2022 Portfolio - Eric Reynaert by Graceful Shark Design Studio

DESIGN

S U S TA I N A B I L I T Y

COMMUNITY

ERIC REYNAERT ARCHITECTURE PORTFOLIO Select Works From 2017 - 2022

ERIC REYNAERT LEED Green Associate Over 5 Years of Professional Experience Bachelor of Architecture 5 Year Accredited Degree +1 (520) 440 8500

eric.ernst.reynaert@gmail.com I am a motivated architectural designer who is passionate about how the relationship between the natural and built environments inform thoughtful design. I strive to create inspiring spaces that utilize natural elements to present sustainable and sensitive a r c h i t e c t u r a l s o l u t i o n s t h a t i m p r o v e o u r c o m m u n i t y.

SELECTED WORKS PROFESSIONAL PROJECTS A MARITIME SCIENCE BUILDING

B F O R E N S I C B E H AV I O R A L H E A L T H H O S P I TA L

C WWU ENGINEERING BUILDING

D W. M . K E C K S C I E N C E C E N T E R

ACADEMIC PROJECTS E U N I TA R I A N C H U R C H C A M P U S

F TUCSON 2050 MASTER-PLAN

G S O N O R A N A R T I S T R E T R E AT

PROJECT | MARITIME SCIENCE BUILDING

Project Phases: DD,CD

2019

15,500sf

Astoria, OR

The Maritime Science Building will elevate the recognition of Clatsop Community College’s coastal educational program as it continues to grow into the most comprehensive industrial and marine technology center in the Pacific Northwest. This new 15,500 sf facility will house general and specialized classrooms including a machine room, offices, conference space and other instructional and building support spaces for their Maritime Science, coastal resources, environmental studies, scientific research training and Industrial and Manufacturing Technologies career and technical academic and training programs. 4

M A R I TI M E SC IENC E BU ILDIN G

CONCEPTUAL APPROACH

Project Contribution: Assisted project architect with overall project design, production of 3D models, drafting of DD and CD document sets, LEED reporting, coordination with consultants, presentation quality renderings, and interior detailing.

S T R U C T U R A L 6

M A R I TI M E SC IENC E BU ILDIN G

D I A G R A M

M A R I TI M E SC IENC E BU ILDIN G

P A S S I V E

V E N T I L A T I O N

M A R I TI M E SC IENC E BU ILDIN G

C O N C E P T U A L

S E C T I O N

P E R S P E C T I V E 11

N O R T H 12

E L E V A T I O N

M A R I TI M E SC IENC E BU ILDIN G

EAST

E L E VAT IO N

S O U T H

E L E V A T I O N

WE S T

E L E VAT IO N 13

PROJECT F O R E N S I C B E H AV I O R A L H E A LT H H O S P I TA L

Pre-design

2019

Lakewood, WA

Western State Hospital is committed to establishing a forensic service that embodies the recovery model of care. Providing a new facility that serves contemporary standards of care is a central consideration in the redevelopment of the campus. This pre-design study was done to explore a modular design configuration for WSH’s forensic hospital. It focuses on scale-able design, site lines, and a connection to nature. 14

WS H F O R E N S IC BEH AV IO R AL H O SPI TAL

DESIGN OPTION B D E S I G N C O N F I G

U R A T I O N

PROGRAM

DESIGN OPTION C D E S I G N C O N F

RESIDENT

I G U R A T I O N

PROGRAM

Residents

Staff

Treatment

Shared Space

Open Space

STAFF

P R O G R A M

BUDGET STUDY DESIRED PROGRAM 97,400 gsf | 54,500 asf

MAX BUDGET Total: 60 Modules

70,700 gsf | 39,600 asf

33 Modules

6 Modules

A N D

Mo du le s Mo du le s

SPACE TYPOLOGIES SPACE TYPOLOGIES

Mo du le s

Industry Learning Core SPACE TYPOLOGIES SPACE TYPOLOGIES -CS Course Labs -CS Course Labs

Industry Learning Core Industry Learning Core -CS -EE Course Course Labs Labs

-EE Course Labs Industry Learning Core -EE Course Labs Industry Learning Core -Research Labs

Total: 32 Modules 15 Modules

Instrospective Office Instrospective Office Instrospective Office -CS Faculty Offices -CS Faculty Offices -CS -EE Faculty Faculty Offices Offices

6 Modules

-EE Faculty Offices -EE Faculty Instrospective Office Instrospective Office -Tech OfficesOffices

3 Modules

Collaborative Hub Collaborative Hub

-Tech Offices Offices -Tech -Administration -CS Faculty Offices -Administration -Administration -TA Rooms -EE Faculty Offices -TA Rooms -TA Rooms -Tech Offices -Administration -TA Rooms

Collaborative Hub Collaborative -Events Space Hub -Events Space Space -Events -Conference

-Conference -Conference -Commons Collaborative Hub

5 Modules

resources, community connections, and environmental conditions.

3 Modules

-Research Labs -Research Labs -Server Rooms -CS Course Labs -Server Rooms Rooms -Server -EE Course Labs -Research Labs -Server Rooms

-Commons -Commons -Events Space -Conference Learning -CommonsSpaces Learning Spaces Learning Spaces Learning Spaces -Classrooms -Classrooms -Classrooms

Western Western Western Washington Washington Washington Western WesternUniversity Washington Washington University University / Electrical /University University /Electrical Electrical Engineering /Engineering /Electrical Engineering Electricaland Engineering Engineering and and Computer Computer Computer and and Science Science Computer Computer Science Building Building Building Science ScienceBuilding Building

