWALLS/ O D E S KSYSTEM S T U D E N T V E R SIO N CONNECTOR
CONCRETE CAST IN SITE REINFORCEMENT
BEAMS
COLUMNS SUPPORT PAD
90ft
G
H
I
J
K
L
M
N
O
P
Q
13
12
11 10 9
8 7 6 5
4 3 2
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
1
FROST LINE 4’
PLAN VIEW- 15’ GRID
DISTANCE BETWEEN 75ft EGRESS
32’ III OUTWASH 10’ • PILES SYSTEM
1
2
3
4
A
PROFILE B FOUNDATION I FILL 10’ II ORGANIC 10’ III OUTWASH 10’ IV-A MARINE 10’
B
5
6
7
8
120ft
9
10
11
12
13
14
C
15
16
17
75ft 120ft 19
18
D
135ft PRODUC ED BY AN AUTODESK STUDENT V
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
14
PLAN VIEW - 30’ GRID
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
45ft
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
15
60ft
60ft
V
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
16
U
75ft
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
17
T
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
18
S
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
19
R
E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
F
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
E
R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
D
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
C
90ft
105ft
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
B
90ft
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
DISTANCE TRAVEL
A
75ft 60ft
N O IS R E V T N E D U T S K S E D O T U A N A Y B D E C U D O R P
N O IS R E V T N E D U T S K S E D O T U A N A Y B D E C U D O R P
: 24‘ GROUND FLOOR • 18’ UPPER FLOORS - UNLIMITED : 45,000 SQFT : DEPENDS ON PROGRAM (CHAT ATTACHED NEXT PG) : AROUND 44” AROUND 250’
75ft
DISTANCE TRAVEL
•THIS CONNECTION AFTER THE COLUMNS ARE MECHANICALLY CONNECTED WILL PROVIDE FULL BEARING BETWEEN ELEMENTS THERFORE THE METAL COMPONANTS WILL BE PROTECTED FROM FIRE AND CORROSION.
METAL PLATES
N O IS R E V T N E D U T S K S E D O T U A N A Y B D E C U D O R P
PRIMARY BEAMS
• METAL BERING PLATES AND EMBEDED ANCHOR
N O I S R E V T N E D U T S K S E D O T U ABOLTS N A Y BARE D E CPLACED U D O R P IN THE END OF THE COLUMNS.
N O IS R E V T N E D U T S K S E D O T U A N A Y B D E C U D O R P
EMERGENCY EXITS
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
MAIN ENTRY
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
PRIVATE PUBLIC EGRASS CORE/ LATERAL STRUCTURE STAIRS + ELEVATORS+ UTILITY
E
F
G
H
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J
K
L
M
N
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P
Q
R
S
T
U
V
ENVELOPE M O D U L A R
DIAGRAMS
CONCEPT/ IDEAS
NORTH SIDE North Sun South Sun Shorter to provide some shading Views
N EAST SIDE
WEST SIDE
Shading Filter
S
SOUTH SIDE
FACADE DETILES
Top Header Insulation (Mineral wool) Wood board Gypsum Board Aluminium
Sloped angle for rain Air barrier Insulation
Wood board Gypsum Board
Thermal Break
The facade is attached onto the structure with a weld, in between the 2 concrete is an Insulation layer aswell as a thermal barrier layer so the building will avoid heat loss or gain. The horizantal slabs are tilted so the water slides down. The glass is incerted inbetween the wood panel then placed into the concrete panel.
