Tina binazir -BAC Portfolio segment 2 -Fall 2016

Architectural Portfolio

Tina Binazir Boston Architectural College Portfolio Segment II Fall 2016

Academic 2015 Spring

Architecture Studio 2 Instructors: Tracy K. Shriver, Sheri Fabian

Fall

Architecture Studio 3

Sustainable Systems 1

2016 Spring

Architecture Studio 4

Instructors: Jessica Hope Brown, , John Edward Cochran Instructors: Craig Souza, Caleb Burrington, Thomas Henry Sherman

Instructors: David L. Eccleston

Sustainable Systems 2 Instructors: Kyle Andrew Sturgeon

Fall

Representation Workshop: Visual Representation of Ideas

Practice 2015 PionArch, LLC 2016

Instructors: JunkoYamamoto

Residential Full House Design in Newburyport, MA Split Level Ranch House Design/ Energy Efficient Commercial Cafe Design for Non-Profit Organization in Woburn, MA Site Design for Non-Profit Organization in Woburn, MA

2015 Spring

Architecture Studio 2 Tracy K. Shriver, Sheri Fabian

The objective of the course was the exploration of tectonics, form and site through model making and mapping to create space.

EXCHANGE

PRODUCTION

FINAL

Through series of models, we explored the concept of production and exchange. In this phase of studio, We started to design two models for a place of exchange, and two more for a place of production with defining tectonic systems relating to the concept. Later on, we combined all the models into one model for a place of exchange and production. This became the concept of our design in the second part of the studio.

SITE ANALYSIS; BRIGHAM CIRCLE

The process behind the second part of this studio started with mapping exercises, and applying different mapping techniques to start creating diagrams that will allow us to find space that will respond to our concept. My approach was series of site sections showing views from site that are either blocked by building or topography of the neighborhood.

MID REVIEW

Between several proposed programs, I decided to design a laboratory. Based on my site analysis, view corridors play important roles in my design. I incorporated the views to Women Hospital and the park next to the site into my building. In the design, the physical interaction between public and private occupant is separated. However, the visual interaction is kept and enhanced by the circulation through the building.

FINAL

2015 Fall

Architecture Studio 3

Jessica Hope Brown, John Edward Cochran

The focus of the studio was the integration of landscape and buildings with systems while constantly thinking about industrial facilities and sea-level rising.

There's still time, but not a lot, to turn things around.

The process behind this studio started with analyzing the site and its topographic conditions. Besides that, we picked one industrial program between several proposed programs. We researched about the chosen program and created series of diagrams for it. I decided to design a fish processing building that is environmental friendly specially for fish ecosystem.

Through a fisheye

0%

-4%

-2%

0%

-12%

-20% -11%

-3%

-13% -15% -20%

3% 7%

-5%

2% -4% -10% -12%

4%

-10% -15%

4%

18% -4% -17%

5% 9%

5% 20%

4%

4%

-5%

12% 30%

5%

-25% -30%

10% 0% 10%

-20%

8% -25%

-5% 15%

-2% -15% -40% 15%

0%

20% 10%

-7%

-10%

20% -50% 10%

15%

3% 5%

-10% -5%

-7%

Shallow

Steep

0%

Elevation Profile 0%

0%

0%

Zero Level

CONCEPT Fish

People Machines

SITE ANALYSIS; CASTLE ISLAND

0%

PROGRAM ANALYSIS; FISH INDUSTRY

PRODUCTION/CAPTURE WILD CAPTURE

PREPARATION RAW SEAFOOD

PROCESSOR

CRUSTFREEZING CUTTING FREEZING/COOLING GLAZING

LOGISTICS PACKAGING STORAGE

COUNTER

DISTRIBUTION AQUACULTURE

RESTAURANT

DISCARD RESTAURANT

AQUAPONICES PRODUCTS FROM DISCARDS

RETAIL

CONSUMER

SALES

LARGE-SCALE BUYER

1 2 3 4 5 1

6 7

2

3

4 5

8

7

6

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SECTION A-A

SECTION B-B 1�=16’

1�=16’

1�=16’

The concept for landscape was create an interaction between fishes and visitors all around the site while trying to prevent the site from being flooded. As a result, I designer several canals and tidal pools and tried to place them strategically to achieve my concept.

5HVWURRP

A

MID REVIEW

My concept was designing a building that is environmental friendly. For this purpose, I decided to add an educational purpose to the building for the visitors of Castle Island. Besides that, I dedicated the big portion of the building footprint to a seafood restaurant. The concept for the restaurant was to use food wastes to feed the fish.