12 Modules

Pl a nni ng Pl a nni ng B U D G E T A N A L Y S I S Pl a nni ng BASE BUDGET

Visioning and Investigation Visioning and and Investigation Investigation Visioning Our team will begin the process with Our team begin process with Our team will willvisioning begin the theand process with an extensive investigation an visioning and Visioning and Investigation an extensive extensive and investigation investigation phase. Thesevisioning two activities will occur phase. These These two two activities activities will will occur occur phase. concurrently, the information Our team will and begin the process with concurrently, and and the the information information concurrently, gathered will visioning be synthesized to inform an extensive and investigation gathered will will be be synthesized synthesized to to inform inform gathered phase. These two activities will occur the design direction. We will work the design design direction. direction. We We will work work 53,500 gsf | 30,000 asf Total: 42 Modules the will concurrently, and the information with WWU’s stakeholders to develop with WWU’s stakeholders to develop with to develop a set WWU’s of guiding and gathered willstakeholders beprinciples synthesized tokey inform a set of guiding principles and key a setdesign ofdrivers guiding principles andwork key design that willWe inform the 20 Modules the direction. will design drivers drivers that that will inform inform the the design development of thewill prototype. with WWU’s stakeholders to develop development of of the the prototype. prototype. development a set of guiding principles and key Eric Wilson, Tom Hier Carlthe Hampson design drivers that willand inform Eric Wilson, Tom and Hampson Eric Wilson, Tom Hier Hier and Carl Carl Hampson will lead visioning exercises, which will development of the prototype. will lead lead visioning visioning exercises, which will will will exercises, which engage the stakeholders in a series engage the the stakeholders stakeholders in in a a series series engage Eric Wilson, Tom Hier and Carl Hampson of interactive workshops to define of interactive interactive workshops workshops to to define define of will parameters lead visioning which will the of exercises, interdisciplinary the parameters of the parameters of interdisciplinary interdisciplinary education, opportunities for engage the explore stakeholders in a series education, explore opportunities for education, explore opportunities synergies between the two of interactive workshops to programs, definefor synergies between the two programs, synergies between theunderstanding two programs, and develop a deeper the parameters of interdisciplinary and develop develop a a deeper deeper understanding understanding and of the academic objectives for thefor education, explore opportunities of the the academic academic objectives objectives for for the the of synergies between programs, project. The resultsthe andtwo findings project. The The results results and and findings findings project. and develop a deeper understanding of these sessions will formulate the of these sessions will formulate the of the these sessionsobjectives will the guiding principles andformulate conceptual of academic for the guiding principles and conceptual guidingfor principles and conceptual 10 Modules drivers theresults overall project. project. The and findings drivers for the overall project. drivers the overall project. the of thesefor sessions will formulate While the visioningand efforts proceed, guiding principles conceptual While the visioning efforts proceed, While visioning efforts proceed, we willthe be spearheading a robust drivers for the overall project. we will be spearheading a robust we will be spearheading a robust investigatory effort analyzing exiting investigatory effort effort analyzing analyzing exiting exiting investigatory facilities infrastructure while While theand visioning efforts proceed, facilities and and infrastructure infrastructure while while facilities we will be spearheading a robust developing a deep understanding developing a a deep deep understanding understanding developing investigatory effortGuided analyzing exiting of the site issues. by the 4 Modules of the issues. Guided by the of the site site issues. Guided the WWU Institutional Master by Plan, facilities and infrastructure while WWU Institutional Master Plan, WWU Plan, we willInstitutional evaluate siteMaster opportunities, developing a deep understanding we will evaluate site opportunities, wethe willsite evaluate site opportunities, improvements and infrastructure of issues. Guided by the in improvements and and infrastructure infrastructure in in improvements tandem with a keenMaster consideration WWU Institutional Plan, tandem with with a a keen keen consideration consideration tandem we will evaluate site opportunities, of campus planning, shared of campus campus planning, planning, shared shared of improvements and infrastructure in resources, community connections, resources, community connections, resources, community connections, 5 Modules and environmental tandem with a keenconditions. consideration and environmental conditions. and environmental of campus planning,conditions. shared

Learning Spaces -Classrooms

3 Modules

Support Spaces

Support Spaces Spaces Support Support -Storage Spaces -Storage -Storage -Mechanical

-Mechanical -Mechanical Support -ElectricalSpaces -Electrical -Electrical -Storage -Mechanical -Electrical

PROJECT | WWU ENGINEERING BUILDING

Pre-Design

35 35 35

2019

Bellingham, WA

This pre-design for Western Washington University’s engineering building adopted a modular approach to design. First, program modules were established based on the client’s budget and programmatic needs. A grid was then established to create an ordering system for the modules from which a building prototype was developed. From there, an exploration of the project’s conceptual massing was conducted. This modular process allowed for the quick production of various conceptual models that directly relate to the client’s program and budget. 35 35

WW U E N GI NEER IN G BU ILDING

Developing The Prototype Western Washington University / Electrical Engineering and Computer Science Building

WU One of the biggest benefits of utilizing omes on the “prototyping” process is the flexibility iversbuilt into the working diagram of the e building. This allows us to investigate ation the opportunities that site selection ogram x, may bring to the overall project mission. s of eneralA Proposal well-conceived prototype can adapt flexible d to and morph to the unique conditions of e each site scenario, potentially leveraging e

adjacent infrastructure or complimentary ldingacademic and service offerings.

s and mplementation willFollowing a comprehensive analysis he areprototype process advances the sites, the reliminary programming effort by prototype will be g of potential nkingtested it with aand multifaceted predesign adapted to the preferred pproach. Each investigation will ons. willwegive the team the formlocations. the other andThis together ill define an ideal to model forvet the the pros and cons of ysis flexibility fully olocation of Electrical Engineering uld each potential site with an actual test fit. nd s Computer Science. The resultant Thewill fundamental DNA of the prototype rototype become the roadmap nd It will provide er implementation. concept will be fixed, abut the shape echanism for developing a working ing and form are completely malleable ost t model, which will assist WWU to respond todesign the site and functional defining the basis of ms” r each site. One of the tangible needs. This allows us to maintain the genefits needsof this overall approach is fundamental organizing and operational e opportunity to extend this upfront uickly of the concept while allowing fort strategies to the implementation phase. ties nce us a site has been selected, we can to explore a variety of architectural pidly ss will develop a framework for the manifestations by the uilding utilizing the same influenced planning emic PROTOTYPE A odule prototype. unique ead to that Ddrove E characteristics, V Ethe LO P I N G A Pconstraints, ROTOTYPE timize opportunities ofaeach site. nally,and design is an art as well as cience. uare Merely assembling a prototype oes al ofnot a make it architecture. Through

Design Adaptation

cost model, which will assist WWU in defining the basis of design for each site. One of the tangible benefits of this overall approach is theEopportunity toHextend S TA B L I S I N G this A upfront GRID effort to the implementation phase. Once a site has been selected, we can rapidly develop a framework for the building utilizing the same planning module that drove the prototype.

GRID A

Finally, design is an art as well as a science. Merely assembling a prototype does not make it architecture. Through its materiality, composition, proportions and craft, the final buildings should be uplifting environments for both students and faculty, well crafted, durable, and provide lasting value to Western Washington University and the surrounding community.

