Portfolio Works - 2020

ARLEN STAWASZ PORTFOLIO WORKS 2020

“Test ideas by experiment and observation. Build on those ideas that pass the test, reject the ones that fail, follow the evidence wherever it leads, and question everything. Accept these terms, and the cosmos is yours.� Neil Degrasse Tyson

ARCHITECTURE / PROJECT DELIVERY URBAN DESIGN / RESILIENCE PLANNING LEADERSHIP / PUBLIC SERVICE ACADEMIA / RESEARCH / FACULTY PERSONAL / DESIGN THINKING

ARCHITECTURE Editas Medicine Cambridge, MA, USA 60,000 SF 7 Structurally Independent Buildings into 1 My role on this project served as the project architect for the cuttingedge biotech firm Editas - which made breakthroughs in its treatment of genetic abnormalities utilizing CRISPR-Cas9 technology. To keep pace with their progress, Editas moved its location near the heart of Kendall Square with a goal of attracting and retaining a younger employee demographic and top talent. My work engaged in project delivery of the workplace solutions for a modern office that supports various work styles. A classic example of New England adaptive re-use architecture, the building, owned by Alexandria Real Estate, started life as a seven-building complex housing lab, office and warehouse space. Perkins and Will created a unified building with an open space plan, comprising of a 40/60 split of lab to office space, including a mix of formal and informal meeting spaces.

lobby stair / reception

LEVEL 01 - LABORATORY

LEVEL 01 - OFFICE

LEVEL 02 - OFFICE

-

- Open Office - Closed / Shared Office - Support

-

- TOTAL: 13,945 SF

- TOTAL: 17,442 SF

Open Lab Lab Support Specialty Lab Core Lab ACF TOTAL: 16,271 SF

core laboratory

Open Office Closed / Shared Office Collaboration Support

PROJECT DELIVERY Editas Medicine Cambridge, MA, USA

6

6.1

SOLDERED STANDING SEAM WRAPPED PARAPET

EPDM ROOFING MEMBRANE WITH (R25 MINIMUM) TAPERED INSULATION ON EXISTING DECK

CUT BACK EXISTING ROOF DECK AND RAFTER TAIL AS REQUIRED TO FRAME PARAPET. DO NOT CUT ROOF DECK BACK BEYOND EXISTING STEEL BEAM.

T.O.S. ROOF G 26' - 5 1/2"

1" LAMINATE SILL CAP 1 1/2" PTD WOOD END CAP

WOOD ENDCAP BEYOND

ALIGN TOP OF SILL WITH TOP OF MULLION ON CURTAIN WALL SYSTEM BEYOND.

ALIGN GYPSUM BOARD ON FACE BEYOND 1 1/2" PTD WOOD END CAP 1" LAMINATE SILL CAP

PLYWOOD BACKING GYPSUM BOARD ON METAL FRAMING

ALIGN SEALANT JOINT

TOP OF SILL AT WINDOW BEYOND

PLYWOOD BACKING GYPSUM BOARD ON METAL FRAMING

ALIGN EDGE OF METAL FRAMING WITH EDGE OF EXISTING SLAB SILL AT WINDOW BEYOND

SPANDREL PANEL LEVEL 02G 13' - 8 1/2"

PERIMETER FIRESTOPPING JOINT, SYSTEM # CEJ 421P

BATT INSULATION FILL CAVITY 6" METAL STUD FRAMING. EXISTING CONCRETE WALL IS NOT PERPENDICULAR TO SOUTH ELEVATION. PER FIELD MEASUREMENT ESTIMATES, WALL IS 2" OUT OF SQUARE OVER LENGTH OF WALL. METAL STUD MAY OVERHANG FACE OF FOUNDATION WALL, CONTRACTOR TO VERIFY OVERHANG IS ACCEPTABLE AND PROVIDES SUITABLE BEARING SURFACE TO FASTEN STUDS.

1/2" SHEATHING SELF HEALING AIR & VAPOR BARRIER 1/2" PLYWOOD CDX STANDING SEEM ZINC PANEL SYSTEM @ 9" O.C. INCLUDING CLIP SUPPORT SYSTEM (SIMILAR TO RHEINZINK). FLASHING

0' - 5 1/2"

DOUBLE COATED ACRYLIC STUCCO FINISH

ALIGN

1' - 9"

+/- 2' - 4"

1 1/2"

+/- 6"

reShell_v2016_sweeneyt.rvt

LEVEL 01G 1' - 2"

@ STRUCTURE G (EAST) 1 SECTION 1/2" = 1'-0" Sheet Information

Title

adaptive re-use cafe area

11 Hurley Street, Cambridge, MA, USA

ARCHITECTURE E+ Housing in collaboration with Sebastian Marsical Studio Mission Hill, Boston, MA

BUILDING SYSTEMS

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ARCHITECTURE Alexandria Real Estate 161 First Street Cambridge, MA, USA

4

3

2

1

1 A1-10

ELEV

STAIR

STAIR

45 FRANKLIN C

C

101 FEDERA

ROGERS STREET

BINNEY STREET

LOBBY TENANT SPACE

INNOVATION TENANT SPACE

MCNAMARA

10 GUES

CO

10 POST OFFICE

LIFT

2

MAIN ENTRY @ GRADE

LEVEL 02 FLOOR PLAN 1/8" = 1'-0"

FIRST STREET

B

B

ARE M

400 T #101, 1 A1-10

ELEV

STAIR

ROGERS STREET

BINNEY STREET

STAIR

INNOVATIVE TENANT SPACE

MARK

Job Numb

A

A

UNOCCUPIED SPACE

MECHANICAL SPACE

LONG TERM BIKE STORAGE

Drawn Checked

Approved

LEV

4

6/18/2019 3:28:32 PM

C:\Temp\155371.000-161_First_St_CoreShell_v2019_stawasza.rvt

ENTRY @ LEVEL 01

1

3

2

LEVEL 01 FLOOR PLAN

1

FIRST STREET

1/8" = 1'-0" 4

3

2

1

225 Franklin Street, Suite 1100 Boston, MA 02110 t 617.478.0300 f 617.478.0321 www.perkinswill.com

CONSULTANTS

MECHANICAL SCREEN

CIVIL

BOHLER ENGINEERING P.C. 45 FRANKLIN ST, 5TH FLOOR, BOSTON, MA 02110

C

C

STRUCTURAL

MCNAMARA SALVIA STRUCTURAL ENGINEERS 101 FEDERAL ST, SUITE 1100, BOSTON, MA 02110 MEP

BR+A CONSULTING ENGINEERS 10 GUEST ST, 4TH FLOOR, BOSTON, MA 02135

R

NEW SKYLIGHT IN EXISTING LOCATION

LANDSCAPING

COPLEY WOLFF DESIGN GROUP, INC. 10 POST OFFICE SQ. SUITE 1315, BOSTON, MA 02109

T/ EXISTING ROOF

TENANT SPACE

PROJECT

4

LOBBY 161 FIRST STREET

161 FIRST STREET CAMBRIDGE, MA 02142

ELEVATOR SHAFT

B

B

3

TENANT SPACE

ARE MA REGION 21, LLC

LOBBY

400 TECHNOLOGY SQUARE #101, CAMBRIDGE, MA 02139 KEYPLAN

NEW STAIR

2

ENTRANCE VESTIBULE WITH ACCESS TO WHEELCHAIR LIFT

UPPER LOBBY

TRUE NORTH

TRANSFORMER

NEW ACCESSIBLE ENTRANCE

LOWER LOBBY

0 AM

C:\Temp\155371.000-161_First_St_CoreShell_v2019_stawasza.rvt

REMOVE EXISTING STAIR

LOBBY

11' - 9"

GRADE 20' - 8 1/2" A

ISSUE CHART

1

MARK

UNOCCUPIED SPACE

FIRST STREET

ISSUE

Job Number A

100 YEAR STORM LEVEL* 20' - 6"

Drawn

DATE

155371.000 AS

Checked

MB

Approved

SW

TITLE

BUILDING SECTION SHEET NUMBER

1

BUILDING SECTION SOUTH 1/4" = 1'-0"

A1-10

PROJECT DELIVERY Alexandria Real Estate 161 First Street Cambridge, MA, USA

EXTERIOR MATERIAL PALETTE

Standing seam metal paneling.

Louvered screen wall

New high energy efficient windows with applied muntin and hoppers to match historic character.

Existing brick to be repointed.

Historic photo of 161 First Street.

161 First Street | August 6th, 2019 | Alexandria Real Estate Equities, Inc. | Planning Board Special Permit #243 |

8

 





    

CONSULTANTS CIVIL

KLEINFELDER ENGINEERING   

GEOTECH

HALEY & ALDRICH   

LANDSCAPE

COPLEY WOLFF DESIGN GROUP   

STRUCTURAL

MCNAMARA SALVIA   

  

FP / MEP / FA / TEL / SEC









MECH ENCLOSURE SOUTH

ROOF DECK 501

510



 



 



BR+A ENGINEERS



  





  

 

 

  

 

 

ROOF DECK



501

MECH PLATFORM 154' - 3"

MECH PLATFORM 154' - 3"

MECH PLATFORM 154' - 3"

MECH PLATFORM 154' - 3"

ROOF DECK 152' - 7"

ROOF DECK 152' - 7"

ROOF DECK 152' - 7"

ROOF DECK 152' - 7"

PROJECT

 

TENANT SUITE 401

 

TENANT SUITE 401

401

401

 

 

 

LEVEL 04 136' - 5"

 

LEVEL 04 136' - 5"

ARE MA REGION 21, LLC

LEVEL 04 136' - 5"



LEVEL 04 136' - 5"

161 FIRST STREET

 

 

 



 

TENANT SUITE 301 301

 

TENANT SUITE 301 301

 

   

LEVEL 03 123' - 5"

LEVEL 03 123' - 5"

LEVEL 03 123' - 5"

LEVEL 03 123' - 5"



ISSUED FOR CONSTRUCTION 08.15.2019

TENANT SUITE 201

 

TENANT SUITE 201

201

201

TENANT SUITE 101

LEVEL 02 110' - 5"

LEVEL 02 110' - 5"

GRADE - E ENTRY 103' - 9"

 

GRADE - E ENTRY 103' - 9"

TENANT SUITE 101 101

GRADE - E ENTRY 103' - 9"

GRADE - E ENTRY 103' - 9"

 

NO

LEVEL 01 100' - 0"

LEVEL 01 100' - 0"

LEVEL 01 100' - 0"

LEVEL 01 100' - 0"

ISSUE

DATE

155371.000

Job Number

PP

Checked

MB

Approved

TITLE

EXTERIOR WALL SECTIONS SHEET NUMBER























A31-01





C:\Temp\155371.000-161_First_St_CoreShell_v2019_gallegosc.rvt

101

8/15/2019 2:50:52 PM

LEVEL 02 110' - 5"

 



LEVEL 02 110' - 5"

ISSUE CHART

 







    

CONSULTANTS CIVIL

KLEINFELDER ENGINEERING   

GEOTECH

HALEY & ALDRICH







  



LANDSCAPE

COPLEY WOLFF DESIGN GROUP   

PENTHOUSE ROOF 167' - 7"

STRUCTURAL

MCNAMARA SALVIA   

MECH PLATFORM 154' - 3"

FP / MEP / FA / TEL / SEC

ROOF DECK 152' - 7"

BR+A ENGINEERS   

LEVEL 04 136' - 5"

LEVEL 03 123' - 5"

PROJECT

161 FIRST STREET

LEVEL 02 110' - 5"

 

GRADE - E ENTRY 103' - 9" LEVEL 01 100' - 0"



 









 











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ARE MA REGION 21, LLC

 











 PENTHOUSE ROOF 167' - 7"

MECH PLATFORM 154' - 3" ROOF DECK 152' - 7"

ISSUED FOR CONSTRUCTION 08.15.2019

ISSUE CHART

LEVEL 04 136' - 5"

NO

Job Number

LEVEL 02 110' - 5"



C:\Temp\155371.000-161_First_St_CoreShell_v2019_gallegosc.rvt

8/15/2019 2:43:31 PM

LEVEL 03 123' - 5"

Checked Approved

ISSUE

DATE

155371.000 PP RB

TITLE   

GRADE - E ENTRY 103' - 9" LEVEL 01 100' - 0"

EXTERIOR ELEVATIONS SHEET NUMBER



 