PROCESS

6 86

4 4 6 86

4

B

4 4

10 20

4

20

10 20

20

8 66 4 4

10

4

HP 20 10 10 0 -10

LP

A

10 LP

A

4 20

10

20

4 86 6

10

4

4 4

40

40

HP

N

4

20

B

24 18 20 22

20

30

24

20

18 12

18

20 22

18 18

12 18

24

20 20

20

22

22

20 24 18

12

20 20 18 24

18 12

12

6 24

6 6 16

18

6 40

FINAL

FINAL

UP

UP UP

LEVEL 1

B

1/8”=1’

DN

After several iterations for building and site, the final design was a cohesive language between both of them. I incorporated same elements of the designed landscape to the building and its griding system. I worked mostly in the sectional drawing for both building and the site as I found it most helpful comparing to plan and 3D models. I used magnifier effect and shape for the windows to create an experience for user to explore their surrounding through a fish-eye.

UP

A

A UP DN

LEVEL 2

B

1/8”=1’

DN

DN

DN

LEVEL 3

1/8”=1’

UP

DN

DN UP UP DN

PROCESS TRANSITION PACKAGING/STORAGE KITCHEN SERVICE AREA RESTAURANT OFFICES DIVING AREA

A-A

B-B

2015 Fall

Sustainable Systems 1

Thomas Henry Sherman

While using digital tools and information from books, readings, lectures and research, the course objective was to analyze a city’s weather to propose a small prototypical design. The course consisted in a series of understanding and demonstrating the way climate influences the city. From Energy Diagrams to using tools as Ecotec, Revit, Rhino, Climate Consultant and Diva, to get the most information as possible to understand climate the est as possible. The submittal was a series of boards that related the city to the project.

DESIGN with CLIMATE AW, Equatorial/Desert MANAGUA, Nicaragua / Central America Latitude / Longitude: 12.150 north, 86.170 west

Nicaragua, the Central American country with the most abundant water sources, and where water - “agua” in Spanish - is even part of its name, is suffering one of its worst water crises in half a century, fueled by climate change, deforestation and erosion. A fishing encampment as early as 6000 years ago, Managua has been an important trading center and regional capital for at least two millennia. Managua is generally hot and sultry. A fairly constant wind blows from nearby Lake Managua, notable for the same marine phenomena as Lake Nicaragua and flanked by the smoking volcano Momotombo.

N

N

330˙

30˙

315˙

45˙

300˙

8

16

pm

am

1st Jul 1st Aug

12pm

60˙ 1st June 1st May

1st Sep

W 80˙

1st Mar

10

70˙

1st Nov

1st Feb 1st Jan

60˙

1st Dec

50˙

240˙

20

120˙

40˙

E

W

E 1st Apr

1st Oct

30

588+

30˙

225˙

10˙

210˙

95o F

40

135˙

20˙

50 km/h

150˙

S

S

94o F

94o F

88o F

89o F

Average High Temperature

94o F 74o F

73o F

70o F

Warm

1

71o F

Cold

1

Jan

Average Low Temperature

2

61% Thunderstorms

Dec

6

2% Heavy rain

8 11% Moderate Rain 15 Winter

<58 hrs

Spring

14

14 Summer

16 Sep

2% Light rain

15

24% Drizzle Fall

Source: Climate Consultant Source: https://weatherspark.com/averages/32620/Managua-Nicaragua

SITE

1819

Founded by a pre-Columbian Fishing town

1852

Became capital of Nicaragua

Site description: The site is located in educational area of Managua, Nicaragua. It is surrounded by a university, and auditorium, and a parking lot. From North, there is a giant vacant land and Laguna de Tiscapa lake.

N

1876 Unknown

1000 to 2000

80

1885 1902

Damaged by the explosion of a military arsenal

1912

Civil War

1931

1950

107,444

Program breakdown

1968 4000 to 6000

130

1972 1979

Masaya Volcano National Park established near city Nicaragua Civil War Contra War

1998 2005

985,143

2009

937,489

2012

102,880,8

2014

Educational

Circulation

N

MAX DAYLIGHT MIN RADIATION By designing skylights and courtyards

78

78 June

June

-55

-55

December

December 35

-25

35

-25

School timeline in Managua8 am. to 12 pm.

MIN WIND FLOW FROM EAST By Placing the building in between buildings, designing screens for windows, and manipulating the wind flow though the interior and exterior building which can help manage humidity

WATER SAVING FOR DRY SEASON

E

E

SITE

Site sections / solar angles

Rooftop as water collectors for the rainwater reuse system

EARTHQUAKE RESISTENT STRUCTURE Base isolator (shake isolator, absorb tremors of earthquake) School timeline in Managua8 am. to 12 pm.

1.

RECTANGULAR

Summer

View 2

View 1

2.

Winter

Winter

View 2

View 1

View 1

View 2

RECTANGULAR - COURTYARD - STACKED

Summer

View 1

View 2

RECTANGULAR - COURTYARD

Summer

3.

View 1

Winter

View 2

View 1

View 2

4.

RECTANGULAR - COURTYARD - STACKED - ROTATE

View 1

View 2

Winter

Summer

5.