GRID B

PROTOTYPE B

EXPLORING CONCEPTUAL MASSING

PROJECT | W.M. KECK SCIENCE CENTER

Project Phases: DD,CD,CA

2020-2022

McMinnville, OR

T he W. M . K e c k Sc i en c e C en ter wi ll c reat e an int erdiscipl inar y, research- based ST EM co mple x f o r L i n f i e ld U n i ve rs i ty with r o o m f o r f u t u r e gro wth . Th e pro j ec t i ncl udes a 34,000 square foot new addit ion, a s u bs tan ti al re n o vati o n o f Graf H a l l tha t i n c lu d e s a vo lu n tar y sei sm i c u pgrade, and a moderat e renovat ion of Murdo ck H all. T h e pro j e ct w i ll pro vi de new te ac h in g a n d researc h labo rato r y space for t he Depar t ment s of B iol og y, Chemist r y an d P h y s i cs , n e w clas s ro o ms , fa cul ty o f f i c e s , a large m u lti pu rpo se ro om t hat al so ser ves as a F er ment at ion L aborato r y, an d a w e lco mi n g lo bby. 18

W. M . K E C K SC IEN C E C ENTER

Floor Plan Diagram 07.29.2021

S E C O N D

F L O O R

FACULTY/ STUDENT RESEARCH

1,052 SF

434 SF

P L A N

OFFICE

STUDENT STUDY

OFFICE

129 SF

61 SF

115 SF

117 SF

C R E AT E

E N T RY

N O D E S

OFFICE 118 SF

BREAK AREA / STUDENT STUDY

OFFICE

CONFERENCE ROOM

279 SF

426 SF

122 SF

WORK ROOM

TELECOM (IDF)

71 SF

STUDENT STUDY

GENERAL PHYSICS (E&M)

GENERAL PHYSICS SUPPORT

GENERAL PHYSICS (INTRO MECHANICS)

1,207 SF

265 SF

1,254 SF

STUDENT STUDY

191 SF

ELECTRICAL

138 SF

GRAF ADDITION

NEW BUILDING

OFFICE

124 SF

TISSUE CULTURE

121 SF

FACULTY/ STUDENT RESEARCH

219 SF

OFFICE

115 SF

896 SF

MEN EQUIPMENT ROOM

FACULTY/ STUDENT RESEARCH

123 SF

120 SF

FACULTY/ STUDENT RESEARCH

OFFICE 127 SF

263 SF

FACULTY/ STUDENT RESEARCH

282 SF OFFICE 120 SF

128 SF

123 SF

WOMEN

OFFICE

115 SF

1,624 SF

OFFICE

339 SF

910 SF

112 SF

OFFICE

STUDENT STUDY

INSTRUMENTAL METHODS/ ANALYTICAL CHEMISTRY

INORGANIC CHEMISTRY

272 SF

OFFICE

GRAF

OFFICE

116 SF

113 SF

FIRST LEVEL LAB COORDINATORS

246 SF

OFFICE

113 SF

122 SF

118 SF

122 SF

118 SF

LAB COORDINATORS

242 SF

Floor Plan Diagram 07.29.2021

CLASSROOM

871 SF

863 SF

WINE SENSORY CLASSROOM

832 SF WINE LAB CENTRAL LOBBY

328 SF

594 SF

AV CLOSET

SUPPORT

SERVICE

274 SF

STUDENT STUDY

ORGANIC CHEMISTRY

INSTRUMENT ROOM

GENERAL CHEMISTRY

1,209 SF

265 SF

1,245 SF

WALK-IN COOLER

109 SF

ELECTRICAL

GRAF ADDITION

NEW BUILDING

STUDENT STUDY

CHEMISTRY PREP/ STOCKROOM

PHYSICS CIRCUITS

CLASSROOM 708 SF

708 SF GRAF LECTURE HALL

898 SF MEN

GENERAL CHEMISTRY

MAIN LOBBY

STUDENT STUDY

1,336 SF

913 SF

WOMEN UP

1,342 SF

STUDENT STUDY

222 SF

ELECTRICAL CLASSROOM 708 SF

DEPARTMENTAL OFFICE

192 SF

OFFICE

117 SF

PHYSICS CLASSROOM

708 SF

JANITOR

GRAF

TERRACE 700 SF

F I R S T

F L O O R

P L A N

ESTABLISH SCIENCE CORRIDOR

Project Contribution: Assisted project architect with overall project design, production of 3D model, drafting of DD and CD document sets, exterior detailing, coordination with consultants during design and CA, r 10e s p o n d i n g t o s u12b m i t t a l s a n d R F15I s , a n d p r e s e n t 17a t i o n q u a l i t y r e n d e r i n g s . E A1

A521

10 MP-3, TYP

MP-3, TYP

A302

A321

A302

MP-3 vertical joint align with SJ below

22' - 7"

A302

A323

25' - 0" 15

MP-3 vertical joint align with SJ below

25' - 0"

A505

vertical joint, TYP

22' - 7"

25' - 0"

A502

A505

MP-3 beyond, TYP

BK-1, TYP

A302

A321

A505 MP-3

MP-3 vertical joint align with MECH screen corner above

(E) Metal fascia

A323

MP-3 vertical joint, TYP

MP-3 vertical joint 12 A1 align with MECH screen corner A521above

(E) Metal fascia

A302

MP-3 vertical joint, TYP

25' - 0"

SRG PA

25' - 0"

A302

A505

MP-3 vertical joint align with SJ below

MP-3 beyond, TYP

BK-1, TYP

MP-3 vertical joint, TYP

25' - 0"

621 SW CO PORTL

A321

D1 A211

A505

SRGPA

A3 A211

25' - 0"

ROOF NEW BUILDING 179' - 0"

A505

A321

D1 A211

ROOF GRAF 174' - 5 5/8"

621 SW CO PORTL

SRGPA

A3 A211

SRG PA

ROOF NEW BUILDING 179' - 0"

A502

SECOND FLOOR NEW ROOF GRAF BUILDING 174' - 5 5/8" 162' - 8"

SECOND FLOOR 161' - 3 7/8"

D4 A214

Replace existing windows W/ WDW-2, TYP all floors all sides

(E) Brick veneer cladding

OVERALL SOUTH ELEVATION

A201 1/8" = 1'-0" (E) Brick veneer

D4 A214

Replace existing windows W/ WDW-2, TYP all floors all sides

cladding

A4 A211

MP-1, TYP CW-1, TYP

Exterior shading, finish to match MP-1

CW-1, TYP

Exterior shading, finish to match MP-1

MP-2, TYP

A4 A211

WDW-1, TYP

Exterior shading, finish to match MP-1

CW-1, TYP

WDW-1, TYP

Exterior shading, finish to match MP-1

CW-1, TYP

GROUND FLOOR 148' - 8 5/8" GROUND FLOOR NEW BUILDING 148' - 0"

MP-1, TYP MP-2, TYP

OVERALL SOUTH ELEVATION

A201

1/8" = 1'-0"

22.7

A302

22.7

A302

A324

19 18.9

A302

19 18.9

A302

A322

MP-3 vertical joint align with brick below 16

A322

A302

C 22

C1 A212

A1 A212

C1 A212

A1 A212

MP-3 vertical joint align with20 SJ below 30' - 0"

MP-3 vertical joint, TYP

MP-3 vertical joint align with brick below

MP-3 vertical joint align with SJ below 30' - 0"

30' - 0"

B5 A505

MP-3 beyond, TYP

ROOF NEW BUILDING 179' - 0"

30' - 0"

WDW-1, TYP

30' - 0"

A505

30' - 0"

C2 A213 A1 A213

WDW-1, TYP

30' - 0"

A505

C2 A213

ROOF GRAF 174' - 5 5/8" A1 A213

MP-3 vertical joint, TYP

REG

MP-3 beyond, TYP

ROOF NEW BUILDING 179' - 0" ROOF GRAF 174' - 5 5/8" SECOND FLOOR 161' - 3 7/8"