Thermal Break
Glass
W
Wo o d Panels
S
Precast Panels
Concrete
N
W
S
E
ELEVATIONS H A R V A R D
H U B
MODELS F A C A D
- S T R U C T U R E
ONE STRUCTURAL BAY - FACADE
LANDSCAPE D E S I G N & S T R A T E G I E S
Main entry Exist
LANDSCAPE STRATEGY DIAGRAMS
Roads
Building footprint Pedestrian Path
Greens
Water
Topo
BUILDING FACADE RAIN GARDEN
PRODUCED BY AN AUTODESK STUDENT VERSION
RED OAK TREE VEGETATIONS
SMALL AMPHITHEATER
PINE OAK TREE
YELLOW-WOOD POST BUILDING STRUCTURE
POOL
PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
SWAMP WHITE OAK TREE
BEAM POOL RAIN GARDEN ECOSYSTEM
ROOF
TREES
THE SITE
GRASS
SUMMER
WINTER
Skygarden 1 Ec
AIM
FUTURE SCENARIO H A R V A R D
Funding is provided, and projection towards environment friendly buildings
Environmental Searching for new types of energy sources to reduce carbon emission Mass funding towards technology and development of new inventions
Technology 5 Years
Transportation
Population
1
Decrease human labor, increase robot reliance
SCENARIO
Public transportation isn’t the best when going to the site Located at Harvard, increase the importance of development site. Influx of people/ businesses/ money important Uber being the current form of transportation which causes so much tarffic The development of new technology will attract people with potential across the world
ENVIRONMENTAL & TECHNOLOGY DEVELOPMENT
The number of applicants in Harvard increases year by year By 2035 it is predicted that we will reach the point of no return
Environmental
environmentally Species change animals/ plants surrounding site predictable Technology will be developed, and will require a larger spaces for innovation
THE SITE
Technology 35 Years
Predictable Uncertain
Transportation
Important Unimportant
Technology developed will be implemented on the building
SCENARIO
Harvard develop a new transportation system to connect campus together and make moving form one building to another much faster. On a larger scale, transportation in and out of the site will be improved, creating better routs by relocating
LEARNING
2
The expectant world population will be 11.2 billion
Population
More people to educate, new fields to learn about Increase in people increase the demands “Development in surrounding area will rise” The use of 90% natural energy
Environmental
Government will force using renewable sources of energy Conserving energy will be a key, and “return to nature” will be a trend Harvard would be the leader in Technology
Technology 65 Years
3
It would need no spaces to build supporting infrastructure
SCENARIO
There will be traffic jams with the condensity of the city therefore self sustaining will save money, labor, and time.
SELF SUSTAIN
Transportation Creating social spaces, guest spaces, and agricultural areas The demand will increase as the infrastructure increases
Population Harvard needs to self sustain to support its people
HARVARD TECHNOLOGY & SUSTAINABILITY HUB
HARVARD EDUCATIONAL CENTER
Harvard robot lab The world is now projecting towards the generation of new technology, where it is constantly evolving and new opportunities and discoveries are being revealed. Mass funding starts funding towards technology, and the facility is part of the donation from Harvard to the technology field.
Ventilation Code
Floor to floor hight Structure
Includes: • Offices • Labs • Common areas • Testing facilities • Gallery/ Cafe • Retails
Education Center Since it is a learning community classes will be adapted to the building teaching students classes there, making the technology department shift elsewhere where they will be able to be accompanied by spaces divided into the phase in technology reached.
Sunlight
Landscape Facade Security
Ventilation Code
Sunlight
Structure
Includes: • Head offices • Labs • Common areas • Classrooms
Landscape Facade Security
Large ventilation in the labs Controled light enviroment Avarage hight: 16’-18’ . Double highted floors for some rooms Vibrations resistant buildings N/A If the laboratory has windows that open they must be fitted with insect screens. The laboratory shall have means of securing specifically regulated materials such as DEA Controlled Substances, CDC Select Agents and radioactive materials (i.e., lockable doors, lockable cabinets, etc.)