View 2

RECTANGULAR - COURTYARD - STACKED - SLANT ROOF

Summer

View 1

View 1

Winter

View 2

View 1

25o

View 2

Final perspective Radiation map View 2

Perspective / axon - test classroom View 2

The result of testing different versions of classrooms, depends on their window location, was that interior windows can control the radiation better than east and west exterior windows. The needed daylit for a class can be provided through the roof . I also believe that changing the function of each rooms can help for a more functional building.

N

N

Diagrammatic plans and sections 78 June -55 December 35

-25

School timeline in Managua8 am. to 12 pm.

50% Daylit

=At least 50% values on Nodes Mean Daylight Factor =34.12 % 100% of Area between 0 & 56 0% of Area > 56 %; 0% of Area < 0 %

E

2016 Spring Architecture Studio 4 David L. Eccleston

Through the exploration of conceptual models without knowing the program and site,the focus of this studio was to apply features of all those explorations to design an industrial museum, joining climate, structure and systems.

In first half of the semester, we created several conceptual models. These models were made without knowing the program and the site. We were assigned each one paragraphs explaining one object. My assigned paragraph was about mirrors in a abstract way. Mirror was related with lies, reflection of truth and time. I had four words describing mirror; myth, reflection, lie, and distortion. I created 4 models for each word, then started to combine them and create several models from all the combinations. Later on, all these practices subconsciously influenced my design

The Museum of Abandoned Infrastructure Zoning District Waterfront Commercial Occupancy Classification Assembly (A-3): Social, recreational, entertainment, and civic gathering of 50 or more persons Height Restrictions/Construction Type Type II-A (Unsprinkled) Approximate sq ft. per floor 15,000 sq ft. per floor/3stores Latitude and Longitude Values 42°22’23.4”N 71°02’28.1”W Contextual environmental factors Cfa: Temperate-Without Dry Season-Hot Summer Through several site analysis, I decided to incorporate three directions into my design; one from Decatur Street, and other two toward two important bridges. From the begining of the studio, designing a bold entrance for my musuem was very important to me. For that purpose, I decided to locate that entrance in front of Decatur street which would create a virstual tunnel that invites passerbys into the musuem. The location for entrance was one of the main challenges because some could argue that it blocks the view to the water. I did several iteration and finally was able to solve that through choice of material, facade and site design.

PROCESS

SITE ANALYSIS; 80 BORDER STREET

I designed a museum of abandoned infrastructure. In the museum, they exhibit infrastructure pieces that are broken and abandoned but they are still telling stories that worth hearing, like a broken mirror.

le og Go

LO

BB Y

ps Ma

The proposed museum is about abandoned industrial sites and buildings. Time has a very important rule in this design. Time is structure of human mind to develop technology and industry. By abandoning industrial sites, Human will walk away from past to present without taking anything with themselves. In this museum, moments in history of industry will be captured which will enhance public understanding of abandoned industrial sites. This will be reflection of time in industry.