LISA P

PORT 3

AT03/1 EO RE TE

SECOND FLOOR NEW BUILDING

162' - 8"

SCIENCE SCIENCE BUILDING BUILDING ADDITION ADDITION

SECOND FLOOR NEW GROUND FLOOR BUILDING 148' - 8 5/8" 162' - 8" GROUND FLOOR NEW SECOND FLOOR BUILDING 161'148' - 3 7/8" - 0"

REG

LISA P GMP DOCU

SECOND FLOOR NEW BUILDING 162' - 8" GROUND FLOOR NEW BUILDING 148' - 0"

SECOND FLOOR GROUND FLOOR 161' - 3NEW 7/8" BUILDING 148' - 0"

CW-1, TYP

MP-2, TYP

OVERALL NORTH ELEVATION CW-1, TYP

WDW-1, TYP

A201

OVERALL NORTH ELEVATION

CW-1

A2 A212

MP-2, TYP BK-1, TYP

1/8" = 1'-0"

W. M . K E C K SC IEN C E C ENTER

WDW-3, TYP

Operable glass partition

BK-1, TYP

MP-1, TYP

WDW-1, TYP

MP-1, TYP GROUND FLOOR NEW BUILDING 148' - 0" 1/8" = 1'-0" A201

PORT Drawing Tit3 AT03/1 EXTERIOR E

WDW-1, TYP

A2 A212

EXTERIOR MATERIAL LEGEND CW-1

GL-# Operable Insulated glassGlazing partitionUnit SJ-#

Movement Joint Cover

BK-1

Brick Veneer Rainscreen

GL-# MP-2 SJ-#

Evo Rivetless Panel System - Acropolis White 211 Insulated Glazing Unit Aluminum Composite Metal Panel Movement Joint Cover Evo Rivetless Panel System - Classic Bronze

MP-1 Aluminum Composite Metal Panel LEGEND EXTERIOR MATERIAL

BK-1 MP-3 MP-1 WDW-1

Brick Metal Veneer Panel Rainscreen Morin Integrity X-12 Panel - Regal White 4318444 Aluminum Composite Metal Panel Evo Rivetless PanelSystem System - Acropolis White 211 Fiberglass Window

CW-1, TYP

GROUND FLOOR NEW BUILDING 148' - 0"

EXTERIOR ELEVATION NOTES WDW-3, TYP

Clean and repair existing masonry

CW-1, TYP

GMP DOCU

Drawing sca apply to 30" sheets. Sca Drawing Tit accurate if d EXTERIOR less than th

Revisions

Number sca D Drawing apply to 30" sheets. Sca accurate if d less than th

Revisions

EXTERIOR ELEVATION NOTES 1.

Number

Clean and repair existing masonry

Drawn by EER

111/2" 1/2"

Ceiling, see RCP

SECOND FLOOR 161' - 3 7/8"

2 1/2" 2 1/2"

Window shade, see Ceiling, finish plans Ceiling, see see RCP RCP

C1 C3 A509 A504

Window Window shade, see see shade,

C1 A504

plans SECTION C1finish finish plans

A504

1 hour spray applied fire proofing

C1 C1

A504 A504

WDW-3, TYP

3" = 1'-0"

Brick wall assembly Brick wall assembly B4/A502 B4/A502

1 HR

Sealantveneer Brick Sealant Flashing, paint TYP rainscreen, Dim PT

colorPT P-2 Dim 7"x6" bent plate, see STRUCT, SECOND FLOOR paint color 161'paint -P-2 3 7/8" Flashing, paint Flashing, color P-2 P-2 color Thermal break material, 7"x6" bent bent plate, plate, Armatherm or SIM, see 7"x6" see STRUCT, STRUCT see STRUCT, paint color P-2 paint color P-2 Fiberglass storefront Thermal break break material, material, Thermal Armatherm or or SIM, SIM, see see Armatherm STRUCT STRUCT storefront Fiberglass storefront 1Fiberglass hour spray applied

DETAIL - STOREFRONT HEAD AT BRICK

proofing ATfire BRICK

SECTION DETAIL SECTION DETAIL -- STOREFRONT STOREFRONT HEAD HEAD AT BRICK 3" = 1'-0"

A2/A502

A504

C2 C2

SECTION DETAIL - MP-1.1 Metal panel assembly TRANSITION TO BRICK Metal panel assembly A2/A502 A2/A502

3" = 1'-0"

Metal panel assembly SECTION DETAIL -- MP-1.1 SECTION DETAIL MP-1.1 A2/A502 TRANSITION TO TRANSITION TO BRICK BRICK 3" = 1'-0"

3" = 1'-0"

Metal panel assembly Metal panel assembly A2/A502 A2/A502

WDW-3, TYP

Fiberglass storefront

B B

SST base flashing, finish Fiberglass Fiberglass storefront storefront to match fiberglass Slab, Slab, see see STRUCT STRUCT

Dim PT

ABick weep vents Flashing, paint color P-3

3" = 1'-0"

Metal panel assembly

3" = 1'-0"

Metal panel assembly A3/A502 A3/A502

MP-1, TYP Column, see STRUCT

SST SST through through wall wall base base flashing, flashing, paint paint color P-2 P-2 GROUND FLOOR color Dim PT NEW BUILDING

Rod and MP-1

Below Below grade grade WP WP membrane membrane

GROUND FLOOR NEW BUILDING 148' - 0"

A2/A502

A1 A1

A504 A504

A504

6" = 1'-0"

A504

SECTION DETAIL BASE SECTION DETAIL -- STOREFRONT STOREFRONT BASE 1 3" = 1'-0"

A2 A2

3" = 1'-0"

Furring channel

WRAB

1 1

A504 A504

Metal plate standoff Transition flashing

MP-2 Mortar net

Flashing, paint color P-3, slope at 105 degrees MIN

Brick veneer STL angle, see STRUCT

Dim PT

Brick weep vents Dim PT

BK-1 "

1/2"

A1/A502 A1/A502 A1/A502

Sealant

Align with face of Flashing, Flashing, finish finish to to match match sunshade MP-3 and and rivet MP-3 rivet to to MP MP

Note: At SIM omit solar shade

A504

Furring channel

C4 C4

MP-3 GYP GYP sheathing sheathing WRAB Furring channel channel Furring

A504 A504

Note: Note: At At SIM SIM omit omit solar solar shade shade

Base closure Exterior Exterior at transition to expansion expansion SJ-1 below joint joint (SJ-4) (SJ-4) Base Base closure closure at transition transition to at to SJ-1 SJ-1 below below

Solar shade

GYP sheathing

Metal panel assembly Metal panel assembly A3/A502 A3/A502

Roof Roof joint joint (SJ-1) (SJ-1) be be

WRAB 6"

WRAB WRAB 6" 6"