A20-01

ARCHITECTURE Alexandria Real Estate 399 Binney Street Cambridge, MA, USA 179,00 SF Well Certified High demand, low vacancy rates, a vibrant mixed-use neighborhood and competition for the best talent are significant drivers in the booming life science market of Cambridge, Massachusetts. While these factors signal opportunity for development, they also represent risks: • Speed to market • Adaptation to evolving science needs • Adaptation to evolving tenant space needs • Balancing lab and office infrastructure • Attracting the best tenants • Promoting health, wellbeing, sustainability and resilience • Keeping neighbors happy and contributing to an active streetscape This project on the edge of the Kendall Square commercial district and across the street from a long-established residential neighborhood, ticked all of the boxes for a challenging development – and recorded success in each category. Key to the project was Perkins+Will’s understanding of both development and technical drivers for design. Core locations, infrastructure, structure and planning strategies were used to optimize the small site for useable area efficiency and critical floor-to-floor heights. Sensitive materials and scale promoted a “good neighbor” approach, supported by streetscape, landscape and site development that incorporated a neighborhood cinema.

aerial rendering of 399 binney street

binney street view

Level 02 - S

PROGRAM TYPE

CLOSED OFFICE COLLABORATION LABORATORY LABORATORY SUPPORT MEETING OFFICE SUPPORT OPEN OFFICE

LEGEND CLOSED OFFICE OPEN OFFICE COLLABORATION MEETING OFFICE SUPPORT

LEGEND CLOSED OFFICE

LABORATORY

OPEN OFFICE

COLLABORATION MEETING

LABORATORY SUPPORT

OFFICE SUPPOR LABORATORY

LABORATORY SU

0

8'

16'

32'

PROJECT DELIVERY Alexandria Real Estate 399 Binney Street Cambridge, MA, USA

5

A.7

C

LT 8

LT 8

LT 8

LT 8

LT 8

LT 8

LT 8

LT 8

LT 8

LT 8

ACT-4 8' - 6"AFF

OSP-3B LT 8

BIOANALYTICS 337

ACT-2 8' - 6"AFFAIR LOCK 343

LT 5

LT 8

LT 8

LT 8

LT 8

LT 8

ACT-2 8' - 6"AFF

LARGE BIOREACTOR

27' - 0"

LT 8

OSP-1A

ACT-2 8' - 6"AFF

LT 6

WS-2

HFDA

LT 8

LT 8

LT 8

OSP-3B LT 8

LT 9

OPEN LAB

CR LT 8

SLOT DIFFUSER

LT 8

LT 8

LT 8

GAS & CRYO

ELEC ROOM

306

LT 8 LT 26

LT 8

LT 8

LT 8

ACT -3 8' - 6"AFF

OSP-3B

LT 8

LT 8

LT 8

LT 8

LT 8

LT 8

LT 9

STORAGE

LT 10

HFDA

LT 29

LT 9

LT 8

LT 8

OSP-3B

LT 8

LT 8

LT 8

ACT-5 8' - 2"AFF

LT 10

ACT-2 8' - 6"AFF WASTE

CEILING MOUNTED SPEAKER (A/V, PAGING, WHITE NOISE) CEILING MOUNTED CAMERA WALL MOUNTED CAMERA

LT 10

LT 8

LT 9

STORAGE

EXIT SIGN

LT 11

LT 11

CONF. 6P

INTUMESCENT APPLIED FIRE-PROOFING AT EXPOSED PORTIONS OF STEEL BRACE

TRACK WITH DOUBLE CHANNEL FOR MP1

DEC6

331

LT29

LT 10

LT 8

LT 10

LT29

307

OSP-3B

LT 10

ACT-2 8' - 6"AFF

ACT-2 LT 10 8' - 6"AFF

LT 8

LIGHT LEVEL SENSOR

CEILING MOUNTED PROJECTOR

LT 10

LT 8

ACT -3 8' - 6"AFF

AXIOM TRIM DTL

LT 8

LT 8

CEILING MOUNTED OCCUPANCY SENSOR

LS

ACT-5 8' - 2"AFF

LT 9

LT 9

LT 8

LT 10

304A

GYP BD 8' - 2"AFF

LT 34

LT 8

CORRIDOR

S

332

EXPOSED TO STRUCT

LT 26

LT 8

LT 10 LT 29

OS

PG WN

305

ACT-2 8' - 6"AFF

LT 9

LT 8

ES

EMERGENCY STROBE

OPEN CO. SPACE 330

EMERGENCY SPOTLIGHT CEILING MATERIAL

DEC6

LT 11

LT 11 LT29

1t 1' - 0"AFF

308

CEILING HEIGHT

347

ACT-2 8' - 0"AFF

ACT -3 8' - 6"AFF

LT 3

LT 9

0"

WS-1

B4 A52-00

7' -

4' - 11"

5' - 3"

13' - 5"

A45-03

336

8' - 3 1/2"

A41

306

A41

A40

3' - 5 1/2"

345

LARGE TC / PLATFORM 345

CL

307

307

A40

ALIGN

TYP.

STORAGE

5' - 0"

A41

5' - 0"

24' - 7"

12' - 1 1/2"

TYP

6' - 0"

A41

329

303B

G1

328 SHAFT

PHONE

SH7-3

328

ALIGN

13' - 11"

29' - 10 1/2"

A41

B4

SH6-3

B3

B5 A52-00

B4 A52-00

A41

D11

A1

ALIGN

9' - 10"

RS

E2

ALIGN

0' - 8"

1' - 5"

VIF

10' - 0 1/2"

1' - 3" ALIGN

301

CONF. 10P

A45-02

E2

0' - 10"

375

Z11 D11

SIM

9' - 5"

9' - 5"

9' - 5"

9' - 5"

A4

A41

G1

OFFICE HUD 384

OFFICE

383

382

OFFICE 381

A41

A41

DASHED LINES INDICATE SOFFIT ABOVE

8' - 10 1/2"

376

A41

376 377

PHONE 377

D11 C4

ALL PARTITIONS A41 UNO. SEE SHEET A61-01 FOR PARTITION TYPES COORDINATE FINAL LOCATION OF FLOOR BOXES WITH FURNITURE INSTALLATION PLAN PROVIDED BY FURNITURE DEALER

OPEN OFFICE

3

10/12/18 08/24/18 08/03/18 06/11/18 05/18/18

ISSUE

DATE

Job Number A

155328.002

Drawn

CT

Checked

PP

Approved

RB

TITLE

SHEET NUMBER

379A

A2 A52-00

7' - 3"

C2 A52-00

Z11

A4 A52-00

A11-03

Z11

Sim Copyright © 2018 Perkins+Will

A52-00

4

BULLETIN-03 BULLETIN-02 BULLETIN-01 ADDENDUM-01 CONSTRUCTION DOCUMENTS

LEVEL 03 FLOOR PLAN

4' - 10"

G1 PHONE

0' - 10"

1. 2.

A81

A41

A41

5 4 3 2 1 MARK

RECORD DOCUMENTS 02.08.2019

PARTITION PLAN GENERAL NOTES Z11

RS

G1 E1

A45-02

A41

11' - 10"

CR

A81

0' - 10"

D2

378 CORRIDOR

22' - 1"

A1

A52-01

5

9' - 5"

302

CORRIDOR

372

374

ALIGN A45-02

G1

ISSUE CHART

POKE THRU STYLE POWER/DATA FLOOR BOX, TYP; SEE FURN PLAN

A45-01

5' - 11 1/2"

A3

0' - 10"

357B

ALIGN

ALIGN

A45-02

Z11

ALIGN

374

A45-02

386

378

A41

12' - 8"

1.2

COPY

WELLNESS

1' - 8 1/2"

D11

D11

7' - 0"

E5 A41

16' - 1"

CONF. 6P

387

D11

A2

373

A44-01

387

SH2-3

SH1-3

RS

OPEN COLLAB. SPACE

OFFICE

D31

SHAFT

SHAFT

6' - 1"

DASHED LINES INDICATE SOFFIT ABOVE

2' - 9" A41

9' - 5"

3' - 4" 21' - 4"

372A DATA COSET

A41

359B

3' - 0"

385

9' - 5"

9' - 5"

369

0' - 9"

357B

D31

COPY

A41

372B

2' - 1"

375

364

OPEN OFFICE

1' - 0 1/2" CAFE

368

7' - 5"

HUD

388

ST1-3

A41

D31

OFFICE

A41

EQ

388

STAIR

A41

D11

27' - 8"

A45-02

2' - 2"

OFFICE

A45-02

A3 A52-01

A41

3' - 0 1/2"

A44-01

371C B1

D1 A1

A41

D31

A41

G1

A41

C2

C1

A45-02

368

G1

367

G1

EQ B3

D4

OFFICE G1

3' - 0 1/2"

389

1' - 11"

11' - 2 1/2"

6' - 0"

D3

A45-02

A41

360

A41

A5 A52-01

22' - 2 1/2"

D11

OPEN OFFICE

389

0' - 10"

363

D5

D2

B

A4

A50-03

A41

390

OFFICE

320

0' - 10"

OFFICE

362

HUD

371B

A1

KEYPLAN

B5 A52-01

2

A45-01

379B

A41

371

363 OFFICE

362

14' - 6"

19' - 3"

D11

390

SH3-3

WOMENS

366

1' - 9 1/2" 15' - 5"

EQ 11' - 11"

364

37' - 9"

1' - 3 1/2" B4

SHAFT

1' - 7 1/2"

A41

1' - 7"

OFFICE

371A

OFFICE

367

OFFICE

RUBIUS THERAPEUTICS

399 BINNEY STREET CAMBRIDGE, MA, 02141

D11

1' - 0 1/2"

BELOW

A50-03

G1

A41

319

366

15' - 7"

A81

A41

EQ

15' - 9"

B2

A45-02

PHONE 391

370

D31

Sim

18' - 10"

361

AV RACK / EQUIPMENT TO BE LOCATED IN CREDENZA UNIT. COORD WITH FURNITURE AND AV DWGS

2' - 5 1/2"

B2

321

SH4-3

JAN

A41

HUD

SIM

RECEPTION

SHAFT

370

STORAGE

A1 A44-01

7' - 5"

2.5

2

E1-3

D31

Sim

A45-01

RECEPTION DESK

391

G1

317

D11

365

9' - 5"

0' - 5"

A45-02

C4

LEVEL 03 INTERIOR FITOUT

D31

B1

322

16' - 4 1/2"

D11

A2

323

A45-02

DR CR

316

ELEV

SHOWER

COATS OFFICE

9' - 5"

357A

20' - 1 1/2"

D1

359A

EQ

357A

OPEN OFFICE

CL

BOARD ROOM 20P

2' - 5 1/2"

COATS

E6

LOBBY

E2-3

3.2

365

TYP.

316B

9' - 4" EQ

ELEV

3.3 A81

A41

A52-00

5' - 4 1/2"

9' - 4" EQ D31 CR

9' - 10"

D11

A41

D31

3' - 4"

323

2' - 5"

ALIGN

ALIGN

EQ RS

3' - 10"

A45-02

ARCADE

A41

D31

353A

A45-03

D11

TYP.

SH5-3

A81

GLASS WASH

B2

POKE THRU STYLE POWER/DATA FLOOR BOX,TYP.; SEE FURN VENDOR DWGS.

TYP.

A41

SHAFT

315

8' - 2 1/2"

353A

352

9' - 5"

7' - 0"

CLOSET

EQ

CL

PROTEIN ROOM

3' - 2 1/2"

EQ

CL

9' - 5"

6' - 4"

D11

LEVEL 03 - OVERALL PLAN

EQ

1' - 11 1/2"

EQ A41

1 ASK-005

A1 A52-01 D31

5' - 1" 9' - 5"

6' - 0"

6' - 0"

7' - 9 1/2"

A41

EQ

1' - 1"

A41

316A

D11

5' - 0"

1

13' - 1 1/2"

353

12' - 5"

42' - 5 1/2"

356

5' - 4 1/2"

8' - 5"

TRAINING ROOM 12P

TYP.

B5

Z11

FREEZER FARM

4' - 0"

A41

EQ

1' - 1"

356 D11

16' - 2 1/2"

4' - 8" 24' - 10"

CR

Z11

2.9

11' - 2 1/2"

CL

A41

347

G1

26' - 7"

E21

1' - 5" CL

11' - 5 1/2"

352

314

PROJECT LOGO IF AVAILABLE

326

2' - 0"

D31

A81

A45-01

324

A41

1' - 2 1/2"

PROJECT

HUB/LIBRARY

A45-01

7' - 8"

324

SERVER

SHAFT

A45-01

7' - 0"

G1

325

A41

TELE/COM

D11

0' - 10"

E1 C1

325

11' - 3" HUDDLE

312

A41

A81

1' - 4"

327

CR

8' - 5"

11' - 5" 8' - 11 1/2"

D6

A41

RECESSED ELEC PANEL; SEE ELEC

354

A45-02

PHONE

MENS

CL

347

C4 A52-01

355A

23' - 6"

AV RACK / EQUIPMENT TO BE LOCATED IN CREDENZA UNIT. COORD WITH FURNITURE AND AV DWGS

1' - 0"

1/8" = 1'-0"

CL

EQ

E4

5' - 0"

355

A5

351

5' - 5 1/2"

5' - 11 1/2"

47' - 3 1/2"

CR

5' - 11 1/2" B3

2' - 11 1/2" 6' - 0 1/2"

36' - 11 1/2"

27' - 1 1/2"

WORKPLACE ZONE

A

CL

EQ

A41 ELEC ROOM

A41

HALLWAY

C

C2

A45-01

310

353B

350

MICRO.