LO

BB Y

AUDITORIUM

MID REVIEW

CAFE

ADMINISTRATION GIFTS

TEMPORARY EXHIBITION

Section A-A

First Floor Plan

PER

MA N

EN

TE XH IBIT IO

N

Section B-B

EXHIBIT WORKSHOP

RESEARCH

Second Floor Plan

Section C-C

N

H

G

F

E

- '2 2 "0

C

PU

D

C AO CT 1 EH 23 KC FS IT KC ITE 031 GN FS LE VES 16 F

C

UA TID 1 IRO 433 MU FS

PU

J

B

PU

"11

LE VES 06 F

A

R SE RT 1 OO 69 SM FS

C AO CT 2 EH 20 KC FS

5

- '8

IT KC ITE 012 GN FS

R SE RT 1 OO 89 SM FS

E IHX TIB OW 01 KR 79 HS FS PO

EM HC INA AC E/L EL OR TC MO 05 0 CIR FS LA

1

2

3 5.3 4

0" '38

5

6

C

ME CHA NIC AL ROO /ELECT 537 M RIC SF AL

RES 1833EAR SF CH

A

GIF T 1003 SHO SF P

B

WO SF RKS HO P 1097

EXH IBIT

RES TRO 198 SF OM S

RES TRO 198 SF OM S

RES TRO 198 SF OM S

A

RES TRO 196 OM SF S

RES TRO 196 OM SF S

ECK TCHSF COA 202

RES TRO 196 OM SF S

V SF ELE 61

V SF ELE 61

DN

G ETIN SF TICK210

V SF ELE 61

B

UP

DN

UP

Second Floor Plan

Section C

HIGH TIDE +12

LOW TIDE -2

Section A-A

Section B-B

407

OFF ICE SF

SHA RED

STO RAG 89 E SF

LOU NG E

SF

CHE SF N

OFF 157 ICE

520

CON FER ENC 205 E SF ROO M

DN

KIT

UP

UP

AUD ITO 1334 RIU SF M

V SF ELE 61

V SF ELE 61

V SF ELE 61

ECK TCH SF COA132

CAF E/R EST 520 AUR SF ANT

G ETINSF TICK 130

DN

UP

C

FINAL First Floor Plan Third Floor Plan

HIGH TIDE +12

LOW TIDE -2

LIGHTWEIGHT CONCRETE PLANK CHANNEL FOR WATER NEOPRENE GASKET ROOFING MEMBRANE RIGID INSULATION STRUCTURAL CONCRETE

6

LIGHTWEIGHT CONCRETE PLANK NEOPRENE GASKET SCALENE NOTCH ROOFING MEMBRANE

E

RIGID INSULATION STRUCTURAL CONCRETE

CEILING

E

GLAZING

CONCRETE FINISH

WAFFLE STRUCTURE FLOOR SLAB

8

HEATING PIPES

7

PLASTIC FOAM INSULATION

CONCRETE SLAB

RIGID INSULATION

CONTINUOUS FOOTING

9

4

5

PILE CAP GEO-FABRIC WRAP

4' - 0"

3/4" STONE SURROUND

4" DRAIN PIPE

PILES AT GRID INTERVAL

1

6 2

3

1. Influent water 2. Primary Tank 3. Equalization tank 4. Stage 1 5. stage2 6. Effluent Water 7. Rain Water 8. Wind From West 9. Radiant Heating Pipes

2016 Spring

Sustainable Systems 2

Kyle Andrew Sturgeon

The objective of this studio was to apply the knowledges acquired in Acoustics, Lighting and Systems into projects we had worked before on professional practice or studio. The course invovled applying calculations and drawings to show our ideas.

Light Study Concept statement UP

UP UP

LEVEL 1

B

1/8”=1’

DN

UP

A

A UP DN

LEVEL 2

B

1/8”=1’

DN

DN

DN

LEVEL 3

1/8”=1’

The chosen project is a fish industry building which includes an dining area. This area is located underwater and has large windows in four sides and one skylight. Restaurant lighting can add or detract from the overall experience while dining, and can create a luminous environment. Adequate lighting provide form and function. Based on the function, the restaurant need to create mood and pleasant atmosphere which can be achieved by “Low Load Degree of Stimulation” and “High Contrast”. Dark colored finishes will help with creating “High Load Lighting Environment” for our space. Economically and Environmentally, the projects needs efficient heating and air conditioning system. It has to reinforce activity and the design concept as well. The main concern in this project is water reflection and light transformation through water in seating and dining area. Specific area that I will focus on this projects is each units which has one dining table in them.

A.

B.

JUNO LIGHTING RECESSED CAN Manufacturer: Juno Lighting Location: Dining Unit

OCL GLOWSTICK PENDANT Manufacturer: OCL architectural lighting Location: Dining Unit

Lighting Fixture Legend Symbol

A B

Volt

Lumens

CCT

Description/Mounting

Manufacturer

Catalog Number

120V

1300lm

2700

Ceiling, Recessed Can

Incandescent

Lamps

Juno Lighting

L6-13271-G3-LDI

120V

1300lm

2700

Ceiling, Pendant

D50

OCL

GS1-P1CA-24-CR-WPT-1LD9/27K-120-44

Night

Night

Day

Day

Acoustic Study

New Floor Plan:

New Ceiling Plan:

LIMIT OF WORK

Project Description

SOFFIT

SOFFIT

CG

CG

EXIT

EX

In acoustical design, it is very important to know who your client is as well as knowing who the user is which will help in the noise expectations. The chosen project is a cafe for a nonprofit organization named Nupath. Nupath Inc. has been a leader in the human services arena for more than 40 years, providing a network of creative day services and residential options for people living with developmental disabilities, autism spectrum disorders and acquired brain injury. By saying that, it is evident that the users are very sensitive to sound. Loud noises can make them nervous and anxious. In the other hand, sometimes they themselves are loud. The cafe is located in the center of the building. The existing cafe is suffering from a lot of noises during lunch breaks which are three times a day for different group of individuals.

C

C

CG

C

C

CG

CAFE

1173 SQ. FT.

EX

EX

EX

CAFE C

A

A

C

C

C

EX GWB on Mtl. Stud A.F.F. 7' - 7"

EX

A

A

C

C

EX

EX

C

A

EX

EX

C

A

2' x 4' ACT System SMOOTH A.F.F. 7' - 11" CG CG

C CG

CG

B

CG

SELF-SERVICE

2' x 4' ACT System SMOOTH A.F.F. 7' - 11"

C

CG

EXIT

KITCHEN

EX

SELF-SERVICE

A

CG

B

A

EX

EX

FUR7

KITCHEN

C

EX

N.I.S

EX EXIT

B

A

EX

C

EX

C

B

C

A

EX

CG

F.E.C.