Sealant

Brake MTL closure Exterior expansion panel, match MP-1 Exterior expansion joint color(SJ-3) joint (SJ-3) below below

EXT brick parapet wall Sealant Sealant assembly Brake closure Brake MTL MTL Note: REFclosure detail D4/A504 panel, match MP-1 panel, match notation MP-1 EXT for additional EXT brick brick color color parapet parapet wall wall assembly assembly 3" = 1'-0"Note: REF detail D4/A504 wall D4/A504 assembly Note: REFBrick detail for additional additional notation notation for B4/A502

PLAN DETAIL - MP-3 @ EXT JO

C5 C5

PLAN DETAIL PLAN DETAIL -- MP-3 MP-3 @ @ EXT EXT JO JO 3" = 1'-0"

A504

A3/A502

A504 A504

3" = 1'-0"

Furring channel

Brick wall assembly Brick wall assembly B4/A502 B4/A502

MP-3 GYP GYP sheathing sheathing

WRAB channel Furring Furring channel Metal MP-3 MP-3 panel clip

Transition flashing WRAB WRAB

SAM panel clip Metal Metal panel clip Flashing, paint Transition flashing Transition flashing color P-2 and rivet R CMP to R E D ASAM H TE SAM Sealant Flashing, paint LISA PETERSON GROUND FLOOR Flashing, paint color P-2 BUILDING and rivet rivet NEW color P-2 and to MP MP Dim PT to 148' - 0" Sealant PORTLAND, OR Sealant GROUND FLOOR FLOOR 3087 GROUND AT03/12/2021 NEW BUILDING G O BUILDING NEW Base flashing,

Transition flashing WRAB WRAB SAM Metal Metal panel panel clip clip Flashing, paint Transition flashing Transition flashing color P-2 and rivet

Dim PT to MP

BK-1

SAM SAM

finish to match 148' -- 0" 148' 0"TYP MP-3

Drawing Title WALL SECTIONS

A3/A502

Metal Metalpanel Metal panel assembly panelassembly assembly

EXT EXT brick brick wall wall

Metal panel assembly Solar shade

PLAN DETAIL PLAN DETAIL -- CW CW JAMB JAMB @ @ SJ-3 SJ-3 3" = 1'-0" 3" = 1'-0"

3" = 1'-0"

Exterior expansion joint (SJ-3) below

assembly PLAN DETAIL - CW JAMB @ SJ-3 assembly 3" = 1'-0"

Roof joint

18.9 PLAN DETAIL PLAN DETAIL -- MP-3 MP-3 JAMB JAMB AT AT B B 3" = 1'-0" Exterior expansion18.9 18.9 joint (SJ-4)

Solar shade

Metal MP-3 MP-3 panel clip

EO F ORE

D5 D5

A504 A504

EXT brick wall Sealant Sealant assembly

5" 5" xx 8 8 1/2" 1/2" bent bent plate plate Align Align with with face face of of sunshade sunshade

GYP sheathing

A3/A502 A3/A502

A1/A502

A3/A502

6" 6"

B4/A

Rod and sealant

Fiberglass window

3" Rigid INSUL Base Base flashing, flashing, finish Drainage finish to to match match MP-3 composite MP-3 TYP TYP Below grade 3" INSUL WPRigid membrane 3" Rigid INSUL Drainage Drainage composite composite Below Below grade grade WP WP membrane membrane

Brick wall Brick wall (SJ-1)B4/A be B4/A

Flashing, GROUND FLOOR Flashing, paint paint color and NEWP-2 BUILDING color P-2 and rivet rivet to to MP MP 148' - 0" GROUND FLOOR Base flashing, GROUND FLOOR NEW finish match NEWtoBUILDING BUILDING MP-3 TYP 148' -- 0" 0" 148' Sealant Base Base flashing, flashing, finish finish to to match match MP-3 MP-3 TYP TYP Sealant Sealant

SRG PAR

621 SW COL PORTLA

PL-1

SRGPART

Revisions SECTION DETAIL - MP-1.1 BASE SECTION - GRAF AT MP-1 - GRAF WESTDETAIL B4A1 WALL B5MULTI-PURPOSE SECTION DETAILADDITION - CABLE AT BRICK PLAN SECTION DETAIL - MP-1 JAMB ADDITION AT BRICK DETAIL - WINDOW JAMB MP-1 DETAIL AT BRICK SECTION DETAIL - STOREFRONT BASE ANCHOR - MP-3 BASE AT FOOTING SECTION - MP-3DETAIL BASE - WINDOWA5JAMB SECTION DETAIL - BRICK BASE E2 E3WALL E4 PLAN E5 PLAN A2 AT A3 SECTION A4 AT Number Description Date

3" ==1'-0" A322A504 1/2" 1'-0"

Thermal isolation furring

WRAB WRAB

Brake Brake MTL MTL closure closure panel, match match panel, MP-1 MP-1 color color

Vapor Vapor barrier barrier

MP-2

Brick wall

PLAN DETAIL - MP-3 JAMB AT B

Align Align

WRAB

CW-1 CW-1 jamb jamb Brake MTL closure panel, match MP-1 color

3" =A322 1'-0" A504 1'-0" 1/2" 3" = =1'-0"

SECTION SECTION DETAIL DETAIL -- MP-1.1 MP-1.1 BASE BASE AT MULTI-PURPOSE AT MULTI-PURPOSE Semi-rigid 2 mineral 3" = 1'-0" 3" = 1'-0"

wool INSUL where, occurs

MP-3

A504

3" = 1'-0"

A504

3" = 1'-0"

A3 A3

SECTION DETAIL -- MP-3 SECTION DETAIL MP-3 BASE BASE AT AT FOOTING FOOTING 3 3" = 1'-0"

A504 A504

3" = 1'-0"

Dim PT

GWB sheathing

2 2

3 3WRAB

Sealant MFR standard splice joint

Shop assembled 24"x24" miterseam MP-3 corner panel Furring channel

Drawn by EER

A504

3" = 1'-0"

A504

3" = 1'-0"

A4 A4

SECTION DETAIL SECTION DETAIL MP-3 BASE BASE 4 -- MP-3 3" = 1'-0"

A504 A504

3" = 1'-0"

A3/A502

Metal panel assembly

CW-1 jamb Exterior Exterior expansion expansion joint (SJ-3) (SJ-3) joint

Metal panel assembly

3" = 1'-0"

A3/A502

A504

A3/A502

1/2" = 1'-0"

tal panel assembly

A2/A502

WALL SECTION - GRAF ADDITION AT WINDOW DETAIL - MP-2 HEAD AT BRICK E1 SECTION

3/4" 3/4"

Exterior 18.9 expansion18.9 joint (SJ-3) Align Align

Drawing scales indicated apply to 30" x 42" drawing sheets. Scale may not be accurate if drawing plots are less than this size.