Separate ventilation sing for every classroom Sunlight is essential for classrooms as it has a physiological effect to student, performance. Labs don’t need much lighting Determined on classroom type N/A Landscape, accompanied for outdoor activity, classroom activities, and have social space for students to interact Facade won't change form original Security, campus security at entrance
Growing facility Harvard realizes the decline in natural resources
HARVARD HOUSING/
and decides to create a growing facility in which
AGRICULTURE CENTER
Includes:
Ventilation
it would supply the entire campus. Selfsustaing will help to reduce unnessisary trasnportation and also create an environmental friendly area. • Growing area ( indoor/ outdoor) • Kitchen
Code
Sunlight
Shared ventilation system between rooms, alternative ventilation system used in greenrooms. Maximum amount of sunlight in greenroom Floor to floor hight 10-18’
Structure
• Dispatch area
Landscape
• Dining halls • Residence
Facade Security
N/A Exterior landscape becomes part of the agriculture research On the exterior the green rooms become glasshouses Security, not necessary, just campus security
TECHNOLOGY & SUSTAINABILITY HUB H A R V A R -
H U B
SITE PLAN H A R V A R D
H U B
LANDSCAPE SOLIDERS FIELD RD
WESTERN AVE BRIDGE 4
1
WESTERN AVE
3
2
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
GRASS
RAIN GARDEN
POOL
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
TREE BIODIVERSITY DIAGRAM
SOLIDERS FIELD RD
4
TREES
1
2 P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
SMALL AMPHITHEATER
3
FUTURE SCENARIO L A N D S C A P E
25' PSDH PST5 PST4 PSEC PST3 PST2 PST1 PSQT PSON PSPN PSMC
120' 60'
60'
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH
PST5 PST4 PST3 PST2 PST1 PSDH PSEC PSQT PSON PSPN PSMC
60'
7' 7'
12'
19'
19' 7'
24'
24'
19'
3'
7'
12'
8'
17'
2'-8" 12'
24'
7'
19'
7'
7' 24'
19'
24'
8'
8'
2'-8" 32'
60'
24'
24'
8'
7'
24'
24'
8'
60'
24'
8'
17'
7' 24'
24'
32'
7' 60'
3'
32'
7'
2'-8"
32'
7'
8'
17'
7'
24'
7'
24'
19'
3' 2'-8"
24'
8'
17' 24'
19'
7'
19'
3'
8' 2'-8"
19'
7' 7'
12'
7'
12'
3' 17'
24'
7'
60'
24'
32'
7'
14'
24'
8'
14'
60'
24'
14'
14'
14'
HARVARD TECHNOLOGY & SUSTAINABILITY HUB
5 Years
HARVARD EDUCATIONAL CENTER
35 Years
HARVARD HOUSING/ AGRICULTURE CENTER
65 Years
19'
FLOOR PLANS H A R V A R D
H U B
Labs
SOCIAL
Store
Gallery
Bathrooms
FIXABLE AREA
OFFICE
RETAILS
1
Rooms with walls
KITCHEN CAFE TECHNOLOGY STORE GALLERY BICYCLE RACKS SITTING AREAS “OUTDOOR/ INDOOR
FIXABLE AREA
OFFICE
Open spaces
Stairs and elevators
CONFERENCE ROOM OPEN WORK SPACE PHONE ROOM OFFICES IT APPLICATION DEVELOPMENT
2
CONFERENCE ROOM OPEN WORK SPACE OFFICES RELAXING ZONE KITCHEN/ DINING
3
PRODUCED BY AN AUTODESK STUDENT VERSION
STORAGE
PRIVATE
2 SMALL LABS OFFICES CONFERENCE ROOMS REST LOUNGE
5
EMPLOYEES LOUNGE MEDIA ROOM GAMING ROOM “ACTIVITY ” OPEN WORKSPACE CONFERENCE ROOM
6
WORK
OFFICE
LABS
4
LABS AND MEDIA
OFFICE
STORAGE MECHANICAL ROOM
SMALL LIBRARY OFFICES
PRODUCED BY AN AUTODESK STUDENT VERSION
7
P
KITCHEN CAFE TECHNOLOGY STORE GALLERY BICYCLE RACKS SITTING AREAS “OUTDOOR/ INDOOR Floor Plan Scale:1/32”
RETAILS
1
Open spaces Store
Gallery Bathrooms
Clearance Stairs and elevators
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
ADA Radios
270' 44'-83 4"
3" 42'-232
1" 15'-34
31" 75'-132
30'-1115 32"
PSON PSDH PSMC PSPN PSEC PST4 PST5 PSQT PST1 PST2 PST3
3" 24'-1116
HAWMC HAWPN
HAWSN
HAWMC HAWPN
HAWSN
HAWMC HAWPN
HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
HAWPN HAWSN
HAWPN HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
12' PSEC PSON PSQT PSPN PSMC PSDH PST5 PST4 PST3 PST2 PST1
PSMC PSPN PSON PSQT PSEC PSDH PST1 PST2 PST3 PST4 PST5 PSMC PSPN PSON PST2 PST3 PSEC PST4 PSQT PST5 PSDH PST1
HAWMC
HAWMC HAWPN
HAWSN
HAWMC HAWPN
HAWSN
32'
HAWPN HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC HAWPN
HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC HAWPN
HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSEC PSON PSQT PSPN PSMC PSDH PST5 PST4 PST3 PST2 PST1