CG

GWB on Mtl. Stud A.F.F. 7' - 7"

A

EX

D

EX

D

D

D

CG

CG

N.I.S

CG

N.I.S

CG

CG CG

CEILING LIGHT RECESSED

2X4 ACOUSTIC CEILING TILES

CEILING LIGHT FIXTURES

SPRINKLER

4"

4" 6 3/4"

CG

N.I.S

GAP BETWEEN CEILING AND FLOOR ABOVE

WOOD ACOUTICAL WALL PANELS

18"

18"

PENDANT LIGHTING FIXTURE

A2.3

TYP. SECTION - ADA BAS 1 1/2" = 1'-0"

www.armstrong.com/RTC

ACOUSTICAL CEILING PANEL 2 1/2" MTL. STUDS TO DECK 1/2" GWB

Reverberation Time Calculation Result Summary *:

EXISTING CLG SEE CEILING PLAN

Building Space & Description: Healthcare / Treatment Room 1113.0 sf Height 7.5 ft Volume 8347.5 cf

1 1/2" SUSPENDED DRYWALL GRID COORDINATE FRAMING WITH PLACEMENT OF NEW LIGHT FIXTURE LOCATIONS

Project name & address: Nupath, WoburnMA ­ Renovation project

Reverberation time graph:

Legend:

F. CLG SOFFIT 1/2" GWB PAINTED AND SEALED

With Treatment:

USG ZINC CORNER BEAD

15

GWB SOFFIT TRANSITION DETAIL 3" = 1'-0"

UNDERSIDE OF SLAB / DECK METAL CLIP ANGLE SECURE TO STRUCTURE ABOVE TYP.

GALV. METAL HANGER WIRE TAPE & SPACKLE INTERIOR 90 DEGREE CORNERS

C.H. AS PER RCP SEE ELEVATIONS FOR SPLASHES AT SPECIFIC LOCATIONS 1/2" SOLID SURFACING ON 3/4" MDF OR PLYWOOD COUNTERTOP

3/8" RADIUS EDGE1 1/2" SUSPENDED DRYWALL GRID SYSTEM (ARMSTRONG)

2'-1" 1 1/2"

1/2" GYPSUM BOARD

0"

6"

ACT AS SCHEDULED

G.W.B.

Frequency: Recommended RT: Existing RT of the space: RT with selected treatment: RT reduction with treatment (%): Space Predominant Mat. surfaces

125 0.32 0.32 sf

250 0.36 0.35

500 0.3­0.7 0.42 0.39 7.0%

1000 0.3­0.7 0.34 0.31 9.0%

Other

Wall 1

Drywall (1/2'' or 5/8'')

277.5 Door, wooden solid core, 21.0

Wall 2

Drywall (1/2'' or 5/8'')

217.5

Wall 3

Drywall (1/2'' or 5/8'')

292.5 Door, wooden solid core, 21.0

Wall 4 Wall 5

Drywall (1/2'' or 5/8'') Drywall (1/2'' or 5/8'')

­no­

221.25 Door, wooden solid core, 42.0 172.5 ­no­ Seats, unoccupied, 6 Linoleum on concrete 1113.0 upholstered, 333.9 A-1.0 Generic ceiling , NRC = 0.85 1113.0 Light fixtures/air grills, 445.2 Students in desks 40 (teen/adult) Chairs, unoccupied, wooden 30 or metal

Floor Ceiling Optional object: Optional object:

3/8"

This is a complete renovation project. An open kitchen has been 1" designed 5for the newDETAIL cafe which a challenge TYPICAL AT GWB is HUNG CEILING for sound management A-1.0 1 1/2" = 1'-0" because of all the kitchen equipment in use within the space. However, most of the finishes specified for this project are hard surfaces like marmoleum tiles for flooring, acoustical tiles for ceiling which both have good sound-absorption qualities. Another challenge for sound management can be the finishes for banquettes which is vinyl. With assuming that the adjacent space is residential, the café demands an acoustical signature that is controlled but 3 5/8" 25 GA. MTL.never FRAMING lifeless. Our concerns are specifying finishes for the walls, doors, windows, ceiling and floor to be able to isolate sound from the adjacent residence during MOULD. the lunch time that cafe has its full REVEAL occupancy.

The reverb time meets the recommendation but may be too low for some education spaces.

SOFFIT CEILIN 7' - 1 1/4"

MAX. 4' - 0" O.C.

The reverb time meets the recommendation.