7' - 0"

12' - 10 1/2"

3' - 6 1/2"

5' - 10"

HFDA

HFDA

349

5' - 0" 348

HFDA

353B

COLD ROOM

A81

ALIGN

OPEN LAB

TYP.

3

351

5' - 0"

6' - 5 1/2"

17' - 7 1/2"

A45-03

D11

4

5' - 6"

2/6/2019 3:18:19 PM

\\perkinswill.net\Projects\Boston\155328.002-TRG-399_Binney-Rubius_Therapeutics\DESIGN\BIM\REVIT\ARCHIVE\155328.002-TRG-399_Binney-Rubius_CENTRAL_RECORD DRAWINGS.rvt

3' - 6"

3' - 3"

3' - 1"

10' - 8"

A45-03

A41

355B

2' - 2"

24' - 7"

A52-01

EQ

OPEN OFFICE

309

353

B

EQ

C02: MANUFACTURED COLD ROOM ASSEMBLY SHIPPING/ RECEIVING

311

PROVIDE METAL CLOSURE BETWEEN PARTITION AND COLD ROOM PANEL(S)

CL

LEVEL 5 FINISH EXTENTS REQUIRED AT GYPSUM BOARD WALLS

310

SH8-3

STO

DOOR RELEASE BUTTON; COORDINATE WITH SECURITY DRAWINGS

D11

CORRIDOR

LARGE TC / DISCO

C02

HANDS FREE DOOR ACTUATOR

A41

D31

MOTHER'S

A41

ROOM SCHEDULER; COORDINATE WITH TECHNOLOGY DRAWINGS

C01: MANUFACTURED COLD ROOM ASSEMBLY. (2) LAYERS OF 3"RIGID INSULATION TO BE INSTALLED BELLOW METAL DECK WITH PERIMITER OF INSULATION 3'-0" BEYOND EDGE OF COLD ROOM

330

4" 7' - 5" 3' - 1"

9' - 1"

6' - 0"

33' - 0"

5' - 9"

20' - 9 1/2"

D4

OPEN CO. SPACE

331

349

1' - 0 1/2" 4' - 4"

G1

A45-02

331

E41

A41

CORRIDOR

CARD READER; COORDINATE WITH TECHNOLOGY DRAWINGS

PARTITION PLAN NOTES

Z11

ALIGN

CONF. 6P

SH9-3

SHAFT

2' - 6"

MEPFP

700 Technology Square, Suite 402 Cambridge, MA 02139 t 781.372.3000

D

STAINLESS STEEL CORNER GUARD

VIF

E41

SHAFT

309

A1

A41

HFDA

Z11

4.7

LV 5

6' - 6 1/2"

5' - 10 1/2"

A41 SH10-3

D11 A41

8' - 5"

4.8

1' - 6" VIF

A41

D11

332

E5

7' - 2 1/2"

SHAFT

D31

308

303A

A41

PROJECT TEAM AHA ENGINEERS

PARTITION TYPE

RS

DR STORAGE

A41

9' - 7 1/2"

G1

D11

www.perkinswill.com

DOOR NUMBER, REFER TO DOOR AND HARDWARE SCHEDULE ON SHEET A62-01 FOR FURTHER INFORMATION

CR

HFDA

A45-03

ALIGN

E7

ALIGN

A41

348

5

B11

304B

25' - 6 1/2" 13' - 5"

CORRIDOR

D31

WASTE

A40

G1

C4 A52-00

303A

347

9' - 7 1/2"

304A

CORRIDOR

OPEN LAB

NEW PARTITION

332

305

14' - 2 1/2" A41

ALIGN

5' - 10 1/2"

225 Franklin Street, Suite 1100 Boston, MA 02110 t 617.478.0300 f 617.478.0321

EXISTING PARTITION TO REMAIN

CORRIDOR

333A

6' - 5"

344

A41

CL LARGE TC / DISCO

PARTITION PLAN LEGEND

SH13-3

35' - 0"

C2

A45-03

G.2 2' - 11"

SHAFT

D31 ELEC ROOM

C1

Z11

G 19' - 1"

SHAFT

CR

1' - 0 1/2"

A41

A41

C

F.3 13' - 11"

SH11-3

344A

HFDA

32' - 11"

CL

1

F 5' - 6"

GAS & CRYO

2' - 11 1/2"

HFDA

5' - 1 1/2"

23' - 6 1/2"

2' - 6"

D31

A41

303C

338

32' - 7" A45-03

HFDA

6' - 0" 6' - 0"

CORRIDOR

D11

308

A41

6' - 0"

G1

D5

3' - 0"

346 CL

10' - 3"

CR

4' - 9"

2' - 7 1/2"

D3

346

D11

5' - 4"

1' - 3"

ALIGN

A41

A41

3' - 0"

A81

LARGE TC / PLATFORM

6

E.9

E.4

16' - 0"

AMBR 250

306

A41

SHEET NUMBER

1

FIRE EXTINGUISHER / CABINET

339

5' - 8 1/2"

6' - 0"

ALIGN

5' - 3"

344

B2 A52-00

LEVEL 03 RCP

A12-03

2

E.6

19' - 9"

MEDIA PREP

11' - 10"

TITLE

WS-1

ST7-3

SMALL BIOREACTOR

HFDA

PP RB

Approved

STAIR

A41

A41

CORRIDOR

CT

Drawn

Copyright © 2018 Perkins+Will

E

D.4

155328.002

Checked

2"

ALIGN

341

7' - 2 1/2"

2' - 11"

D11

A4 A52-00

WS-1

LT 14

101

E2

340

26' - 5"

9' -

E3-3

CL

G1

33' - 5 1/2"

10 "

LT 19

WS-1

394

A45-03

AIR LOCK 341B

LARGE BIOREACTOR

Z11

LT 20

2

2' - 6"

3' - 1"

21' - 2"

6' - 0"

G1

A

OFFICE AREAS WITHOUT CEILINGS TO RECEIVE PT1 FINISH, REFER TO FINISH LEGEND EXPOSED STRUCTURE TO RECEIVE K-13 TREATMENT AND PT2 FINISH, REFER TO FINISH LEGEND LAB AREAS WITH CEILINGS TO RECEIVE PTE2, REFER TO FINISH LEGEND REFER TO A00-00 FOR GENERAL NOTES COORDINATE WITH POWER+COMMUNICATION PLANS FOR PLACEMENT OF CEILING MOUNTED ELECTRICAL DEVICES 6. ALL LIGHTING FIXTURES WITHIN GWB TO BE CENTERED WITHIN U.N.O. 7. REFER TO ARCHITECTURAL LIGHTING FIXTURE SPECIFICATION SECTION 26 51 13 FOR FULL LIGHT FIXTURE CUT INFORMATION 8. EXPOSED PIPES, CONDUITS, RAIN LEADERS AND UTILITIES TO RECEIVE PTI FINISH 9. ALL EXPOSED DUCTWORK TO BE GALVANIZED SPIRAL DUCTS 10. COLD ROOM CEILING AND LIGHTING BY MANUFACTURER

ACT-2 8' - 6"AFF

CL

A41

WS-1

2"

DATE

3. 4. 5.

SERVICE ELEV

E3

2' - 6" A41

TYP.

6' 9' -

LT 20

333B

12' - 2 1/2"

342

340

D11

A2 A52-00

LT 12

LT 9

A41

5' - 10"

CLEAN CORRIDOR

5' - 8"

A41

334

CL

6' - 1"

34' - 4 1/2"

MIN.

343

E1

A81

0' - 6" 5' - 6"

5' - 3"

ALIGN

AIR LOCK

D.3

6' - 5"

CL

337 Z11

343B

377

DEC 13

WS-1

PROVIDE METAL CLOSURE BETWEEN PARTITION AND COLD ROOM PANEL(S)

COLD ROOM

A41

C01

5' - 0 1/2"

A45-03

6' - 0"

7

343A

335

A41

18' - 0"

11' - 4"

6' - 0"

23' - 0"

347

10 "

ISSUE

13' - 0"

RELEASED MATERIAL

336

A41

LT 19

PHONE

GYP BD 9' - 0"AFF

10' - 9"

D11

INCOMING MATERIAL

337

A41

1' - 5 1/2"

6' -

MARK

WS-1

1' - 0 1/2"

BIOANALYTICS

RCP GENERAL NOTES

WS-1

379A

LT 12

EXPOSED TO STRUCT

376

LT 29

LT 9

D

D11

G1

LT 29

WS-1

33' - 0"

D11 D11

27' - 0"

LT 29

WS-1

C

335

Z11

ACT-2 8' - 6"AFF

PHONE

LT 9

TBD 11/12/18 10/12/18 08/24/18 08/03/18 06/11/18 05/18/18

Job Number

1. 2. OPEN OFFICE

DEC 14

375

374

LT 9

373

LT 14

3

33' - 0"

17' - 4" 18' - 11"

3' - 0"

8' - 4"

OPEN LAB

6.8

LT 29

LT 12

RCP Revision CR-050 BULLETIN-03 BULLETIN-02 BULLETIN-01 ADDENDUM-01 CONSTRUCTION DOCUMENTS

RECORD DOCUMENTS 02.08.2019 WS-1

LT 21

CONF. 10P

CONF. 6P OPEN COLLAB. SPACE

338

B

1' - 9 1/2"

A.7 19' - 5"

24' - 6 1/2"

6.9

LT 29

DEC6

LT 23

386

RS

ACT-1 9' - 0"AFF

4

A 7' - 0"

ACT-1 8' - 6"AFF

LT 11

A51-01

LT 29

LT 23

3

0' - 5" VIF

5

D

B5 A52-00

0"

SIM

C1

LT 21

4

A.0

7.7

DEC 6

LT 14

WS-1

5

8

LT 11

ACT-1 9' - 0"AFF

LT 9

381

380

LT 23

9 7 5 4 3 2 1

2' - 1"

5' - 6"

LT13

1

0"

ACT-1 8' - 2"AFF

GYP BD 8' - 2"AFF

LT 17

0'-10"MIN

1' - 0 1/2"

7' -

0"

A51-01

OPEN COLLAB. SPACE

384

2' - 0"

WS-1

LT 20

SIM

380

7' LT 20

COPY

LT 23

378

RS

0"

LT 17

B4 A52-00

LT 14

WD-2 8' - 2"AFF

LT 9

WELLNESS

LT 21

7' -

GYP BD 8' - 2"AFF

A51-01

382

HUD

DEC12

WD1

2"

OFFICE

4' - 0" MIN

7' -

LT 14

TYP

C5

LT 9

LT 11

372

383

9' -

GYP BD 8' - 2"AFF A2

ACT-1 8' - 2"AFF

OFFICE

0' - 10 1/2"

6' - 10"

369

LT13

DEC7

2' - 1" LT 22

LT 9

302

LT 26 LT 23

ACT-1 8' - 6"AFF DATA COSET

COPY

LIGTHING COVE: LT 33

DEC7

DEC8

WS-1

1/8" = 1'-0"

LT 9

10 "

382

DEC8

ACT-1 8' - 6"AFF

LT 11

CORRIDOR

EXPOSED TO STRUCT

DEC7

6' - 3" 6' - 10"

19' - 3"

6' - 3"

WS-2

A5 LEVEL 03 - RCP

ACT-1 8' - 6"AFF

368

RCP PLAN NOTES

WS-1

LT 19

387

LT 23 LT 26

LT 23

OFFICE

2' - 11"

GYP BD 8' - 8"AFF

DEC7

DEC8

WS-2

1.2

364

OFFICE

385

DEC12

OFFICE

OFFICE

363

ACT-2 8' - 6"AFF

LT13

DEC7 357B

DEC8

OFFICE

362

DEC8

CAFE

LT13

OFFICE

360

HUD

9' - 6" 0' - 10"

DEC8

HUD

LT 22

EXPOSED TO STRUCT ACT-1 8' - 6"AFF

" 10

DEC8

DEC8

361

DEC 12

WD1

0"

A2 A44-01

WD-2 8' - 2"AFF

LT 23

LT 11

LT 22

6'

DEC8 LT13

B4 A52-00 WS-2

DEC 12

WD1

2' - 1"

LT 12

ACT-1 OFFICE 8' - 6"AFF 388

LT 26

LT 23

6' 8' -

LT 19

LT 11

ACT-1 8' - 6"AFF

367

MOTORIZED ROLLER SHADE; SINGLE ROLL

379B

0"