PSMC PSPN PSON PSQT PST1 PSEC PST2 PST4 PST3 PST5 PSDH
3' 17' 2'-8"
10'
PSMC PSPN PSON PSQT PSEC PSDH PST1 PST2 PST3 PST4 PST5 PSPN PSMC PSQT PSON PSEC PSDH PST1 PST2 PST3 PST4 PST5
PSMC PSPN PSON PSQT PSEC PSDH PST1 PST2 PST3 PST4 PST5
PSPN PSON PSMC PSQT PSEC PSDH PST1 PST2 PST3 PST4 PST5
14' 6'-7" 15'
9'
15'
15'
15'
15' 150'
15'
15'
41'
17'-55 8"
25' 2'
2
1" 45'-34
FIXABLE AREA
CONFERENCE ROOM OPEN WORK SPACE PHONE ROOM OFFICES IT APPLICATION DEVELOPMENT
floor plan scale: 1/32”
240' PST4 PST5 PSDH PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
47'-517 32" HAWMC
HAWMC
HAWPN HAWSN
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
HAWPN HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWSN
HAWPN HAWSN
HAWPN HAWSN
HAWMC HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PST4 PST5 PSDH PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWSN
HAWSN
HAWMC HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
HAWMC
HAWMC HAWPN
HAWPN HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
HAWPN HAWSN
HAWPN HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PST4 PST5 PSDH PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC PSMC PST4 PST5 PSDH PSPN PSON PSQT PST1 PST2 PST3 PSEC
1" 8'-82
OFFICE
9'-4"
25'
12'-2" 120' 1" 33'-632
9" 14'-416
64'
Open spaces Closed spaces Bathrooms Clearance Stairs and elevators ADA Radios
PRODUCED BY AN AUTODESK STUDENT VERSION
31 15'-815 16 " 22'-1132 "
16'-785 "
25'
64'
3" 46'-016
60'-1 41 " PPSM SSP D ET1 Q O T5 T4 T3 T2 N C H TC N
28'
240'
25'-387 "
PPSM SSP D ET1 Q O T5 T4 T3 T2 N C H TC N P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C H A WMC H A W PN H A W SN
H A WP WS N
H A WMC
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C H A WP WS N
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C H A WMC
H A WMC H A WP WS N
H A WMC
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
H A W SN
PPSM SSP D ET1 Q O T5 T4 T3 T2 N C H TC N
H A WMC W PN
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
H A W PN SN
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
H A WS N
H A W SN
H A WP WS N
H A W SN
17'
H A WMC
H A WMC W PN
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
2'-8"
PPSM SSP D ET1 Q O T5 T4 T3 T2 N C H TC N P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C H A WMC H A W PN SN
H A WS N
H A WMC WP N
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C H A WP WS N
H A WMC
H A WMC H A WP WS N
H A WMC
H A WMC W PN
H A WP WS N
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
H A WMC
H A W PN SN
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
H A WMC
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
H A W PN SN
PPSM SSP D ET1 Q O T5 T4 T3 T2 N C H TC N
28'
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
PPS SM SD OP T3 T2 T1 T5 T4 EH Q N C N T
PPSM SSP D ET1 Q O T5 T4 T3 T2 N C H P TCPSM N SSD OP T5 T4 T3 T2 T1 EH Q N C N T
H A WMC W PN
H A WMC WP N
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
H A W SN
H A WP WS N
H A W SN
H A WMC
H A WMC W PN
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
6'-7" 32'
15'
15'
120'
15'
15'
15'
15'
26'-11 41 " 30' 25'
3
2'
FIXABLE AREA CONFERENCE ROOM OPEN WORK SPACE OFFICES RELAXING ZONE KITCHEN/ DINING
025 32 "
45'-317 32 "
FLOOR PLAN SCALE:1/32” 34'-521 " P SM SP D T5 T4 T3 T2 T1 EN Q O C H TC N
PPSM SSP D ET1 Q O T5 T4 T3 T2 N C H TC N
44'-713 32 "
2'
P SM SP D T5 T4 T3 T2 T1 EN Q O C H TC N
P SM SP D T5 T4 T3 T2 T1 EN Q O C H TC N
25' 15'
H A WP WS N
H A WMC
H A WP WS N
H A WMC
H A WP WS N
H A WMC
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
H A WS N
H A WMC WP N
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
H A WS N
H A WMC WP N
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSO N PSQ T P S T1 P S T2 P S T3 PSE C
P SM SP D T5 T4 T3 T2 T1 EN Q O C H TC N
H A W SN
H A WMC W PN
H A W PN SN
H A WMC
H A W PN SN
H A WMC
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
H A W PN SN
H A WMC
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