TILE TO CARPET 1:1

A2.3

PARTITION - REFER TO PLAN

Without Treatment:

2 1/2", 25 GAUGE METAL CONTINUOUS STUD TRACK

17

Recommended RT:

SEE CEILING PLAN

A2.3

Date: March 11, 2016

2000 0.3­0.7 0.32 0.29 9.0%

4000 0.32 0.3

Treatment Soundsoak 60 Wall Panels, 76.95 ­no­ Soundsoak 60 Wall Panels, 81.45 ­no­ ­no­ ­no­ ­no­

EXISTING ELEVATOR

*The calculated RT's are representative of the simplified dimensions and materials (types and sizes) that you have provided. Although the measured sound absorptive properties of the products and materials used in this software are based on standard ASTM measurement methods, the calculated RT's are also dependant on some assumptions about the characteristics of the sound field within the space. Since detailed architectural specifications are not being used, it can be expected that your actual experience may differ from these calculations based on 'as built' differences.

Systems Study In the final part of the class, we had to integrate building systems to our design project. I used the Arch 4 studio that I was taking simultaneously with this course. By analyzing climate data, and proposing 3 design objectives from the Green Living Building Challenge we focused on accomplishing and getting information to support those goals for the design. Also we incorporated structural systems, mechanical, heating and ventilation as well as water recycling and Paths of Egress.

Prevailing Winds

N OR T H

W ind Fre q ue nc y (H rs )

345°

Location: Boston, USA (42.3°, -71.1°)

50 km/ h

hrs

15°

Date: 1st January - 31st December Time: 00:00 - 24:00

225+

© W e a th e r T o o l

330°

30°

202 180

40 km/ h

157 315°

45°

135 112

30 km/ h

The Museum of Abandoned Infrastructure

90 300°

60°

67 45

20 km/ h

<22

285°

75°

10 km/ h

W EST

EAST

255°

105°

240°

Project Sustainable Goals

120°

225°

135°

210°

150°

195°

165° SOU T H

• • •

Net Positive Water Healthy Interior Environment Universal access to nature and place

Water Collection Total Roof Area: 24,000 sq.ft Average Annual Precipitation: 43.76 inches Flow Rate: 24 sq.ft *(4/3.35) = 28.7 sq.ft 24,000 sq.ft / 28.7 = 836.24 gal/min Water Pressure Highest Plumbing Fixture: 38 ft. Required Pressure: 0.433*38 = 16.45 PSI

Occupancy Classification Assembly (A-3): Social, recreational, entertainment, and civic gathering of 50 or more persons Height Restrictions/Construction Type Type II-A (Unsprinkled) Approximate sq ft. per floor 12,000 sq ft. per floor/3 floors Latitude and Longitude Values 42°22’23.4”N 71°02’28.1”W Contextual Environmental Factors Cfa: Temperate-Without Dry Season-Hot Summer

Conductance Calculation

Total Wall Area: 150 ft * 45 ft = 6,750 sq.ft Total Solid Wall Area: 141 ft *45 ft = 6,350 sq.ft Total Curtain Area: 9 ft *45 ft = 405 sq.ft

Solid Wall R-Value: Poured Concrete: 0.08 Rigid Fiberglass Insulation: 4.00 Curtain Wall R-Value: Double Insulating Glass: 4.07

Q= U * A * ΔT Solid Wall: Q= 12.75* 6,350* (70-30) =3,238,000 Curtain Wall: Q=0.25*405*(70-30) = 4,050

ELEV. 61 SF

A DN

OFFICE 157 SF

Room 60 SF

LOUNGE

STORAGE 89 SF

CONFERENCE ROOM 205 SF

SHARED OFFICE 407 SF

RESERACH 1833 SF

Level 3

A

N

E

D

H

G

F 22' -

0"

C

UP

C K EC CH SF AT 2 CO 13

G

TIN KE 0 SF TIC 13

B

'58

A

EV EL SF 61

" 11 UM RI TO SF DI 34 AU 13

UP

UP

EV EL SF 60

G TIN KE 0 SF TIC 21

S OM RO SF ST 6 RE 19

K EC CHSF AT 2 CO 20

S OM RO SF ST 8 RE 19

OP SH RK WO SF T 97 BI 10 HI EX

AL IC TR EC /EL AL OM IC RO 0 SF AN 50 CH ME

1 2

5 3.

5

0"

4 '38

3

6

Site Plan

J

6

LIGHTWEIGHT CONCRETE PLANK CHANNEL FOR WATER NEOPRENE GASKET

LIGHTWEIGHT CONCRETE PLANK

ROOFING MEMBRANE

CEILING BEYOND

RIGID INSULATION

B

STRUCTURAL CONCRETE

4’ STRUCTURAL CONCRETE

Section B-B B

6 LIGHTWEIGHT CONCRETE PLANK

CEILING BEYOND

B 4’ STRUCTURAL CONCRETE GLAZING

B

CONCRETE FINISH

WAFFLE STRUCTURE FLOOR SLAB

HEATING PIPES

8 GLAZING PLASTIC FOAM INSULATION

7 CONCRETE SLAB

CONTINOUS FOOTING

CONCRETE FINISH

9

HEATING PIPES

1 PILE CAP

4' - 0"