tal panel assembly

Metal panel wall assembly

2" Thermal isolation furring Sealant, TYP CW-1 CW-1 Flashing,joint finish to match Sealant Sealant joint MP-3 and rivet to MP 2" 2" Thermal Thermal isolation isolation furring furring Sealant, TYP 5" x 8 1/2" bent plate Sealant, TYP

GMP DOCUMENTS

1/2" Sealant joint

A322

Metal Metalpanel Metal panel assembly panelassembly assembly

B4/A502

A504

C.4 C.4 CW-1 Sealant joint

A3/A502 PLAN PLAN DETAIL DETAIL -- MP-3 MP-3 JAMB JAMB AT AT

1 hour spray applied CENTRAL LOBBY C3 LOBBY SOUTH SOUTH C3 fire CENTRAL proofing A504 3" = 1'-0" Metal panel assembly

3" = 1'-0"

C.4

PLAN DETAIL - MP-3 JAMB AT 2 1/2" 2 1/2" CENTRAL LOBBY SOUTH MIN MIN

Vapor barrier

A ASealant

3/12/2021 3/12/20213:21:08 3:21:08 3/12/2021 PM PM3:21:08 PM

160' - 9"

MIN

Below grade WP 3" Rigid membrane 3" Rigid INSUL INSUL Drainage Drainage composite composite B4/A502

Below Below grade grade WP WP membrane membrane GROUND FLOOR NEW BUILDING 148' - 0"

SST eye bolt and washer Brick wall assembly

STL angle, see STRUCT

GROUND FLOOR NEW BUILDING 148' - 0"

2 1/2"

MP-3 MP-3 Sealed Sealed MTL MTL and and foam closure closure foam

GROUND FLOOR sealant GROUND FLOOR NEW BUILDING NEW BUILDING MP-1 3" Rigid INSUL 148' -- 0" 148'composite 0" Drainage

SST threaded anchor

Cable

3/4" 3/4"

WRAB SECOND FLOOR MP-3161' - 3 7/8" Sealed MTL and foam closure WRAB WRAB

18.9 Align PLAN DETAIL PLAN DETAIL -- CW CW JAMB JAMB AT AT MP-3 MP-3 3" =Align 1'-0"

A1 A504

Brick veneer

Transition flashing

3/4"

Brick veneer rainscreen, TYP

D4 D4

A504 A504

Dim Dim PT PT

Mortar net

MP-1

3" = 1'-0"

Firestopping @ 1 HR separation

A504

WARB

PLAN DETAIL PLAN DETAIL -- MP-3 MP-3 CORNER CORNER 3" = 1'-0"

Sealed Sealed MTL MTL and and foam foam closure closure

Drainage composite Drainage composite Below grade WP membrane 3" 3" Rigid Rigid INSUL INSUL

Brick veneer

D3 D3

A504 A504

148' -- 0" 148'INSUL 0" 3" Rigid

Transition flashing

MP-1 MP-1

148' - 0"

GROUND GROUND FLOOR FLOOR NEW BUILDING Drainage composite NEW BUILDING

Metal plate standoff

A1 A504

BK-1

148' - 0"

WRAB

Thermal break material, Armatherm or SIM, Flashing, paint paint color P-2 Flashing, see STRUCT color P-2 1/2" Sealant joint 1/2" Sealant joint Furring channel Thermal break break material, material, MP-1 Thermal C2 or SIM, Armatherm Armatherm or SIM, A504 see STRUCT STRUCT see Furring channel channel Furring

Transition flashing Transition flashing SST through wall Furring channelpaint base flashing, Furring channel color P-2 Slab, Slab, see see STRUCT STRUCT

SST SST base base flashing, flashing, finish finish to match match fiberglass GROUND FLOOR to fiberglass NEW BUILDING

A543

Transition flashing WRAB WRAB Blind header, bolt, HSS HSS header, see see STRUCT STRUCT Mortar net Transition flashing flashing Transition Brick veneer Blind Blind bolt, bolt, see 7"x6"STRUCT bent plate, paint see STRUCT color MortarP-2, net see STRUCT Mortar net Brick weep Brick veneer veneervents Brick Dim PT 7"x6" bent bent plate, plate, paint paint 7"x6" color P-2, P-2, see see STRUCT STRUCT color Flashing, paint color P-2 Brick weep vents Brick weep vents

WARB Furring channel WARB MP-1 Slab, see STRUCT MP-1

Slab, see STRUCT

B4/A502

HSS header, see STRUCT

Dim PT 1/2" Sealant joint Dim PT

Metal panel assembly

A504 A504

3" = 1'-0"

Brick wall assembly

SECTION DETAIL ANGLE SECTION DETAIL -- BRICK BRICK RELIEF RELIEFWRAB ANGLE 3" = 1'-0"

1/2" 2 1/2" 2 1/2" MIN MIN

MP-3 Sealed MTL and foam closure Flashing, finish to match MP-3 MP-3 and rivet to MP Sealed MTL MTL and Sealant joint and Sealed foam closure closure foam Brick veneer Flashing, finish finish to to match match Flashing, WRAB MP-3 MP-3 and and rivet rivet to to MP MP Semi-rigid mineral wool Sealant joint Sealant joint occurs INSUL, where Brick Brick veneer veneer WRAB D5 WRAB A504 3" = 1'-0" Semi-rigid Semi-rigid mineral mineral wool wool INSUL, where where occurs occurs INSUL,

6" CLR

1 1/2"

4 1/2" 2 1/2"

441/2" 1/2"

C C

Brick veneer rainscreen, TYP

Dim PT

DETAIL - CW JAMB AT MP-3 1/2"

3" = 1'-0"

6"6"CLR CLR

4 3/4" 4 3/4"

Transition flashing HSS HSS header, header, see Blind bolt, see STRUCT STRUCT see STRUCT WRAB WRAB BK-1 Transition Transition flashing flashing Mortar net Blind bolt, bolt, Blind see see STRUCT STRUCT Brick weep vents BK-1 BK-1 Sealant Firestopping @ Mortar Mortar net net separation Dim PT Brick weep weep vents vents Brick

PLAN D4MP-3

A504MP-3 3" = 1'-0"

MIN

PLAN DETAIL PLAN DETAIL -- WINDOW WINDOW JAMB JAMB 3" = 1'-0"

B4/A502

4 3/4"

Firestopping @ 1 HR separation

D2 D2

A504 A504

WRAB

DETAIL - MP-3 CORNER

1/2" 2 1/2"

E5 E5

A504 A504

Brick wall assembly

HSS header, see STRUCT

D1 A504

3" = 1'-0"

Sealant joint

MP-3 Sealed MTL and foam closure

PLAN DETAIL - WINDOW JAMB

A3/A502

Brick wall assembly Brick wall assembly B4/A502 B4/A502

PLAN WRAB D3 WRAB

A504

PL-1

A3/A502 A3/A502

3" = 1'-0"

Brick wall assembly Brick Brick wall wall assembly assembly B4/A502 B4/A502 B4/A502