H A W PN SN
H A WMC
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
P SM C PSPN PSON PSQT P S T1 P S T2 P S T3 PSE C
P SM SP D T5 T4 T3 T2 T1 EN Q O C H TC N
64'
OFFICE
90'
Open spaces Closed spaces Bathrooms Clearance Stairs and elevators ADA Radios
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
LOUNGE
210'
64'
PSMC PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSPN PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWPN HAWSN
HAWSN HAWPN
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWSN
HAWMC HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWPN HAWSN
HAWSN
HAWMC HAWPN
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSPN
9" 28'-416
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC
HAWMC
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWSN HAWPN
17'
HAWSN
HAWMC HAWPN
2'-8"
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWSN HAWPN
HAWSN
HAWMC HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
10'
HAWSN
HAWMC HAWPN HAWSN HAWPN
HAWMC
HAWMC HAWPN HAWSN
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
HAWSN HAWPN
HAWMC
HAWMC
HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWSN
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC HAWPN HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH
21" 29'-732
6'-7" 1" 26'-114 180' 25'
11" 24'-016
PSDH PSEC PSMC PSPN PSON PSQT PST3 PST4 PST5 PST2 PST1
PSDH PSEC PSMC PSPN PSON PSQT PST4 PST5 PST3 PST1 PST2
4
LABS AND MEDIA 2 SMALL LABS OFFICES CONFERENCE ROOMS REST LOUNGE FLOOR PLAN SCALE:1/32”
32'-3"
Labs Open spaces
64'
LABS
Closed spaces Bathrooms Clearance Stairs and elevators ADA Radios
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
LOUNGE
28'-1119 32"
29'-013 32"
6'-7" 10'
21'-11"
25'-213 32"
25'
Open spaces Closed spaces
PSMC PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSPN PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWPN HAWSN
HAWPN HAWSN
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWSN
HAWMC HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWPN HAWSN
HAWSN
HAWMC HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWPN HAWSN
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
PSMC PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC
HAWMC
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWSN HAWPN
17'
HAWSN
HAWMC HAWPN
3" 56'-016
2'-8"
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWMC HAWSN HAWPN
Bathrooms
60'
HAWSN
HAWMC HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC HAWSN
HAWMC HAWPN
HAWMC HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
Clearance
HAWSN
HAWMC HAWMC HAWMC
HAWMC HAWPN HAWSN
HAWPN
HAWSN HAWPN
HAWPN HAWSN
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWPN HAWSN
HAWSN HAWPN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
6'-7" 119'-919 32" 10' 5" 15'-1032 2' 25'-63 4"
60'
Stairs and elevators
15'
ADA Radios PSDH PSEC PSMC PSPN PSON PSQT PST3 PST4 PST5 PST2 PST1
16'
1" 120'-54
30' 18'-119 32"
15' 2'
28'-103 4"
10'
46'-023 32"
3" 26'-016 60'
11'-2"
120' 13 29'-032"6'-7" 10'
31" 45'-732
60' 10'
10'
SMALL LIBRARY OFFICES
1" 89'-108 6'-7"
11'-2"
10' HAWPN HAWMC
HAWSN
HAWPN HAWMC
HAWSN
HAWPN HAWMC
HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWPN HAWMC
HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWSN HAWPN
HAWMC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSPN
HAWMC
HAWPN HAWSN
HAWMC
HAWPN HAWSN
HAWMC HAWPN
HAWSN
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
HAWMC HAWPN
HAWSN
HAWMC HAWPN
7
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
PSMC PSON PSQT PST1 PST2 PST3 PSEC PST4 PST5 PSDH PSPN
HAWSN
3" 16'-18
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
6
7'
WORK
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
30'
15'-825 32"
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
MEDIA ROOM GAMING ROOM “ACTIVITY ” OPEN WORKSPACE CONFERENCE ROOM FLOOR PLAN SCALE: 1/32”
60'
OFFICE
EMPLOYEES LOUNGE
6'-7" 1" 9'-616
OFFICE
5
30' 1" 89'-108
PSMC PSPN PSON PSQT PST1 PST2 PST3 PSEC