Section A-A

4" DRAIN PIPE

PILES AT GRID INTERVAL

6 2

WAFFLE STRUCTURE FLOOR SLAB

3

PLASTIC FOAM INSULATION

GEO-FABRIC WRAP 3/4" STONE SURROND

4

5

CONCRETE SLAB

1. Influent water 2. Primary Tank 3. equalization tank 4. stage 1 RIGID INSULATION 5. stage2 6.FOOTING Effluent Water CONTINOUS 7. Rain Water PILE CAP 8. Wind From West GEO-FABRIC WRAP 9. Radiant Heating Pipes 3/4" STONE SURROND

4' - 0"

RIGID INSULATION

4" DRAIN PIPE

PILES AT GRID INTERVAL

2016 Fall

Representation Workshop Visual Representation of Ideas JunkoYamamoto

In this course, we discussed the effect of visual presentations used in design field through several exercises and lectures. We used both manual and digital tools to represent our ideas for three different projects; Carpenter Center by Le Corbusier, MIT Chapel by Eero Saarinen, and one of our own design projects.

One of our assignments was creating an image that represents the atmosphere of the MIT Chapel. I am amazed with the atmosphere of MIT chapel which was created with the combination of material, texture. I count lighting as one of the material in this design. In the image that I created, I wanted to emphasize on atmosphere and how a user will feel separated from outside. I used one of the picture that took. In that picture, there is small portion of outside and a big portion of inside. However, there is dark gap in between. I photoshoped the image to exaggerate the darkness as a barrier between outside and inside. The atmosphere of MIT chapel is very spiritual which amazed me considering how simple the design is. There are so many elements and features that creates this atmosphere. The simplicity of this combination makes the user to have a spiritual experience and be focused on certain elements which I tried to emphasize on them with my image.

PROCESS

Another assignment was about creating an image to represent our big Idea for one of our projects. I created this drawing with the use of my conceptual drawing for the Musuesm of Abandoned Infrastructed that I designed for Arch 4 Studio. I tried to show how the idea of mirror, reflection, and being broken but still beautiful drove my design. “Exhibit the past that still lives in present� was my big idea for this project. In this image, I tried to show how this building works like broken mirror with breaking an image into pieces and overlaying it with pieces of glass. The image was taken by me in my first site visit; a broken peice of an industrial machine.

PionArch, LLC

2015 Practice

Designer

Professional Project Work Residential Full House Design in Newburyport, MA Split Level Ranch House Design/ Energy Efficient Commercial Cafe Design for Non-Profit Organization in Woburn, MA Site Design for Non-Profit Organization in Woburn, MA

Full House Design in Newburyport, MA Pionarch,LLC Residential Drafting, Rendering, Specifying finishes The project below was put together for the contractor to build from advertisement to attract potential customers. We created photo realistic images to show how the place will look after construction is completed. All the finishes and colors were carefully selected with a modern spin on traditional elements.

KITCHEN 193 SF

GFI

CL

9 SF

BATHROOM 57 SF

BATHROOM

W/D

BEDROOM 159 SF

MASTER SUITE

DINING ROOM 163 SF

TV

CL

POWDER RM

CL

12 SF

13 SF

33 SF

HALLWAY 117 SF

TV GFI

TV

WARDROBES

CL. 7 SF

62 SF

BEDROOM 202 SF

SUNROOM 100 SF

UP

LIVING ROOM 218 SF

ENTRY 103 SF

UP

OFFICE 66 SF

3 3/8"

F47968

3/4" 2X4 FRAMING TO MATCH EXISTING

7"

3 1/2"

COVE LIGHT

1X5 WOOD TRIM TO FIT F18050

1'-1 7/8" F44980 4 1/8"

F44980

1X3 WOOD TRIMTO FIT

5 1/2"

1/2" PLYWOOD

3 3/4"

1X4 WOOD TRIM TO FIT

F44980 1X5 WOOD TRIM TO FIT 8" F18310 1X5 WOOD TRIM F18310

Split Level Ranch Energy Efficient House in Hamilton, MA Pionarch,LLC Residential Designing, Drafting, Rendering Designed to accommodate the idea of a simple floor plan of a split level ranch house to create a modern energy efficient building by the use of modern energy efficient materials which includes KlipTech Eco Clad (http://www. kliptech.com/) for exterior faรงade, windows by Schuco European Architectural Supply (http://www.eas-usa. com/), and etc. The placement of exterior elements and windows links the exterior of the house to the interior and creates a flattering and dynamic faรงade. The metal roof structure provides the opportunity of creating open framing and a high wide roof with low maintenance with energy efficiency in mind. The roof gives a modern look to the building with a form language that wraps around the building and connects the two split elements visually. The semi-glazed, modern entry door with a small acrylic overhang invites the visitor in, however it opens up to the first floor stairs, which will provide some privacy for the household. The first floor plan opens up to above in the kitchen and dining area. The layout features a semi-private living room on the first floor, and master bedroom which creates a pleasing open floor plan and channels natural light through the whole home with the use of large windows. A large balcony at the back of the building co-responds with the idea of openness and the invitingness of the first floor plan. The roof over-hang above the balcony creates enough shading and shelter from the rain, but also prevents the building from excessive heat gain in the summer. Second floor consists of three bedrooms with a focal siting area which is perfect for gathering. A guest room with a private entrance at the back of the building is located on the basement level. Beside it, sits the mudroom with a washer and dryer space that provides function to the entire layout of the home.