3" = 1'-0"

GYP GYP sheathing sheathing

PL-1

Metal Metalpanel Metal panel assembly panelassembly assembly

SECTION DETAIL SECTION DETAIL -- MP-2 MP-2 SILL SILL AT AT BRICK BRICK 3" = 1'-0"

B5 A503

SECTION DETAIL - BRICK RELIEF ANGLE

Furring channel Furring channel GYP sheathing 2" Thermal Thermal 2" isolation furring furring isolation WRAB

CW-1

4 1/2"

A504

Brick wall assembly Brick wall assembly B4/A502 B4/A502

Sealant Sealant joint joint

GWB GWB sheathing sheathing WRAB WRAB

3/4"

3" = 1'-0"

4 1/2"

D1 D1

A504 A504

SECTION DETAIL - MP-2 SILL AT BRICK

441/2" 1/2"

A504

B4/A502

MP-2, TYP

Dim Dim PT PT

441/2" 1/2"

B4/A502

Dim PT

WRAB

Shop assembled Sealant 24"x24" miterseam Sealant MFR MP-3 corner panel MFR standard standard splice splice joint joint Furring channel Shop assembled assembled Shop 2" Thermal 24"x24" miterseam 24"x24" miterseam isolation furring MP-3 corner corner panel MP-3 panel

Dim Dim PT PT

A504 PL-1 3" = 1'-0"

3/4" 3/4"

Brick wall assembly

3" = 1'-0"

GWB sheathing

Brick Brick weep weep vents vents

Rod Rod and and sealant sealant Fiberglass window window Fiberglass

PL-1 PL-1

2"2"

3/4" 3/4"

BK-1 BK-1

Brick wall assembly

Fiberglass window

Rod Rod and and sealant sealant Fiberglass window window Fiberglass

PLAN DETAIL PLAN DETAIL -- WINDOW WINDOW JAMB JAMB AT AT MP-1 MP-1 3" = 1'-0"

E4 E4

A504 A504

3/4"

D D

STL angle, see STRUCT Mortar net Mortar net Brick weep vents Brick veneer Brick veneer Dim PT STL STL angle, angle, see see STRUCT STRUCT Brick weep weep vents vents Brick Dim PT PT Dim Sealant joint

-- MP-1 MP-1 JAMB JAMB AT AT BRICK BRICK

where, occurs

MP-3 Semi-rigid Semi-rigid mineral mineral wool wool INSUL INSUL where, where, occurs occurs Sealant MP-3 MP-3 MFR standard splice joint

3"3"

1/2"

Dim PT Flashing, Flashing, paint paint color color P-3, slope slope at at 105 105 P-3, BK-1 degrees MIN MIN degrees BrickPT weep vents Dim Dim PT

1/2" 1/2"

Metal plate standoff Metal Mortarplate net standoff Transition flashing Transition flashing Brick veneer

Semi-rigid mineral PLAN DETAIL E3 PLAN DETAIL E3

wool INSUL A504 3" = 1'-0" A504 3" = 1'-0"

356 W LINFIELD AVE MCMINNVILLE, OR 97218

Thermal isolation MP-2 Thermal isolation furring furring Flashing, paint color Furring Furring channel channel P-3, slope at 105 degrees MIN MP-2 MP-2

D4 A503

WDW-2, TYP

Transition flashing WRAB WRAB

Fiberglass window

3" = 1'-0"

A3/A502 A3/A502

Metal plate standoff

A504

A3/A502 A3/A502

WRAB

6" = 1'-0"

Rod and sealant

PLAN DETAIL - WINDOW JAMB AT MP-1

3" = 1'-0"

Metal Metalpanel Metal panel assembly panelassembly assembly

SECTION DETAIL SECTION DETAIL -- CABLE CABLE ANCHOR ANCHOR AT AT BRICK BRICK 6" = 1'-0"

Furring channel

Rod and sealant

PL-1

PLAN DETAIL - MP-1 JAMB AT BRICK

LINFIELD UNIVERSITY

E2 E2

A504 A504

Thermal isolation furring

A504

Metal panel assembly Metal panel assembly A2/A502 A2/A502

6" = 1'-0"

SCIENCE BUILDING ADDITION

3" = 1'-0"

MP-2 MP-2

SECTION DETAIL - CABLE ANCHOR AT BRICK

SECTION DETAIL SECTION DETAIL -- MP-2 MP-2 HEAD HEAD AT AT BRICK BRICK 3" = 1'-0"

A504

REG

E1 E1

A504 A504

Metal panel assembly Metal panel wall assembly Metal panel wall assembly A2/A502 A2/A502

Dim Dim PT PT

SRGPARTNERSHIP.COM

A1/A502

MP-2, TYP

SECTION DETAIL - MP-2 HEADA504 AT BRICK 3" = 1'-0"

MP-1 MP-1

ROOF NEW BUILDING 179' - 0"

A1/A502

A2/A502

A504

Rod Rod and and sealant sealant MP-1 MP-1

SRG PARTNERSHIP, INC

Metal panel assembly

Metal panel wall assembly

E1 A504

160' 160' -- 9" 9"

MP-1

Metal Metalpanel Metal panel assembly panelassembly assembly

STL angle, see STL see Bick angle, weep vents STRUCT STRUCT Flashing, paint Dim PT Dim colorPT P-3 Sealant Bick vents ROOF NEW BUILDING Bick weep weep vents 1/2" Sealant joint Flashing,179' paint- 0" Flashing, paint color MP-2 P-3 color P-3 Sealant Sealant 1/2" Sealant Sealant joint joint 1/2"

Dim PT Dim PT

Rod and sealant MP-1

621 SW COLUMBIA STREET PORTLAND, OR 97201 503 222 1917

Metal panel assembly

ROOF NEW BUILDING 179' - 0"

EQ EQ EQ

Brick veneer Dim PT Brick veneer

E E

160' - 9" Cable Cable

B4/A502 B4/A502

Brick veneer Transition Transition flashing flashing STL angle, see Mortar net STRUCT Mortar net

SST bolt Brick veneer Brickeye veneer and washer SST SST threaded threaded Cable anchor anchor SST eye eye bolt bolt SST and washer washer and

Brick Brickwall Brick wall assembly wallassembly assembly

Transition WRAB WRAB flashing Metal plate plate standoff Metal Mortar net standoff

Dim Dim PT PT

A3/A502

A503

SST threaded B1 anchor A503

Dim PT

BK-1 BK-1

A3/A502 A3/A502

B1 A503

Metal plate standoff

BK-1

Metal Metalpanel Metal panel assembly panelassembly assembly

A.4

Brick veneer

EQ EQ

A.4

WRAB

A1/A502 A1/A502

B4/A502

Brick wall assembly Brick wall assembly B4/A502 B4/A502 B1

Metal Metalpanel Metal panel assembly panelassembly assembly

Brick wall assembly

4 4

A504

3" = 1'-0"