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
64'
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
64'
PRIVATE STORAGE MECHANICAL ROOM
30'
ROOF
-
ROOF PLAN
+
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
8
ROOF FLOOR PLAN SCALE:1/32”
+
Stack ventilation ( section)
-
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
P R O D U C E PDRBOYDAUNC EADUPTR BOY OD
19 18
PRODUC ED B
16 15
14 13
12
11
3 2 1
PLAN VIEW- 15’ GRID
PRODUCED BY AN AUTODESK STUDENT VERSION
4
T U D E N T V E R SIO N
5
PLAN VIEW - 30’ GRID
E R SIO N T U D E N T V E R SIO N
T U D E N T V E R SIO N
6
FROST LINE 4’
32’
III OUTWASH 10’
PRODUCED BY AN AUTODESK STUDENT VERSION
7
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
8
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
9
PRODUCED BY AN AUTODESK STUDENT VERSION
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
P R O D U C E D B Y A N A U T O D E S K S T U D E N T V E R SIO N
17
10
FOUNDATION PLAN
A
SECTIONS H A R V A R D
H U B
SECTION Scale:1/32” PRODUCED BY AN AUTODESK STUDENT VERSION
PRODUCED BY AN AUTODESK STUDENT VERSION
32’
III OUTWASH 10’
Key Plan PRODUCED BY AN AUTODESK STUDENT VERSION
PROFILE B FOUNDATION I FILL 10’ II ORGANIC 10’ III OUTWASH 10’ IV-A MARINE 10’
FROST LINE 4’
PRODUCED BY AN AUTODESK STUDENT VERSION
II ORGANIC 10’ III OUTWASH 10’ IV-A MARINE 10’
4’
PRODUCED BY AN AUTODESK STUDENT VERSION
SECTION Scale:1/32”
Key Plan
PEELAWAY AXONOMETRIC H A R V A R -
H U B
PEEL-AWAY AXON
1.
Insulation Connection Wld 3" concrete topping reinforced with reinforcing bars bonds Double T beam 2ft depth
5.
Synthetic rubber bearing strip
Semi permeable pavers Matel Barrier bedding sand geotextile fabric aggregate base compact subgrade drainage
Steel welds connecting the facade to the structure, with Insulation inbetween.
3.
Thermal insulation Incert for window panel
Water Resistable Barrier
Water goes down the column to tank
2.
Protection Mat R -38 Insulation Drainage Filter Fabric Soil
4.
6.
Synthetic rubber bearing strip Continous Insulation Layer
Return Supply
-(0'".1#,
Water storage Soil Gravel Drainage
Lab Duct Wires Wood panels inulated from the interior
7.
8.
!"#$%&'$()*(+,(+%-#$'./(.-%$',
9.
Water purifier system
Water storage that pumps up to reflective pool
excess used for irrigation
Semi Permable edges which collects water The water goes down parrallel to the slope I FILL 10’
excess used for irrigation
II ORGANIC 10’
III OUTWASH 10’ IV-A MARINE 10’
1.
Steel angle welded to plates cast into precast tees and concrete wall support
WALL DETAIL
2. GLASS DETAIL
3" concrete topping reinforced with reinforcing bars bonds
Sage Glass - Tinted State
Double T beam 2ft depth
Inboard Llte (heat treated)
Coated Lite (annealed)
Synthetic rubber bearing strip
Support Lite (strengthened)
Insulation (Mineral wool) Sloped angle for rain Air barrier Insulation
Wood board Gypsum Board Aluminium Wood board Gypsum Board
Thermal Break
Thermal Break
Glass
3.
W o o d Panels
The facade is attached onto the structure with a weld, in between the 2 concrete is an Insulation layer aswell as a thermal barrier layer so the building will avoid heat loss or gain. The horizantal slabs are tilted so the water slides down. The glass is incerted inbetween the wood panel then placed into the concrete panel.
Interlayer low-e Coating Soil
Solar Heat
Top Header
Inboard Llte (heat treated)
Sunlight
Back Obscuration Band
Sealed Gas-filled Space
Surface 1 Surface 2 Surface 3 Surface 4
Surface 6 Surface 5
Precast Concrete Panels
4.
ORIENTATION DETAIL
ROOF GARDEN STORM WATER FLOW Soil Drainage Insulation Waterproof membrane Flat sat down drain Insulation
Metal barrier
The structure is oriented based on the sunlight and
Semi permeable pavers Bedding sand Geotextile fabric Aggregate base Compact subgrade Weld
N
S
Drainage Grass & Soil
The roof gardens are designed in a way where the water goes through the semi permable floors and down the drain to the generators where the water gets cleansed then stored and used for irrigation when needed.