A51-01

ACT-1 8' - 6"AFF

LT 26

LT 23

8' SIM

C1

389

1' - 1 1/2"

LT 22

GYP BD 8' - 2"AFF

6' - 10"

2

WD-2 8' - 0"AFF

LT13

DEC8

LT 23

OFFICE

LT 11

322

DEC8

WS-2

A51-01

LT 23

HUD

MANUAL ROLLER SHADE; SINGLE ROLL

WS-2

OPEN OFFICE

LT 12

LT 23 ACT-1 8' - 6"AFF

OFFICE WD1

WS-1

ISSUE CHART WS-1

A51-01

LT 14

1' - 3 1/2"

LT13 DEC8

WD-2 8' - 0"AFF

B

UPTURN SPRINKLER PENDANT

B4 A52-00

SIM 8' -0 "

C2

LT 23

17' - 4 1/2"

LT13

DEC8

RECESSED SPRINKLER PENDANT

LT 12

RS

A2 A44-01

TYP

INDUSTRIAL STRIP

327

DEC8

LT 12

KEYPLAN

INDUSTRIAL PENDANT

B4 A52-00

LT 12

DEC 10

9' - 9"

B4 A51-01

A5 A4 A51-01

6' - 10"

15' - 9"

UNISTRUT MOUNTED PROJECTOR; COORDINATE LOCATION & SUPPORT WITH OWNER EQUIPMENT

DEC8

SIM

C1

LT 12

321

399 BINNEY STREET CAMBRIDGE, MA, 02141

DECORATIVE PENDANT

WS-1

RECEPTION

14' - 4 1/2"

WS-2

LT 14

EXPOSED TO STRUCT

GYP BD 8' - 2"AFF

LT 23

2"

LT 12

LT 12

LT 26

LT 26

8' -

LT 17

366

Sim

DEC 17

ACT-1 OFFICE 8' - 6"AFF 390

ACT-1 8' - 6"AFF

365

10 "

OFFICE

DEC8

CL

CL

LT 11

0' - 5"

LT13

357A

LT 23

OFFICE

5' -

LT 20

LT 11

LT 11

INDIRECT / DIRECT PENDANT FIXTURE

GYP BD 8' - 2"AFF

LT 11

370

4' - 9"

2.5 UNISTRUT MOUNTED ELECTRIC PROJECTION SCREEN; SEE AV DWGS

DEC8

LT13

ARCADE

CL

LT 11

0"

LT 30

391

3.2

OPEN OFFICE 359A

LT 30

LT 12

RUBIUS THERAPEUTICS

RECESSED COVE FIXTURE

METAL AXIOM STYLE TRIM, TYP

LT 30

LT 30

ALIGN

0"

LT 20

D2 A52-01

LT 30

LT 12

7' - 11"

7' -

LT 17

GYP BD 8' - 2"AFF

LT 11

ALIGN

B5 A51-01

WS-2 DEC8

TRACK WITH TRIPLE CHANNEL FOR MP1

10 "

EXPOSED TO STRUCT

DEC8

TYP

6' - 10"

DEC8

6' - 10"

16' - 2 1/2"

DEC8 LT13

LT 30

DR CR LT 30

TRACK LIGHTING

LT 27

WS-1

PHONE

COATS

1' - 1"

CEILING MOUNTED PROJECTOR; COORDINATE LOCATION & SUPPORT WITH OWNER EQUIPMENT

14' - 6"

LT 12

RS

LT 14 WS-2

2.9

7' -

LT 30

LT 11

LT 30

305

5' -

LT 27

GYP BD 10' - 0"AFF

LIGHTING COVE: LT 31

LT 11

Sim

1' - 10"

LT 9

356

CR

LT 27

BOARD ROOM 20P

RECESSED LINEAR SLOT

WS-1

LT 27

GYP BD 8' - 8"AFF

323

8' - 0"

TRAINING ROOM 12P

LT 9

316

LT 30

DEC1

COATS LT 30

LT 10

3.3 LT 11

GYP BD 9' - 0"AFF

EXPOSED TO STRUCT

LT 9

LT 30

LT 30

LOBBY

LT 30

DEC1

LT 27

LT 27

LT 26

LT 10

LT 30

10' - 11"

LT 29

LT 30

LT 30

371

A51-01

LT 10

LT 30

STORAGE

LT 29

EQ EQ

LT 29

LT 3

CR

WS-2 LT 29

EQ EQ

1' - 1" 8' - 5"

3

TYP

SIM

RS

A5 A51-01 LT 29

D4

ACT-2 8' - 6"AFF

LT 4

DEC1

LT 28

11' - 10"

LT 4

A51-01

DEC1

LT 28

B2 A52-00

OPEN COLLAB. SPACE

OSP-4A

SIM

C2

DEC 5

3' - 0"

DEC 5

355

GYP BD 8' - 6"AFF

LT 30

8' - 3 1/2"

DEC 5

DEC 5

WORKPLACE ZONE

LT13

352

DEC 5

DEC 5

LT13

CEILING MOUNTED ELECTRIC PROJECTION SCREEN; SEE AV DWGS

LT 10

RECESSED STRIP FIXTURE LT 27

DEC 10

B3 A52-01

LT 9

AXIOM TRIM DTL

LT 4

ACT-2 OSP-1A 9' - 0"AFF

LT 28

322

SERVER

LEVEL 03 INTERIOR FITOUT

STRIP FIXTURE

EQ LT 27

EQ

TYP.

LT 27

LT 12

324

GYP BD 8' - 0"AFF

GYP BD 8' - 0"AFF

4' - 11 1/2" TO EDGE OF TRACK

353A

23' - 6"

DEC 5

DEC 5

PROTEIN ROOM

DEC 5 WS-2

GLASS WASH

21' - 4" TRACK

LT13

B4 A52-00

LT 9

LT 10

LT 10

PROJECT LOGO IF AVAILABLE

RECTANGULAR RECESSED WALLWASH

LT 12

EQ LT 27

EQ

5' - 0 7/8"

ACT-1 8' - 6"AFF

1 ASK-001 ASK-013

EQ

EQ

RS

ACT-2 8' - 6"AFF

LT 10

LT 10

LT 12

7' - 3 1/2"

LT 4

OSP-1A

LT 12

LT 27

EQ

EQ

LT 27

LT 9

8' - 5"

ACT-2 9' - 0"AFF

OSP-1A

DEC 5

AXIOM TRIM DTL

LT 27

ACT-1 8' - 4"AFF LT 12

1' - 2"

DEC 5

LT 12

EQ

LT 27

ACT-5 8' - 2"AFF

LT 10

EQ

5' - 8"

DEC 5

353

PROJECT

RECTANGULAR PENDANT WALLWASH

DEC4

WALL SCONCE LT 12

ALIGN

DEC 5

DEC4

LIGTHING COVE: LT 32

CL

DEC 5

DEC4

LT 12

EQ ACT-1 8' - 2"AFF

LT 9

LT 10

FREEZER FARM

LT 12

LT 12

LT 29

351

ACT-2 8' - 6"AFF ACT-2 8' - 0"AFF

DEC 5

DEC4

LT 9

MICRO. LT 23

LT 12

WS-1

DEC4

DEC4

LT 12

LT 29

A51-01

3' - 5"

OSP-1A

ACT-2 9' - 0"AFF

EQ

OSP-1A

DEC 5

LT 12

LT 12

ACT-1 8' - 2"AFF

325

LT 10

LT 9

TRACK WITH DOUBLE CHANNEL FOR MP1

LT 9

HUDDLE

CR

DEC 5

CR

DEC 5

LT13

WS-2

LT 9

CR LT 10

LT 12

2' - 0"

ACT-2 9' - 0"AFF

LT 12

EQ

SIM

RECESSED ADJUSTABLE ACCENT (ROUND, SQUARE) WS-1

LT 12

DEC15

LT9

353B

350

RECESSED WALLWASH (ROUND, SQUARE)

327

DEC16

STO

D3

ALIGN PHONE

328

LT 9

LT 4

LT13

EXPOSED TO STRUCT 5' - 8"

B

LT 18

PHONE

COLD ROOM

C

RECESSED DOWNLIGHT (ROUND, SQUARE) PENDANT DOWNLIGHT (ROUND, SQUARE)

LT 9 ACT-1 7' - 6"AFF

303A LT 9

LT 8

LT 34

LT 4

\\perkinswill.net\Projects\Boston\155328.002-TRG-399_Binney-Rubius_Therapeutics\DESIGN\BIM\REVIT\ARCHIVE\155328.002-TRG-399_Binney-Rubius_CENTRAL_RECORD DRAWINGS.rvt

LT 8

1X4 TROFFER FIXTURE

383

8' - 1"

ACT-2 8' - 6"AFF

LT13

2/6/2019 3:24:44 PM

LT 8

2X2 TROFFER FIXTURE

310

349

LT 7

WS-2

A

LT 8

CORRIDOR

2X4 TROFFER FIXTURE

WS-1

MOTHER'S

ACT-5 8' - 2"AFF

LARGE TC / DISCO

LT 4

B2 A52-00

4

LT 8

OSP-3B

0"

329

2' - 0 1/2"

LT 8

OSP-3B

303B

OPEN OFFICE

DEC 11

LT 9

CORRIDOR

1' - 3 1/2"

LT 8

LT 9

LT 8

15' - 5 1/2"

LT 8

LT 8

LT 9

ACT -3 8' - 6"AFF

AXIOM TRIM DTL

LT 8

381

LT 8

LT 8

EQ

5' - 8 1/2"

LT 8

LT 8

LT 16

7' -

LT 15

EQ

LT 8

348

HFDA

WS-2

24' - 7"

LT 8

LT 8 LT 8

347

ACT-2 9' - 0"AFF

4.7

LT 8

LARGE TC / DISCO

OPEN LAB

LT 6

WS-2

LT 8

1' - 10"

8' - 5"

4.8

OSP-2A9' - 0"AFF

OSP-1A

WS-2

LT 8

OSP-3B

LT 8

ACT-2 8' - 6"AFF

LT 6

ACT-2 OSP-1A

LT 8

0"

EQ

EQ

OSP-3B LT 8

5

LT 8

B4 A52-00

7' -

LT 10

EQ

LT 9

LT 6

LT 8

LT 8

ACT-2 8' - 0"AFF

LT 8

HFDA

WS-2

LT 8

ACT-2 8' - 6"AFF

HFDA

OSP-1A

LIGHT FIXTURE SYMBOLS

309

HFDA

OSP-1A

EXPOSED TO STRUCT

SHIPPING/ RECEIVING

LT 9

LT 9

LT 6

ACT-2 OSP-2A9' - 0"AFF

ACT-2 8' - 6"AFF

LT 9

345

LT 9

7' - 1"

C

LARGE TC / PLATFORM

346

ACT-2 8' - 6"AFF

LT 6

5' - 1"

33' - 0"

LARGE TC / PLATFORM

LT 9

ACT-2 OSP-2A9' - 0"AFF

OSP-1A

ACT-2 9' - 0"AFF

RS

LT 6

WS-2

OSP-1A

D

LINEAR DIFFUSER LT 8

LT 9

LT 8

ACT-2 8' - 2"AFF

GYP BD 8' - 0"AFF

LT 29

ACT-2 8' - 0"AFF

ACT-2 8' - 6"AFF

LT 6

RETURN DIFFUSER

LT 8

338

LT 8 LT 8

OSP-2A9' - 0"AFF

OSP-1A

LT 8

LT 10

LT 29

ACT-2 OSP-1A

LT 8

700 Technology Square, Suite 402 Cambridge, MA 02139 t 781.372.3000

SUPPLY DIFFUSER

OSP-3B SMALL BIOREACTOR

LT 6

6

LT 8

ACT-4 8' - 6"AFF

LT 8

WS-2

ACT-2 9' - 0"AFF

LT 8

339

LT 8

LT 29

ACT-2 8' - 6"AFF

OSP-2A

MEPFP

AHA ENGINEERS ACCESS PANEL LT 8

OSP-3B

LT 29

PROJECT TEAM

AIR LOCK

LT 8

HFDA

OSP-1A

2'X4' ACOUSTICAL CEILING GRID AND TILE

ACT-4 8' - 2"AFF

MEDIA PREP

LT 8

ACT-4 8' - 6"AFF

LT 8

LT 6

B2 A52-00

LT 8

LT 8

AXIOM TRIM DTL

340

ACT-2 8' - 6"AFF

LT 6

WS-2

225 Franklin Street, Suite 1100 Boston, MA 02110 t 617.478.0300 f 617.478.0321 www.perkinswill.com

2'X2' ACOUSTICAL CEILING GRID AND TILE

341

LT 8

LT 8 LT 6

OSP-2A

REFLECTED CEILING PLAN LEGEND

2' - 11"

LT 8

LT 8

LT 8

OSP-1A

G.2

19' - 1"