Cafe Design for Non-Profit Organization in Woburn, MA Pionarch,LLC Commercial Designing, Drafting, Rendering, Specifying finishes The design goal for the cafe was to bring outdoor in through elements from nature. The proposed design divides the space according to seasonal changes in nature. The layout includes (1) selfservice area, (2) cooking class area with kitchen, (3) dropoff area and (4) sitting area. DESIGN SOLUTIONS • Creating better circulation and seating configurations • Enclosing the Self Serve Area and Studio for Cooking ,Occupational Therapy and Teaching • Enhancing a more positive experience within the space. • Incorporating a way to display food. • Attracting Clients through the design ideas.

5 A-500 2'-6"

2'-0 1/8"

2'-6"

1'-6"

2'-5 7/8"

Sim

SOFFIT

2'-0"

1'-3"

2'-6"

2'-0"

1'-6"

2'-6"

2'-6"

TOP OFALC

6 A-500

1 A-201

CAFE/KITCHEN ELEVATION 2 3/8" = 1'-0"

2'-6" 1'-6" Sim ADA SINK ENCLOSURE

2'-0"

2'-10"

2'-10"

2'-10 1/2"

5'-8 1/8"

2'-6"

1'-5"

1'-3"

7

2'-6 1/8"

2'-0" 1 A-500

FIRST LOB 2'-0 1/8"

Sim

PANEL

1'-3"

2'-6"

2'-0"

1'-6"

ADA SINK ENCLOSURE

3 A-500

Sim

TOP O

Site Design for Non-Profit Organization in Woburn, MA Pionarch,LLC Commercial Designing, Drafting, Rendering The goal of this project was to gather appropriate subcontractors to redesign the layout of the site including reconfiguration of parking spaces and recirculation of traffic. To be able to create pleasant, restful area for the staff and the clients the project had to be going though variances to comply with local and building codes as well as ADA code. This was achieved through a combination of structures, curving paths, and foliage.

NuPath Site Design EXPENSES

BUDGETED AMOUNT N/A

$120,000.00 $100,000.00 $80,000.00 $60,000.00 $40,000.00 $20,000.00 $0.00

TOTAL COSTS $182,288.50 DIFFERENCE #VALUE!

#

Expense

Manufacturer

Description

1

Trex Pergola

Trex

22' x 12'

2 $17,099.00

2

Outdoor Storage Box

Bay Isle Home

Ellsberg Teak-23.62" x 49.6" W x 20.47" D

2

$234.00

$468.00

3 4 5 6 7 8 9

Patio Bench/ Pinnacle Teak Garden Planters Circle Swing Porch Swing Boulders Outdoor Scrabble Pavers for Scrabble

Allegro Classics DeepStreem Designs Iwona Kosicka

76" Teak and Stainless Steel Bench 42" Long 18" Wide wood Planters Solid wood circle swing

Local Landscape Co. Craft Cuts Lowes

Sizes and Colors Range - Rounded Boulders 5" Large Wood Scrabble Pieces 6" x 6" Pavers

14 5 4 2 10 1 225

$842.00 $1,000.00 $900.00 $250.00 $300.00 $550.00 $0.82

$11,788.00 $5,000.00 $3,600.00 $500.00 $3,000.00 $550.00 $184.50

Triple Basalt Fountain

39" High, 3 Piece Basalt Fountain

1

$2,000.00

Target

Bryant Faux Wood Patio Picnic Table

5 5

$200.00 $3,900.00 $3,700.00

$2,000.00 $15,000.00 $1,000.00 $19,500.00 $18,500.00 $77,288.50

10 Modern Fountain 11 Fencing 12 Picnic Table With Umbrella Urban Shelter

Quantity

The difference

Cost

Total

$34,198.00

Landscape #

Expense

1 2 3 4 5

Umbriano Walkway Paver Artline Paver Plantings Lighting Irrigation

Manufacturer

Description

in all specialty areas Labor and Material 12 V Planting and Lawn

Quantity

Cost

10000 1400

Total

$28,000.00 $34,000.00 $29,000.00 $8,000.00 $6,000.00 $105,000.00

25

Total

$182,288.50