E
W
Semi permeable flooring Drainage Pipe, directing stormwater In Plan
5. STRUCTURE DETAILS
6. RAIN GARDEN STORM
7.
9.
8.
SMALL RELECTIVE POOL
AIR FLOW
CIRCULATION
The semi- permeable edges of the small reflective pool collect the surrounding water since the landscape slopes down it directs water to the opening which they pass by then down to the tank
There are louvers are oriented in the wind direction so that the wind comes in. There is an operable skyroof which take in all the heat in the building and releases it in the top
As the levels rise, the number of people decreases while the privacy increases. The circulation of the landscape carries the same language as the interior.
WATER FLOW We used a post and beam structure along with double T beams which is then covered with cast in place concrete.
The rain garden collects water that goes to the soil then to the gravel blanket that cleans it then onto the drainage outlet.
From Charles River Park Accessibility Main Entrance From Ave From Side Entrance
Semi-permeable edge Splice bars welded to steel angles Steel bottom plate secured to column section with anchor bolts Drypack with nonshrink grout after columns are aligned and bolted Steel angle welded to plates cast into precast tees and concrete wall support 3" concrete topping reinforced with reinforcing bars bonds Double T beam 2ft depth Synthetic rubber bearing strip
MECHANICAL H A R V A R -
H U B
ZONE 5 GALLERY
ZONE 4 STORAGE ZONE 3 LAB ZONE 2 OFFICES ZONE 1 RETAIL
PRODUCED BY AN AUTODESK STUDENT VERSION
Mechanical Equipment
Lab VAV Equipment
SECTIONS PERSPECTIVE H A R V A R D H U
B
SYSTEM INTEGRATION SECTION TECHNOLOGY & SUSTAINABILITY HUB - SCENARIO 1
COMFORT TECHNOLOGY & SUSTAINABILITY HUB
The first scenario carries VAV system and lab ducts along with wires and plumbing system. EDUCATIONAL CENTER
-
Warm, less dense air
The second scenario Keeps the VAV system and where the lab ducts first were changes into speaker systems and more spaces is given for cables to support the educational systems.
Cooler, denser air
+
-
+
POWER SOURCE
Stack ventilation ( section)
win ter sun
Cooling capacity 1 00 tons (350 mcal/sec) Boilder room space chilled water space 850ft^2 Space for cooling towers 200ft^2
Storage Space
HOUSING / AGRICULTURE CENTER
The third scenario also keeps the VAV system and where speaker systems and more spaces is given for cables to support the educational systems changes and becomes kitchen plumbing system.
Energy converted form solar panels
Mechanical Room
Lowering roof and integrating mechanical ventelation system into the fins of the double T beams
Use solar panels as a Primary source of energy and use Natural gas a secondary source of energy.
3 The electric current flows to the inverts DC electricily to AC, the most commonly used from of electricity
4 The AC electricity flows from the inverter to the breaker box, witch direct the current to any appliance in the building that is using electricity
ENVELOPE TECHNOLOGY & SUSTAINABILITY HUB
4 sum su mer n
Using solar panels to support the building and excess energy is taken from the gas grid around. The windows are also Sage tinted which reduces the heat impact in the summer and saves energy.
Lab Waste
Lab Duct
EDUCATIONAL CENTER
Moving the solar panels and implementing them in the facade. Adding campus sports in the garden.
3
HOUSING / AGRICULTURE CENTER
2
Closing off the terrace areas and making it greenhouses. The exterior green area turns into a forest study area.
win ter su
Passive Solar gain from concrete floors
n
1
STRUCTURE TECHNOLOGY & SUSTAINABILITY HUB m er sum
Make the structure vibration resistant, for the future plan of extending transportation systems to the area.
sun
Speaker System
EDUCATIONAL CENTER
Make the structure able to adjust to additional floors.
Speaker System
HOUSING / AGRICULTURE CENTER
Make the structure able to adjust to additional floors supporting 4 floors which will create in 24 additional dorms.