LT 9

LT 4

ACT-2 9' - 0"AFF

OSP-1A

G

13' - 11"

RS

6.8

F.3

5' - 6"

AMBR 250 394 ACT-4 8' - 9"AFF

LT 8

ACT-4 8' - 0"AFF

6' - 0"

OSP-1A ACT-2 9' - 0"AFF

1

F

10' - 3"

342

LT 4

OSP-1A

1' - 3"

SIM

CR

7

E.9

E.4

16' - 0"

334

A51-01

LT 8

CLEAN CORRIDOR

LT 8

D

E.6

19' - 9"

COLD ROOM

D3

LT 8

LT 8

LT 8

2' - 6"

DRYWALL CEILING / SOFFIT

ACT-4 8' - 6"AFF

ACT-4 8' - 0"AFF

ACT-2 9' - 0"AFF

OSP-1A

LT 8

2

E

D.4

10' - 9"

HFDA

23' - 0"

LT 5

OSP-1A

LT 8

335

LT 8

LT 8

ACT-4 8' - 6"AFF

LT 5

D.3

33' - 0"

336

ACT-2 9' - 0"AFF

OSP-1A

D

33' - 0"

RELEASED MATERIAL

8' - 4"

LT 5

OSP-1A

3

B

19' - 5"

3' - 0"

7.7

4

A 7' - 0"

INCOMING MATERIAL

A.0 8

2

1

ARCHITECTURE Liberty Mutual Insurance Boston, MA, USA 590,000 SF 22-story tower My role and responsibilities varied throughout the different phases of the project, but I mainly served as the project coordinator. This position required a very high level of clear communication from coordination with clients, contractors, consultants, and various members of the design team. Specifically, my strengths and contribution lied in excellent communication, organization, management, technical skills and a thorough understanding of the construction documents. The site is located at the crossroads of Berkeley Street and Stuart Street and is among the city of Boston’s urban city skyline. It is considered to hold a seamless transition from the existing urban complex into the new commercial office space. The exterior is highly contextual and blends in with the traditional architecture and Liberty Mutual Campus. The building is designed to achieve LEED Silver certification and is 20 percent more energy efficient than a typical large modern office building.

157 Berkeley Street, Boston, MA, USA

lobby feature walls

balcony

lobby finish plan

transition points

stretched fabric walls and travertine

PROJECT DELIVERY Liberty Mutual Insurance Boston, MA, USA I served as a construction administrator and project coordinator for about one year of the project. The role consisted of regular site visits, field reports, and updating construction documents. Through this experience I was able to achieve clear communication skills with the contractor, engineers, and owner, but ultimately develop the proper annotation techniques required to avoid confusion in the field. This is a small example of where I coordinated with our electrical consultant to determine the location of the incoming public teledata pipes penetrating into the building on Stuart Street.

KEY

11x

GREEN ROOF

Fx CONCRETE

10.3x 10x

CMU 2 A300

E.3x Ex

9x

STEEL GRATE

8.7x

STONE

8.2x

8x

1

7.6x

A300

EXISTING SLAB 1 1

Dx

A302

A301

7.1x7x

EXISTING STRUCTURE

AS NOTED

6x

PAINTED PEDESTRIAN WALKWAY

PROPERTY LINE

Cx 5x EXISTING TO REMAIN

4x Bx A.7x

C.6x C.3x

3x D.2x

R6

2

B.9x

A302

2x

Ax D.7

B.4x

UP

1x F

13x

DROP WALL FOR SHAFT ABOVE

5

10.2

A204

E

UP 9

PROVIDE DAMPROOFING AT ALL SURFACE OF AIR SHAFT

10.5

INFILL CORE WALL FROM REMOVAL OF DOORS

10' - 4 1/2"

A504 2

 

6

12x

A306

 

A308

10.7

9A



GUARD RAIL



B1-12A

B1-12B

4

A308

9D

B1-02A





FD



  



 



2

B1-18

6C

2A B1-19

B1-22

Men's

Women's

B1-19

B1-22



B1-35A

3

9B

B

 B1-29

2

B1-31

B1-36A 9E

11 A640 B1-24B

Fuel Oil Storage B1-35

B1-35B



9A

FD

B1-24

9A B1-16B



8" CMU CURB

AIR HANDLING UNIT

Mechanical Room

FD STR-02-B1 STAIR #02 CONNECTOR

2A

5'-0" CLEAR ACCESS AISLE FOR NSTAR

10" HIGH CONC. CURB AT TANK SUPPORTS

9B





2

3

A581

A581

R17

R1

GALV. STEEL GRATING

1

1'

NOTE: 2"X4" TRENCH CAST INTO FLOOR SLAB AT ENTIRE SLURRY WALL PERIMETER

 

A.5 1 A303

CHAIN LINK FENCE





LIFT HATCHES ABOVE

FD



O.A.I. Shaft #17 DN

O.A.I. Shaft #17 Up

A.3 A.2

9B



B1-16



9D

B1-31

9D B1-026

9D

B1-21 6C

9B 8" CMU CURB

Vestible

2

B1-29

B1-24C Transformer Access Corridor

8" CMU CURB

A.1

3

9A







2 



3.3

3.5

2

1

A300

A301

 

3.6

1

2

A302

A302

PROVIDE DAMPROOFING AT ALL SURFACE OF AIR SHAFT





3

GALV. STEEL GRATING

SHREDDING CONTAINERS N.I.C. (67 UNITS SHOWN)

A300

03.18.11 Conformed Set

Vestibule

A



R2

REVISIONS # DATE DESCRIPTION

B1-32A

S-02-B1B B1-21A

FD Women's Lockers

(5) TWO-TIER BIKE RACKS (16 EACH)

8" CMU CURB B1-13C

9D

B1-32



R3

3

3 B1-13D FD

Electric Closet B1-33

Men's Locker Rm. 2

2

B1-26

3

B1-21E B1-21D B1-21C B1-21B

B1-18D B1-18E

FD



9B

9A

11

B1-30

B1-30A



B1-24A



Water/Gas Service Room



1



 CG

B1-16A

R4

3

 CG

B1-20

B1-18C

1 A304



FD

Women's Locker Rm.

Vestibule

B1-18B 2A B1-18A Men's Lockers

B1-12 FD



B1-17

(4) TWO-TIER BIKE RACKS (16 EACH)

Electrical Switchgear

FD

A581

B1-02B



B1-20







Ground Water Recharge Storage

1

B1-17

Vestibule

Bike Storage

9E



FD B1-32B

J.C.

B1-15 3

B1-13

B1-33

9D SHAFT ABOVE

2 CG

Transformer Vault

3

CG

B1-27

1 A641

8" CMU CURB

8" CMU CURB

9A B1-02A

R5

CG

B1-13B 3

FD

9D



 CG



CG B1-28

9E



B1-03



S-02-B1A

CG

9A

B1-09

B1-28

B1-30B FD

9D



3



B1-13A 9D



STAIR ENCLOSURE ABOVE



Serv. Elev #14

B1-08A LR Elev #09

1

A303



B1-07A

CG

B1-25

FD

Stair #02 FEC



9A

9D 9D

C

Fire Pump Room B1-25

2

STR-02-B1

B1-09

9D





CG

B1-11

B1-03

ACCESS LADDER AND HATCH ABOVE

Fire Service Access Lobby

Electric Closet

B1 A151



9A

B1-39

B1-39

LR Elev #12



FD

9D

Building Maintenance/ Workshop

B1-06

B1-04



Corridor CG

A308

11

Storage

B1-08B

Storage HR Elev #06



Food Service Storage





LR Elev #11

B1-08C

B1-07 HR Elev #03



B1-36

A305

D.5

A306 11

Corridor 9A

FD

B1-27

LR Elev #08

B1-07B

FD

S-02-B1D  



Furniture Storage

Fire Alarm B1-04

RAMP UP (1:12)



B1-01B

2



3

B1-03B

FD

HR Elev #05

B1-07C



B1-01C

9A

HR Elev #02 Mail Room







FD

B1-03A

 



B1-03A

A.8

Stair #01

S-01-B1

B1-08

Serv. Elev #13

B1-40

S-02-B1C

B1-10

B1-06

15

7' - 1"

Shaft #11

B1-40

5' - 9"

CG

STR-01-B1

 FEC

B1-05

B1-08

9A



Unisex

Garage Elev. #16

S-02-T

IDF Closet

B1-10

Record Archives

5' - 9"

RAMP UP (1:12)



 

B1-03B FD

HR Elev #04

LR Elev #10

Elec. Room



B1-03C

4

B1-36B





RAMP DOWN (8%)

O.A.I. Shaft

Handicap WC

LR Elev #07

3



16

3 9A

B1-07D HR Elev #01

17 Elevator Machine ' - 5 B1-38 " Room



 

B.2

1 A640

Shaft #10

Stair #2 Transfer

CG

R

B1-38 9A

Shaft #07



    9D



B.5

Shaft #06



  A304

Shaft #02

1 A650

Shaft #05

WARP SLAB

9A

11

GATE Shaft #04 Garage Elev. Lobby Garage Elev #15 B1-05

A581



3 9' - 6"

1

1

B1-34 (90,000 GALLONS)





11

A308



" 10



Fire Protection Water Storage

5

SLOPED SLAB ABOVE

RAMP UP (<12%)



'28



RAMP UP (6%)

RAMP UP (3%)



RAMP DOWN (6%)



R

RAMP DOWN (12%)



TRENCH DRAIN

RAMP DOWN (12%)



GARAGE EXHAUST DUCT ABOVE

10' - 4 1/2"

1

 

1.2x

3.3x

4.2x



5.1x



5.5x

5.9x 3

A305

RAMP (1:12 UP )

6.7x

D

11.4



3



6.9x

7.7x





1

8.3x

8.9x



A424



C.5

B1-01A

9.7x

B1-01



Corridor 16

1





5 A504

4



5



6



7



7.6

8



9



10



11





12



Basement B1 Level Plan / B1a Level Plan

Liberty Mutual Home Office Expansion 157 Berkeley Street

CONFORMED SET

SCALE 1/8" = 1'-0"

PROJECT # 09527.00

DATE ISSUED 03.02.11

A1B1

ARCHITECTURE United Dominion Realty Trust 345 Harrison Ave Boston, MA, USA CBT designed a 602-unit apartment complext as a part of the city of Boston’s effort to revitalize the area and connect the vibrant Downtown and the growing South End urban neighborhood. My role served under direct supervision of the lead project architect, Henry Weinberg, involving the latest BIM technology to visualize the predesign methods. One of my tasks was to model each one of wall panels into a family, and then clad the buildings accordingly to the simplify the design intent. This lightened the file size, and allowed for an easy transition into rendering the concepts. The project was completed in 2018, and has 585 apartments in the building, much of which were value engineered through-out the design development process.

MAIN RESIDENTAIL ENTRANCE (HARRISON BUILDING)

LEVEL 3 FLOOR PLAN RESIDENTIAL

LOW INTENSITY GREEN ROOF (Non Accessible)

RESIDENTIAL

RESIDENTIAL RESIDENTIAL

RESIDENTIAL PARKING

RESIDENTAIL DROP OFF

AMENITY RESIDENTIAL

EXISTING CURB LINE

RAMP TO GARAGE ABOVE

BIKE ENTRY

AMENITY TERRACE

LOADING DOCK ENTRANCE PROPERTY LINE PROPOSED CURB LINE AMENITY TERRACE

MAINTENANCE

AMENITY (2 STORIES) AMENITY

AMENITY

RESIDENTIAL RESIDENTIAL

 RETAIL 7' 6" TO UN OF PARK DERSIDE ING ABOV E

BIKES

STAIR

RETAIL

SUPPORT

BUILDING MANAGEMENT/ LEASING OFFICE

LOADING

STAIR

STAIR RETAIL

LOW INT GREE ENSITY N (No n Ac ROOF cessible )

RESIDENTIAL

MAIN RESIDENTAIL ENTRANCE (HARRISON BUILDING)

MECHANICAL SUPPORT

LEVEL 3 FLOOR PLAN

BBY RESIDENTIAL

LEVEL 5 FLOOR PLAN

RESIDENTIAL

LOBBY

LOW INTENSITY GREEN ROOF (Non Accessible)

RETAIL/AMENITY



RETAIL/AMENITY

R



RESIDENTIAL RESIDENTIAL



RETAIL

STAIR

EXISTING CURB LINE

RAMP TO GARAGE ABOVE

BIKE ENTRY

RESIDENTAIL DROP OFF

LOADING DOCK ENTRANCE PROPERTY LINE PROPOSED CURB LINE

AMENITY

MBTA SILVER LINE STOP STAIR RETAIL

MAINTENANCE





RETAIL STAIR





AMENITY TERRACE

RETAIL

STAIR

RETAIL

BIKES

7' 6" TO U OF PAR NDERSIDE KING AB OVE



AMENITY TERRACE

BUILDING MANAGEMENT/ LEASING OFFICE

LOADING

AMENITY

STAIR

STAIR RETAIL

MAIN RESIDENTAIL ENTRANCE (HARRISON BUILDING)

SUPPORT RESIDENTIAL

SUPPORT

RESIDENTAIL DROP OFF

MECHANICAL

LOW INT GREE ENSITY N (No n Ac ROOF cessible )

LOBBY

 MAIN RESIDENTAIL ENTRANCE (WASHINGTON BUILDING)

RESIDENTIAL

LOBBY

LEVEL 5 FLOOR PLAN

RETAIL/AMENITY





RETAIL/AMENITY



RETAIL



RESIDENTAIL DROP

STAIR STAIR RETAIL RETAIL







STAIR

LEVEL 1 FLOOR PLAN

R

ARCHITECTURE Model Making is an integral part of CBT’s design process for competitions, schematic, design development, and marketing presentations. I had the opportunity to collaborate with design teams to create models as quickly, craftily, and efficiently as possible.

Mount IDA, Vet Tech Newton, MA

Mount IDA, Vet Tech Newton, MA, USA

Mecca Residential Complex Mecca, Saudi Arabia

Lecture Hall, Fitchburg State College Fitchburg, MA, USA

URBAN DESIGN Boston Living with Water Design Competition Fort Point’s LIVING BASIN Boston’s Innovation District Ecological Design Response to SLR Give space back to the sea. Cultivate new life in a watery urban basin. Traditional development comes at the expense of the sea: nature is typically erased to make room for people + cities. We recognize opportunities for people + water, cities + nature to co-exist—to live with + in relationship to one another in ways that are socially rich, environmentally resilient, + economically beneficial. FORTIFY with living levees By carving a water basin at the center of the site, we create a place for rising tides. New development at its edges is fortified with multipurpose, living levees—flood infrastructure rendered as new public realm, with promenades, elevated lawns, plazas, terraces. New buildings bring social + urban presence to the basin edge, along with economic opportunity. The levee, too, protects critical assets in the nearby Seaport + at Gillette. ABSORB + ACCOMMODATE water Pockets + bends in the living levees allow for wetlands + aquaculture farms—places that teem with wildlife + act as sponges during high tides + storms. Within the basin, new residential development + public spaces float on water, rising + falling to tidal/lunar cycles, + to storm events. These are made public via elevated walkways, gangways + ramps, docks for kayaks + small boats, + new floating open spaces. Pools, skating rinks, wetland gardens, plazas, farmer’s markets, + play spaces occupy the basin + connect its various shores—celebrating a renewed city life + its watery origins. ADAPT to new conditions In areas with existing development, multi-level walkways offer new experiences of the city, connecting existing neighborhoods to floating buildings + open spaces + providing safe retreats during extreme storm events. Existing buildings can be adapted by changing air right zoning codes + allowing multi-level development up top; thus we preserve historic buildings; move critical building infrastructure out of the flood; increase FAR in exchange for resilient upgrades to the ground floors; and adapt loading docks as energy producing turbine converters to harvest the current of the rising tide. Together, these strategies create social + ecological assets out of living flood infrastructure. They tune new development to the cycles of the sea. They provide existing owners models for retro-fitting + developing assets in ways that add social, cultural, environmental + economic value. Living in water. Living near water. Living with water.

Y

adaptive re-use for resilient upgrades

SOLAR PRODUCTION

CE CREAM

SOLAR PRODUCTION

ROOF FOCUSED DISTRICT ENERGY

ROOF FOCUSED DISTRICT ENERGY

ROOF FOCUSED DISTRICT ENERGY

AMBILICAL DISTRICT ENERGY BLUE + GREEN ROOFS

INCREASED F.A.R

INCREASED F.A.R

INCREASED F.A.R

ROOF TERRACE

ROOF TERRACE

ROOF TERRACE

RETRO-FIT EXISTING CONDITIONS

RETRO-FIT EXISTING CONDITIONS

RETRO-FIT EXISTING CONDITIONS

FLOOD PROOFING

FLOOD PROOFING

GILLETTE POINT

RESIDENTIAL

K

floating farmers market

MULTI-FAMILY RESIDENTIAL

MULTI-FAMILY RESIDENTIAL

TIDAL ENERGY

DRY

DRY

+ WET KAYAK SHACK

2ND LEVEL PEDESTRIAN ACCESS

2ND LEVEL PEDESTRIAN ACCESS

FLOOD PROOFING

BLUE + GREEN ROOFS

GILLETTE POINT

2ND LEVEL PEDESTRIAN ACCESS

DRY

+

+

WET

WET

ACCESSIBLE MARSHLAND

ACCESSIBLE MARSHLAND

KAYAK SHACK

NEW PUBLIC DOCKING

NEW PUBLIC DOCKING

NEW PUBLIC DOCKING

ICE CREAM

FLOATING ARCHITECTURE

ELEVATED PROMENADE + FLOATING LANDSCAPES

site section for flood resilient architecture

ADAPTIVE RE-USE

LEVEE DEVELOPMENT

ABSORB

LEVEE INFRASTRUCTURE AS OPEN LIVING SPACE

RESILIENCE PLANNING resilientSEE PR Toa Baja, Puerto Rico ResilientSEE, an initiative of AREA Research positioned Perkins and Will’s resilience practice and leadership in the global market by providing a collaborative platform. The project created a global alliance committed to designing and rebuilding a resilient, sustainable Puerto Rico.

RESILIENTSEE VULNERABILITIES

1’-3” INFORMAL SETTLEMENTS

500,000 people (15% of the population) live in areas prone to flooding

250,000 homes severely damaged 20 mi.

1% STORM FLOOD ZONE

ELECTRICAL SUBSTATIONS

PUBLIC HOUSING

$65B total economic cost

HOSPITALS

6’-9” MARIA STORM SURGE INUNDATION ELECTRICAL INFRASTRUCTURE

$400M

property damage

36 %

below poverty level

$1.3B

economic damage

13K +

damaged properties

$60M

electrical damage

14K +

flooded hours

RESILIENCE PLANNING Copenhagen Urban Lab 2018 Copenhagen, Denmark In order to solve complex problems, we need diverse perspectives. In the summer of 2018, I was selected as one of eight young professionals to travel to Denmark, and work with a multi-disciplinary team from across the globe to codevelop a toolbox and case study for resilience planning and adaptation that tackles storm surge and sea level rise in Amager Strand, Copenhagen, Denmark.

RESILIENCE PLANNING EAST BOSTON FLOOR PREVENTION WORKSHOP NOAH: Neighborhood of Affordable Housing East Boston, MA, USA This report serves as a summary of community resilience planning and education efforts by NOAH with the goal of alerting East Boston residents and businesses to the threats of Climate Change and sea-level rise and involving the community in addressing them. During the workshop, communitiy members into three exposure zones within East Boston. Residents and planners reflected on what could be done in each neighborhood, and the goal was to listen to the community and how to empower those involved in the conversation. Protection, adaptation, and resilience is recognized as a priority in Boston, and the solutions in these nieghborhoods will enhance the walkways, bike paths, docks, and parks in the region. My role in this project served as the key graphic designer for the report, as well as a community leader for one of the three sites. I also helped with the translation of the report from English to Spanish as well.

East Boston Youth Involvement East Boston, MA, USA

2070 FLOOD ZONES EAST BOSTON

FOCUS AREA 3 FOCUS AREA 2 FOCUS AREA 1

NOTE: This shows the extent and depth of the 1% Chance Flood that East Boston could experience as early as 2070 when the sea level rise compared to 2013 could be 3 feet (from Douglas et al, 2016).

2

DESIGN WORKSHOP REPORT

INFORME DEL TALLER DE DISEÑO

RELEASED FOR DISTRIBUTION: MARCH 2ND, 2019

LIBERADO PARA DISTRIBUCIÓN: 2 DE MARZO DE 2019

A PROJECT OF:

UN PROYECTO DE:

(NEIGHBORHOOD OF AFFORDABLE HOUSING)

(NEIGHBORHOOD OF AFFORDABLE HOUSING)

RESPONDIENDO AL RIESGO

HACIENDO LAS PREGUNTAS CORRECTAS

El taller de diseño de prevención de inundación de East Boston se basa en y complementa otros trabajos de vulnerabilidad climática y planeamiento en la ciudad de Boston, UMass Boston’s Sustainable Solutions Lab, entre otros. NOAH está comprometido a expandir la participación de la comunidad en resiliencia climática-desde educación de riesgos, a planeamiento con soluciones p otenciale s , moviéndo s e ha cia la implementación-par ticipación de los residentes es clave en asegurar que los procesos equitativos con múltiples beneficios comunitarios, estén planeados e implementados.

¿CUÁLES SON LAS PROYECCIONES CLIMATOLÓGICAS PARA EAST BOSTON?

The East Boston Flood Prevention Design Workshop builds on and complements other climate vulnerability and planning work being conducted by the City of Boston, UMass Boston’s Sustainable Solutions Lab and others. NOAH is committed to broad community engagement in climate resilience—from education on risks, to planning potential solutions and moving toward implementation— resident participation is key to ensuring that equitable approaches, with multiple community benefits, are planned and implemented.

ASKING THE RIGHT QUESTIONS WHAT ARE THE CLIMATE PROJECTIONS FOR EAST BOSTON?

WHAT ARE EAST BOSTON’S VULNERABILITIES AND DEPENDENCIES AS A RESULT OF THOSE PROJECTIONS?

HOW IS OUR COMMUNITY PREPARING FOR THESE RISKS?

The City’s Climate Ready Boston final report issued in late 2016 identified three primary climate risks for East Boston: Sea level rise and ocean storms, severe rainstorms and heat. The Workshop focused on threats from sea level rise. We used maps developed at UMass that show estimates of flooding for a 1% chance storm with 3 feet of sea level rise, which is a forecast of potential conditions by 2070.

WHAT CAN BE DONE SOON?

EXTREME TEMPERATURES

INCREASED PRECIPITATION

SEA LEVEL RISE

SEA LEVEL RISE + STORM SURGE

COMPROMISO CON LA COMUNIDAD

RESPONDING TO RISK

BOSTON’S CLIMATE PROJECTIONS

ENGAGING THE COMMUNITY

¿CUÁLES SON LAS VULNERABILIDADES Y DEPENDENCIAS COMO RESULTADO DE ESAS PROYECCIONES?

¿CÓMO SE ESTÁ PREPARANDO NUESTRA COMUNIDAD PARA ESTOS RIESGOS?

¿QUÉ SE PUEDE HACER PRONTO?

El reporte Climate Ready Boston de la ciudad de Boston, publicado hacia el final del 2016, identificó tres riesgos climatológicos principales para East Boston: aumento del nivel del mar y tormentas marinas, tormentas severas y calor extremo. El taller se enfocó en amenazas por aumento del nivel del mar. Utilizamos mapas desarrollados en UMass que muestran estimados de inundación para una tormenta de 1% con 3 pies de aumento del nivel del mar, que es un pronóstico de condiciones potenciales para el 2070.

STORM SURGE

TEMPERATURAS EXTREMAS

AUMENTO DE LA PRECIPITACIÓN

AUMENTO DEL NIVEL DEL MAR

AUMENTO DEL NIVER DEL MAR + MAREJADA CICLÓNICA

PREVENCIÓN DE INUNDACIONES, EAST BOSTON

PROYECCIONES CLIMÁTICAS DE BOSTON

EAST BOSTON FLOOD PREVENTION

MAREJADA CICLÓNICA

EAST BOSTON – PREVENCIÓN DE INUNDACIONES – Taller de Diseño | NOAH (Neighborhood of Affordable Housing)

1

East Boston Flood Prevention Design Workshop | NOAH (Neighborhood of Affordable Housing) 2018

1

PROPOSED SOLUTIONS

SOLUCIONES PROPUESTAS

THINKING DIFFERENT

PHYSICAL APPROACHES

PENSANDO DIFERENTE

ENFOQUES FÍSICOS

When it came time to consider solutions, the teams similarly considered possibilities at multiple scales. Ideas included policy and program strategies as well as physical/built approaches. And solutions covered a range of strategies including protect, accommodate, and even retreat.

•

Increase coastal resilience with solutions that create an active waterfront, available and accessible to all - connecting, not dividing, the neighborhood

•

Incrementar la resiliencia costera con soluciones que creen una línea de costa activa, disponible y accesible a todos – conectar, no dividir el vecindario

•

Develop inviting, multi-use, levees and seawalls — not concrete barriers

•

Desarrollar diques y barreras marinas atractivas y multi-uso – no barreras de concreto

•

Create parks and recreational opportunities while protecting from sea level rise

Cuando tocó considerar soluciones, los equipos, similarmente, consideraron las posibilidades a varias escalas. Las ideas incluyeron políticas y estrategias de programa, así como enfoques físicos/construidos. Y las soluciones también cubrieron un rango de estrategias, incluyendo proteger, acomodar e inclusive retroceder.