GROUP 1 RETAIL SCENARIO 2 Requires a large amount of ventelation to air the area on hot days to ventilate the large open are. Also taking into consideration the large entry opening. GROUP B OFFICES (2) The main duct system runs EDUCATIONAL throught the hallway then CENTER win Summer SCENARIO 3 divides into the rooms which ter su n airs the area with a split units. GROUP C LABS Larger outlets coming from the ducts in the hallway. In which, inculde separate HOUSING/ AGRICULTURE ventilation system (dedicated to fume hoods. CENTER So additional duct. Kitchen Duct
Adding 4 Stories: = 24 dorms in every oor
Kitchen Duct
Winter
Kitchen Plubing
Kitchen Plubing
Speaker System
The Mechanical system changes and instead of the lab duct, a speaker system for the school is replaced with the same space. Insulated walls to block noise In the last senario, the speaker system is unintalled and a kitchen duct and plumbing system is installed in place. Kitchen Duct
Kicthen Plubing
domestic water heater
collection
domestic water
clean water
cleaning clean water storage
excces energy needed is taken from the city’s local supply of gas
How it works?
paired side-by-side ducts carry both heated and cooled air to each zone in the building. At each zone, the two airstreams are proportioned and mixed under thermostatic control to achieve the desired room temperature.
1 5
2
Electricity is supplied by the solar pannels and the rest is natural gass supplied from nearby outlets.
Mechanical Room
sunlight hits the solor panels nd generates an electric current (DC)
Return Supply
to be used for irragation on dry days
unused electricity flows through a unility meter into the grid. Elecriciy is drawn from the grid when the building needs more energy that is produced by the dolar panels.
KEY PLAN
RESEARCH
3500K
Linear LED
Neutral Glow sociable inviviting non-threening
Symbol
Name Manufacturer Wattage
Maintenance Features Size Mount Type Life:
Seem 6 Focal Point Lighting / Alcon Lighting 31 Watts 3000K, CRI>80,Dimmable driver (100%-10%),
PRODUCED BY AN AUTODESK STUDENT VERSION
Wattage per sq. ft
L-1
PRODUCED BY AN AUTODESK STUDENT VERSION
Tag
PSDH PSON PSMC PSEC PSQT PSPN PST4 PST5 PST1 PST2 PST3
LEDmodules and drivers are replaceable from below Emergency Backup Battery / Bluetooth
PSDH PSEC PSMC PSPN PSON PSQT PST4 PST5 PST1 PST2 PST3
W 4” x H 4” Length: 4’ or 8‘ Pendant 50,000 Hours L70
SEMPLICE | Track-Light
64'
210'
Symbol 9" 28'-416
Tag
T-1
Name
Semplice
Manufacturer
Archiprouduct
Wattage
230V
Wattage per sq. ft
2700K, 3000K e 4000K
Maintenance
LEDmodules
Features
Backup Battery /Bluetooth
Size
Flexible sizes
Mount Type
Track or ceiling-wall installation
Life:
50,000 Hours
Retails /Gallery
1" 26'-114 180'
Linear LED with acoustics
Direct and indirect pendant / Task light under the shelves
Track Lights
Hallway Linear LED
10'
6'-7"
Linear LED Labs
2'-8"
21" 29'-732
25'
11" 24'-016
PRODUCED BY AN AUTODESK STUDENT VERSION
Offices space
17'
3000K
“Soft White “ Glow Soft Warm Pleasing
Electrochromic Glass SMART GLASS From: SegeGlass Privacy Partition Switchable Film
COMFORT Reducing glare and heat while letting natural light in, Better thermal and visual comfort. OUTDOOR CONNECTION Without blinds or shades Energy & Efficiency Blocking over 90% of solar heat in cooling seasons, or just 60% in heating seasons, provides optimized energy efficiency all year. Cost Savings Savings can add up over a building’s life cycle, reducing overall energy loads by an average of 20% and peak energy demand by up to 26%
CLEAR
Automation & Integration All SageGlass products can be tinted and cleared using automatic settings or seamless integration with the existing building management system Mobile controls In addition to traditional wall switches, you can use our mobile app to fine-tune tint zones and save predefined scene settings for specific lighting effects from anywhere in the building—wherever and whenever you want. SIZES We offer rectangular panes as large as 6’ x 10’ Multiple glass makeups including both double and triple pane units.
Glass layer Self adhesive layer/ ITO conductive film Liquid crystal molecular Soft flexible transparent ITO conductive film Glass layer
TINTED