•

Crear parques y oportunidades recreativas mientras se protege del aumento del nivel del mar

•

Proteger lugares clave como el Greenway, Maverick Square MBTA Station y Liberty Plaza

•

Mejorar la resiliencia del sistema de transporte, agregar transporte de agua, y hacer que el Blue Line sea más resiliente

POLICY + PROGRAMS •

Protect key places such as the Greenway, Maverick Square MBTA Station, and Liberty Plaza

•

Improve transportation system resilience add water transport, make the Blue Line more resilient

•

Develop a Flood Emergency and Awareness Plan—create a plan and communicate it widely through many channels to reach the entire community

•

Increase Public Awareness of Climate Risks and Solutions—consistently engage stakeholders, partner with existing civic organizations, meet people where they are

•

Increase engagement with the schools and with youth

•

Conduct land use planning and rezoning to promote preferred solutions

•

Build connector bridges over the Greenway

•

Develop funding sources

•

Redesign the Greenway to be floodable

•

Develop and maintain several community “hubs” that offer information, education, volunteer sign-up and coordination, staging for emergency supplies, and shelter during severe storms

•

Think infrastructure as asset: Viewing platforms/cafes on water holding towers, rain garden street borders

•

Inform and coordinate with the City’s 2030 Master Plan

Jeffries Point, Maverick Square, Central Square Team

POLIZAS Y PROGRAMAS •

Desarrollar un Plan de Emergencia y Crear Conciencia-crear un plan y comunicarlo ampliamente a través de muchos canales para alcanzar a toda la comunidad.

•

Incrementar la conciencia pública sobre los riesgos y soluciones climáticas-involucrar sistemáticamente a las partes interesadas, asociarse con organizaciones cívicas existentes, conocer gente donde estén

•

Incrementar el compromiso con las escuelas y con los jóvenes

•

Llevar a cabo planeamiento del uso de suelo y la rezonificación para promover las soluciones preferidas

THINKING OUTSIDE THE BOX •

•

Develop a floating boardwalk into the harbor from LoPresti Park reaching toward Downtown Chelsea Creek, Eagle Hill Team

Look back to look ahead: Unless we act now, we may need to plan for a future when East Boston may become a series of islands again

Harbor View, Orient Heights, Belle Isle Marsh Team

Desarrollar fuentes de financiamiento

•

Desarrollar y mantener varios centros comunitarios que ofrezcan información, educación, coordinación de voluntarios, organización de suministros de emergencia y refugio durante tormentas severas

•

Informar y coordinar con el Plan Maestro 2030 de la Ciudad

PENSAR MÁS ALLA •

Desarrollar un paseo marítimo flotante hacia el puerto desde el Parque LoPresti hacia Downtown

•

Construir puentes de conexión sobre el Greenway

•

Rediseñar el Greenway para que pueda ser inundable

•

Pensar de la infraestructura como un activo: Viendo plataformas/cafés en torres de contención de agua, jardines de agua que bordeen la calle

•

Mirar hacia atrás para mirar hacia el futuro: A menos que actuemos ahora, es posible que tengamos que planear para un futuro cuando East Boston convierta nuevamente en una serie de islas.

Chelsea Creek, Eagle Hill Team

Harbor View, Orient Heights, Belle Isle Marsh Team

Please note: not all team members may be included in photos above

6

Site Tour of Belle Isle Marsh, East Boston, MA, USA

•

Jeffries Point, Maverick Square, Central Square Team

Nota: No todos los miembros del equipo pueden incluirse en las fotos de arriba

6

LEADERSHIP: ULI - LIVING WITH HEAT METRO BOSTON REGION WILL HAVE 90 DAYS OVER 90 DEGREES F. BY 2070

ULI Climate Resilience Committee: In response to the worsening problem of rising temperatures, ULI Boston / New England convened a LWH charrette to develop strategies to deal with the immediate threats to communities during extreme heat events, as well as devise design solutions to mitigate the impact of the rising temperatures predicted by 2070. My role served as a co-author of the development of the technical assistance panel and report - including writing, graphics, and coordination. The ideas contained in the report are representative of the opinions and thought leadership of 70+ industry experts, including engineers, architects, and real estate development professionals, in consultation with community stakeholders. These experts met for a daylong event to develop integrated solutions for a future with increased heat as a frequent and pervasive part of our daily lives. Extreme heat must be accepted in the Metro Boston region and will be more common, the weather is changing, and our communities are at risk; and we recognize that no solution can be all-encompassing. It is our hope that this report can spark conversation, shift our understanding of the possibilities, and reframe the challenges into opportunities as we move forward.

NECN - New England Cable Network - December 2019

Shading Canopy of Dudley Square, Lower Roxbury, MA, USA

Cooling Corridors of Somerville, MA, USA

Cooling Corridors of East Boston, MA, USA

PUBLIC SERVICE: REALIZING RESILIENCE ULI ST. PETERSBURG, FL, USA: SOCIAL EQUITY AND ECONOMIC OPPORTUNITIES

ULI Tampa Bay: A coastal population with more than 3 million people in Florida’s Tampa Bay region is one of the most vulnerable to climate change, and particularly sea level rise. This report offered recommendations for St. Petersburg to be climate resilient that benefit all the residents of the community, regardless of income. The report found that by helping locally owned businesses bounce back faster after extreme storm events, it will have a larger impact on the long-standing disparities between the affluent neighborhoods and parts of the city where low income and minority residents have experienced higher levels of poverty and unemployment. My role in this project was to serve as an expert in resilient development, as well as supporting the design, research, and graphic implementation of the report. I also presented the material to the community of St. Petersburg, FL of which it was well received. This report provided a resilience framework for the region, and led to resilience investments for the city’s future development.

LEADERSHIP: ULI - LIVING WITH WATER ULI BOSTON LIVING WITH WATER THE URBAN IMPLICATIONS REPORT

ULI Climate Resilience Committee: on May 8, 2014, CBT Architects hosted ULI Boston’s “Living with Water: The Urban Implications” program, a half-day design charrette that brought together teams of local experts in real estate and land use including architects, engineers, developers and financers to identify key preparedness strategies to address the impacts of climate change and sea level rise in the Greater Boston area. Teams focused their study on four unique sites of Boston including: The Back Bay, The Innovation District, Revere, and Alewife – to develop a set of best practices which the real estate community and public sector can adopt to improve preparedness and response to the effects of climate change and rising seas. At the end of the day, all teams reconvened to share their findings and solutions which ultimately will be compiled into a comprehensive report for release this September. I helped lead the team and created the graphic content that went viral. The program resulted in a report that generated over 560 million views, over 50 different publication sources (including BBC News and the Boston Globe) and was translated into 10 different languages around the globe.

Dennis Carlberg - Vice President of Sustainability at Boston University

PIKE CANAL

COMMONWEALTH CANAL PARK ALLEY CANAL NORTH/SOUTH CANAL

CONSTRUCTED WETLANDS STORROW CANAL

CANAL FLOOD CONTROL

Axon View of Canals in the Back Bay

Typical Section of Canals in the Back Bay

LEADERSHIP: DESIGN FOR RESILIENCE Learning Lessons for Rebuild by Design

Boston Architectural College: In response to Hurricane Sandy’s catastrophic landfall in October 2012, President Obama’s Hurricane Sandy Rebuilding Task Force launched Rebuild by Design as a design competition to generate solutions to not only the storm’s devastation, but also to long-standing physical and social vulnerabilities now exposed and exacerbated. Rebuild by Design connects design teams with researchers and policy makers as well as residents, businesses, and community-based organizations whom the storm affected. These collaborations enable the teams to develop socially, environmentally, and economically rigorous interventions that better prepare us for a future impacted by climate change. This exhibition showcases the competition’s ten finalists and their detailed design proposals for creating a more resilient region. We brought this exhibition to Boston to engage and educate ourselves and our fellow citizens about our own urban vulnerabilities; to showcase the power of collaborative problem solving and community engagement; and to highlight the forward-thinking work that local organizations are producing to protect us from increasing risk, intensifying storms, and rising seas. Exploring the Rebuild by Design proposals, along with new work from Terreform ONE, opens a window that suggests how Boston could arrive at a safer tomorrow. 320 Newbury Street - BAC

McCormick Gallery - BAC

Shaun O’Rourke - CRO, State of Rhode Island, USA

Terreform ONE Model - BAC

The Dryline, BIG - Rebuild by Design

FACULTY: VISIONS OF LYNN BAC FALL 2016: Resiliency Designing for Change How can planning and design decisions impact the way a community responds to a natural disaster or sea level rise? How can buildings contribute to a more resilient society? This studio sought to address these questions at multiple scales (macro to micro) and from various points of view (social, environmental/ ecological, economic). To do so the studio will considered the city of Lynn as a case study, focusing on applying resilient strategies to the redevelopment of the city’s underutilized waterfront – an area threatened dramatically by sea level rise and other climate change projections. After researching and analyzing the environmental and socio-economic conditions of the area, students tested the potential for resilient design by focusing on a particular building type, and developing it further. Upon completion of the course, the students work was asked to be put on display at the local Lynn Arts Museum, which was then followed by a symposium. The discussion included politicians, stakeholders, residents of the community, and local city municipality Now the city of Lynn has issued an RFP to re-evaluate their waterfront, and to take into consideration the opportunities of climate change.

Instructors: Arlen Stawasz + Tyler Hinckley

Lynn’s Harbor Waterfront

Visions of Lynn Exhibition and Symposium

Students of the BAC planning for Climate Change

FACULTY: NETHERLANDSplanBAC BAC Students Travel to NL to Design for Climate Change In order to design for a climate ready future, we must learn lessons from our past. Climate change calls for a new way of thinking, a new way of approaching problems, and a constructive effort to building a collective consciousness around the issues our planet is facing and will continue to face. In Fall 2019, in collaboration with the Dutch Academy, I cotaught and traveled with a group of 9 BAC students to the Netherlands to learn from some of the most advanced water focused societies in the world regarding Dutch methodologies in designing for climate change. During our travels, we visited several significant resiliency focused projects that address social, economic, and environmental issues in the Netherlands. These projects helped set the stage for the hypothetical concept that the Netherlands could be flooded with 6 meters of sea level rise by 2200, of which some climate experts believe is a distinct scientific possibility. The initial concept was developed by Deltares and imagined by LOLA Landscape Architects of which the students used as a starting point for the studio. The studio concluded in (3) project proposals that test ideas of how our cities will live with water in the centuries to come. The ideas were documented and shared in a BSA Currents article, and the work is still being discussed today. Instructors: Arlen Stawasz + Tyler Hinckley

Student work: Renato Kasai, Sophie Krietman, Molly Schmidt

Site Visit to Dakpark, Rotterdam

Plan B Student Study Models

Site Visit to the Floating Houses of Ijburg, Amsterdam

Site Visit to de Zand Motor, North Sea

FACULTY: CLOUDBURSTS IN COPENHAGEN BAC EDCo Grant: FALL 2017 In the summer of 2017, Tyler and I had won a research grant to travel to Copenhagen, DK to learn how the Danish are planning for climate change. Our exposure to the cutting edge cloudburst projects not only influenced our design thinking within our resilient design studio, but also our professional work with Perkins and Will. Tyler and I visited over 35 projects that are tacking climate adaptation, but the most important learning factorfor us was how the community is involved in project planning each step of the way. THE DANES ESTABLISH A PROJECT OFFICE WITHIN THE COMMUNITY PRIOR TO THE PROJECT BEGINNING. 5 STEPS FOR COMMUNITY PLANNING: 1. 2. 3. 4. 5.

Community + Muncipality Partnering Ground Research in Communities Design Planning Design Implementation Anchoring Community Ability

Instructors: Arlen Stawasz + Tyler Hinckley

Site Visit to Amager Strand

Nyhaven

CPH Plan for Climate Change

Enghaveparken, CPH, TREDJ NATUR

Enghaveparken, CPH, TREDJ NATUR

Hans Tavsens Park & Korsgade, SLA, Rambøll

Interview with Ole Schrøder, TREDJ NATUR

Site Visit to Tasinge Plads, Østerbro with Torkil Lauesen, City of Copenhagen

ACADEMIA THE LOCC (Library of Climate Change)

2080 2012

2040

Population Climate Change Resources

Glaciers Melt

Land Price

Sea Level Rise Major Cities Affected

2012

Mitigation

2040

15% = 0.69mi

2080

15% = 0.69mi

water - stone - harborwalk

5% = 0.21mi water - dock water - harborwalk - bridge - water

orw alk dH arb ose

water - grass - harborwalk

For t

Pro p

10% = 0.46mi

SITE

Poin tC

water - fence - harborwalk

han nel

35% = 1.67mi

5% = 0.21mi Fort Point Channel Harborwalk Total Mileage = 4.62mi

water - harborwalk - pedestrian bridge - water

15% = 0.69mi water - fence - harborwalk

ACADEMIA THE LOCC (Library of Climate Change)

Solar Thermal

PV Shading System

Green Roof Terrace Super Insulated Building Envelope

Observation Deck

Double Interesection Warren Truss

Precast Hollow Core Structural Slab

Concrete Cores

Systems Diagram

FRESH

STALE

FRESH

PV Shading System

STALE

Solar Thermal

Egress + Circulation

Green Roof Terrace

ne

Ju

Super Insulated Building Envelope ACTIVE

21

Dec 21

ACTIVE

Observation Deck

FRESH

STALE

STALE

FRESH

Forced Coolin

Double Interesection ACTIVE Warren Truss

Precast Hollow Core Structural ACTIVE Slab

Radian Heatin

Concrete Cores

Egress + Circulation Photovotaic Shading Strategy

FRESH

STALE

STALE

FRESH

Systems Diagram Passive and Active Ventilation

ne

Ju

21

Dec 21

ACTIVE

ACTIVE

Forced Air Cooling Sy FRESH

FRESH

STALE

STALE

Radiant Flo Heating

ACTIVE

ACTIVE

2100 2080 2040 2012

Passive and Active Ventilation

Photovotaic Shading Strategy

RESEARCH: THE NETHERLANDS John Worthington Ames Fellowship

Policy: To research the political and economical strategies of Dutch policy towards sea level rise. Community: To interview the stakeholders from city planners, architects, and flood resilience group organizations planning for sea level rise. Human Scale: To engage with Dutch communities and residents by analyzing the successes and failures of living with the water.

oosterscheldekering

maeslantkering

haringvlietdam

amsterdam - temporary water-walls

dijks of marken

canal houses of borneo-sporenburg

rem eiland - restaurant

summer dijks

floating houses of IJ Lake

floating houses of IJburg

RESEARCH: BANGLADESH John Worthington Ames Fellowship

railroad slums (climate displaced)

Policy: To research the political and economical strategies of Bangladeshi policy towards sea level rise. Community: To interview the stake holders from city planners, architects, and development research centers effected by sea level rise.

Human Scale: To engage with Bangladeshi communities and residents by analyzing the conditions of living with the flooding.

riverboat transportation

flood resilient housing

flooded villages of chalanbeel

children of dhaka

s.s.s. floating schools

access to education

living off of the rivers

floating agricultural training centers

National Assembly (flood preservation) - Louis Kahn

RESEARCH: NEW ORLEANS, LA, USA Independent Research: 2014 Mississippi River Watershed

Policy: To research the political and economical strategies of Lousiana policy towards sea level rise. Community: To interview the stake holders from city planners, architects, and development research centers effected by sea level rise.

Human Scale: To engage with Lousiana communities and residents by analyzing the conditions of living with the flooding.

Lake Pontchartrain

Recreational Opportunities on the Mississippi River

Crescent Park

Mississippi Delta

Remnants of Hurricane Katrina

Flood Resilient Housing in the LA Delta

Flood Resilient Housing in the LA Delta

Ecological Barriers - Lake Pontchartrain

Flood Resilient Housing - District 9 / Make it Right

RESEARCH: HAFENCITY, HAMBURG, GERMANY Independent Research: 2015

2nd Level Pedestrian Access

Policy: To research the political and economical strategies of German policy towards sea level rise. Community: To interview the stake holders from city planners, architects, and development research centers effected by sea level rise.

Human Scale: To engage with German communities and residents by analyzing the conditions of living with the flooding.

Canals of HafenCity

Water Docks - HafenCity

2nd Level Pedestrian Access

Floodable Landscapes

25ft of SLR

Human Scale - HafenCity

Flood Walls of HafenCity

Living with Water - HafenCity

HafenCity Hamburg Germany

RESEARCH: MIAMI, FL, USA Perkins and Will Innovation Incubator Grant 2015

Recreational Opportunities

Policy: To research the political and economical strategies of Southern Florida’s policy towards sea level rise. Community: To interview the stake holders from city planners, architects, and development research centers effected by sea level rise.

Human Scale: To engage with Southern Florida communities and residents by analyzing the conditions of living with the flooding.

Real Estate Vulnerability

Mining the Ancient Coral Reefs

Remnants of Hurricane Andrew

Canals of the Everglades

Stiltsville, Miami

Temporary Flood Walls

Typical Flooding in Miami

Living with Water Manmade vs. Nature

PERSONAL Beirut Lebanon Sketchbook

ARLEN STAWASZ, ASSOCIATE AIA, LEED AP ND, CPHC, RELI AP Design Management | Thought Leadership | Resiliency Strategy

+1.413.446.4916 arlen.stawasz@gmail.com

Arlen has over ten years of architectural design management and research experience on a variety of project types for various market sectors. He served as the Associate Director of the Resilience Task Force at Perkins and Will, and influenced many projects globally to address climate resilience. Just recently, Arlen led a Technical Assistance Panel with the Urban Land Institute addressing the challenges of extreme heat in the Metro Boston Region. Arlen has considerable experience working with communities targeting social equity challenges and economic development from the risks and vulnerabilities predicted from climate change. In 2013, Arlen was also awarded the John Worthington Ames Fellowship, which allowed him to travel to the Netherlands, Bangladesh, India, HafenCity - Hamburg Germany, New Orleans, and Miami to research climate resilient architecture, climate change policy, and emergency disaster response systems.

EXPERIENCE Perkins and Will, Boston, MA Project Architect | Urban Designer | Resiliency Strategist + + + +

Manage and coordinate design intent on all phases - including technical development, and delivery of projects Direct and develop all BIM Revit efforts of the project - implementation on all phases of documentation Associate Director of the Resilience Task Force leading research and implementation on climate adaptation Co-chair for sustainable steering committee, improving energy performance + climate resilience on all projects

CBT Architects, Boston, MA Architectural Designer + + + + +

02/2011 - 08/2014

Led key strategic and business development efforts for sustainability, resiliency, and AIA 2030 Coordinated multiple projects with the design team, consultants, and clients on Pre-design, SD, DD, CD, and CA Created graphic presentations for client interface from marketing proposals to design interventions Developed and managed BIM Revit design options, worksets, schedules, details, and other project requirements Built physical and digital models for schematic, design development, and marketing presentations

Goody Clancy Associates, Boston, MA Project Coordinator + + + +

08/2014 - 08/2020

02/2009 - 07/2009

Performed construction administration on academic, civic and institutional projects Coordinated with the design team, consultants and client through various phases of CA Managed the organization + review of submittals, RFI’s, bulletins, sketches, and meeting minutes Actively laid out presentation boards for the marketing team

PUBLIC SERVICE ULI Report - Living with Heat, Boston, MA Co-chair, Co-author, + Graphics

11/2019

+ Led the technical assistance panel including stakeholder engagement for extreme heat in Metro Boston + Facilitated and co-authored Living with Heat Report - including public relations ULI National Technical Assistance Panel, St. Petersburg, FL Resiliency Expert + Facilitator + Co-Author

07/2016

+ Delivered resiliency expertise for the climate preparedness efforts with the ULI Tampa Bay District Council + Addressed social equity and economic risks from climate change for the city of St. Petersburg, FL National Disaster Resilience Competition - Capacity Building Initiative, Chicago, IL Resiliency Expert + Facilitator

07/2015

+ Provided resiliency expertise, facilitation, and coordination for the Chicago Resilience Academy + Defined resilience project values, and generated innovative and illustrative ideas for US jurisdictions ULI Report - Living with Water the Urban Implications, Boston, MA Co-Author + Graphics

07/2014

+ Coordinated and co-authored a mini tap conference proceeding to engage stakeholders on climate resilience + Provided written and graphic support for the report reaching over 550 million views and 45 publication sources

FACULTY Boston Architectural College Instructor + Design Critique + + + + +

03/2013 - Present

Resiliency: Designing for Change (Advanced Resilient Design Studio: Lynn and Boston, MA, Atlantic City, NJ) Parallel Studio Exchange with Academie van Bouwkunst: Amsterdam, NL - Fall 2019 BAC City Lab Intensive, 2014-2020 Segment One + Two Portfolio Review Thesis, Degree Project, Advanced + Foundation Studio Reviews

EDUCATION Boston Architectural College - Boston, MA Bachelor of Architecture

08/2007 - 12/2012

Ecole des Beaux Arts - Fontainebleau, France Certificate of Arts and Architecture

Session 2012

Springfield Technical Community College - Springfield, MA Associate Degree in Architectural Technology

08/2004 - 09/2007

SPEAKING ENGAGEMENTS Our Future with Extreme Heat, Turner, Berlin, DE, 07.2020 Defining + Pursuing Resilience, Harvard University, 11.2019 Copenhagen Urban Lab, CPH, DK, 08-2018 Disaster Prep + Mitigation, MassHealthcare, MHFPS, 06.2017 ULI TAP: Social/Econ. Resilience, St. Pete, FL, USA 11.2016 ProAdapt Conference, Cartagena, COL, 05.2016 Boston University Dynamic Cities Conference, 04.2016

BSA CORE - Resilient Design at Perkins&Will, 01.2016 Rising Sea Summit - Adaptation + Resilience 11.2015 ABX 2015 - Boston LWW - Canals in our Cities 11.2015 ABX 2014 - Climate Resilient Housing Prototypes 11.2014 Greenovate Boston - Resilient Tax+Zoning 05.2014 BAC Lecture Series, Boston, MA USA 02.2014 ULI Boston - Thought Leadership Speaker 02.2014

PUBLICATIONS + EXHIBITIONS Giving Water Free Rein - BSA 2019 ULI - Living with Heat - Metro Boston Region 2019 How to Save a Million Lives, co-author, 02-2017 Design for Resilience - Learning Lessons from RBD 2015 ULI - Living with Water - The Urban Implications 2014

Designing with Water - The Boston Harbor Association 2014 BSA Student Design Showcase 2013 NAAB Accreditation - Spring 2012 (Advanced Studio Work) Practice Magazine 2008, 2009 (featured projects) Paris Sketchbook 2008 (Stankowitz Gallery)

HONORS + AWARDS BAC EDCo Travel Grant (Resilient Denmark) 2017 Resilient Miami - Innovation Incubator 2015 Fort Point’s LIVING BASIN - Honorable Mention 2015 BAC Alumni Emerging Designer 2015 John Worthington Ames Traveling Fellowship 2013 Alpha Rho Chai Medal 2013 Degree Project Studio Commendation 2013 Prix Marion Touron Branly de Fontainebleau 2012 A. Anthony Tappe Fontainebleau Prize (France 2012)

William E. Nast Scholarship (Segment 2 Portfolio) 2012 Bob Scagliotti Scholarship 2011 Designers Lighting Forum Scholarship 2011 Richard Painter Scholarship 2009 Kronish Practice Achievement Award 2009 Adeline Fournier Sketch Prize 2009 Glassman Bailey Traveling Scholarship (Paris 2008) STCC Alumni Scholarship 2007

LEADERSHIP Perkins + Will Sustainable Steering Committee 2020 Sustainable Coordinators 2018 Resiliency Task Force 2014-2020

CBT Sustainable Design Group Chair 2014 Co-Chair 2013-2014 Member 2011-2012

BAC Lecture Series Committee Alumni Representative 2012-2016 Student Representative 2008-2012

Urban Land Institute Sustainability Council 2012-2016 Sea Level Rise Committee 2012-2014 Resilience Committee 2014-2018 Co-Chair 2018-2020

BAC Alumni Board Board Director 2014-2016 Member 2012-2013

Atelier (BAC Student Gov.) Past President 2011-2012 President 2010-2011 Treasurer 2009-2010 Student Representative 2008-2009

USGBC Member 2013-2018 Boston Society of Architects CORE Co-Founder 2015-2020 Member 2012-2020

BAC Committee Ames Scholar Panel 2014 Board of Trustee’s 2010-2011 Executive Committee 2010-2011 Co-Chair of S.D. Committee 2010-2011 Sustainability Council 2009-2011 Finance Committee 2009-2010 Mem + Nom Committee 2008-2009

SOFTWARE Revit 2020 Autodesk Render 360 Google SketchUp Rhino AutoCAD 2020

AIAS BAC Chapter Member 2007-2008

FABRICATION Adobe Suite ArchVision Lumion 3D Artlantis Newforma

Bluebeam Revu BIM 360 Field Microsoft Apps Microsoft Teams Zoom + Google Hangout

Lasercutter - Universal 3D Printing - Makerbot 3D Printing - Creality3D CR Carpentry - All Phases