A5 A5

SECTION DETAIL BASE SECTION DETAIL -- BRICK BRICK BASE 5 3" = 1'-0"

A504 A504

3" = 1'-0"

5 5

21 MP-3 Sealed MTL and foam closure

W. M . K E C K SC IEN C E C ENTER

PROJECT | U N I TA R I A N C H U R C H C A M P U S

M a y, 2 0 1 7

Tucson, AZ

This project is a church campus that serves the local Unitarian congregation. It consists of a sanctuary space, assembly hall, education center, and nature chapel all designed with the intention of leaving as little footprint on the site as possible after the construction. The concept follows the idea of taking the desert surface, folding it up and burrowing below it, preserving the ability for vegetation and natural elements to reside on the ground plane above the building. The project uses only passive environmental control systems to emphasize sustainability and land ethic. 24

U N I TA R I A N C H U R C H C AMP U S

CONCEPTUAL APPROACH

P L A N E

F O L D

B U R R O W

CONCEPTUAL SECTION

W A T E R

H A R V E S T I N G

rology

L O C A L

Vegetation 0

U N I TA R I A N C H U R C H C AMP U S

120

V E

E G E T A T I O N

P A S S I V E

Ventilation 0

120

V E N T I L A T I O N

U P P E R

L E V E L

P L A N

L O W E R

L E V E L

P L A N

3 4

U N I TA R I A N C H U R C H C AMP U S

Cl a s s r o o ms

Library

S o c i a l Ha l l

Sanctuary

I n f o r ma t i o n Ce n t e r

S A N C T U A R Y

E D U C A T I O N

S O C I A L

H A L L 29

S A N C T U A R Y

U N I TA R I A N C H U R C H C AMP U S

E X T E R I O R

Freezer

Storage Pantry

Kitchen

Woman’s Restroom

Men’s Restroom

C O U R T Y A R D

S O C I A L

H A L L

N A T U R E

C H A P E L

Open Space

Water

How can the natural environment coexist with the urban environment to improve quality of life in Tucson?

P R O F E S S I O N A L P U B L I C AT I O N | T U C S O N 2 0 5 0

Published, 2018

Tucson, AZ

This book offers a vision for Downtown Tucson as a growing, thriving, livable community in 2050 that is also carbon and water neutral. The semester-long project was led by one professor and eleven University of Arizona Bachelor of Architecture students including myself. The publications was sponsored by GLHN Architects and Engineers, and supported by six community mentors. The content displayed in this portfolio is my contribution to the body of work. I primarily focused on open space and calculating carbon sequestration, as well as the overall graphic design of the book. The semester concluded with a public exhibit that was featured in Zocalo Magazine and several local news outlets. A digital version of the complete published work can be found at: https://issuu.com/universityofarizonaschoolofarchitec/docs/tucson2050 32

T UC SON 2 0 50

C I T Y

B UI LDI NG

2050 Building Blocks Combined BL O C KS

MAST ERP L A N

S T RAT E G Y

URBAN PARK Tucson has a multitude of large parks, but many are poorly designed. Region-specific improvements will greatly increase their appeal and use less water. ECOLOGICAL CORRIDOR (LEFT) Wildlife Treated Corridor grey water will restore flow to sections of the Santa Cruz River. The resultant influx of plants and animals will help balance Tucson ecologically.

Blocks Combined Blocks Combined

Ecological Corridor

HABITAT RESTORATION

Permeable Surface

Mitigate Heat MARKET Island PLAZA (RIGHT)

URBAN PARK URBAN TucsonPARK has a multitude of large Tucson hasmany a multitude of large parks, but are poorly parks, but Region-specific many are poorlyimdesigned. designed. Region-specific improvements will greatly increase provements their appeal will and greatly use lessincrease water. their appeal and use less water.

These small pockets of xeriscaping throughout the city will improve the quality of the plazas they occupy.

OPEN GREEN SPACE

Urban Greenway

CORRIDOR (LEFT) CORRIDOR (LEFT) ater will restore ater willSanta restore s of the s of the Santa The resultant influx enimals resultant willinflux help will help nnimals ecologically. n ecologically.

AGRICULTURAL PAVILION As the emphasis on community increases with microgrids and GREEN neighborhood cisterns, small INFRASTRUCTURE gardens and farmers’ markets will pop up throughout the city.

2050 Building Blocks Combined

Wildlife Corridor

ZA (RIGHT) ZA (RIGHT) ckets of xerickets hout of thexericity hout the city he quality of the he quality of the cupy. upy.

URBAN PARK Tucson has a multitude of large parks, but many are poorly designed. Region-specific imDOWNTOWN provements will greatly increase their appeal and use less water.

HAB RES

Wildlife Corridor

Mitigate Heat Island HABITAT

Eco

RESTORATION

AGRICULTURAL PAVILION AGRICULTURAL PAVILION As the emphasis on community As the emphasis on community increases with microgrids and increases with microgrids and neighborhood cisterns, small neighborhood cisterns, small gardens and farmers’ markets gardens farmers’ markets will popand up throughout the city. will pop up throughout the city.

ECOLOGICAL CORRIDOR (LEFT) Treated grey water will restore flow to sections of the Santa Cruz River. The resultant influx of plants and animals will help balance Tucson ecologically.

MARKET PLAZA (RIGHT)

Wildlife Corridor

Mitigate Heat Island HABITAT

RESTORATION

Mitigate Heat

Urban Greenway

OPE GRE

Urban Greenway

OPEN GREEN SPACE

Perm

33 25

GRE INF

PROTOTYPING Market Plaza Shaded walkways and Existing Buildings Location Tucson’sMaps vernacular remains similar and historic buildings are restored

xeriscaping bring nature into the city Key Performance Indicators (KPIs)

Mixed Economy

Mixed Use Housing Mixed use development offers housing and commercial opportunities Street Car

1.) 2,523lbs of carbon sequestered annually

A series of small scale economic businesses serve the park

Street car provides low-cost, green transportation

2.) 26,769sf of restoration ecology 3.) 7,782sf of hardscape per sf of green space

Art Installations

Solar Panels

4.) 0lbs of food grown annually

A series of small-scale, competition based art installations 2015 throughout the park

Seperate, shaded pedestrian walkway promotes non-motorized transportation

Panels tied to a battery provide power to the Mercado

1.) 4,044lbs of carbon sequestered annually 2.) 42,904sf of restoration ecology 3.) 760sf of hardscape per sf of green space 4.) 0lbs of food grown annually 2030 Solar Panels

Rainwater Cistern

Panels tied to a battery harvest energy for the city

Storage for water to be used in the Mercado 1.) 13,765lbs of carbon sequestered annually

Community Outreach

Garden used for growing and harvesting Mercado produce

3.) 223sf of hardscape per sf of green space Retention4.) basins miti0lbs of food grown annually gate flooding

Xeriscaping 2050 Region-specific plants capture water and instill a sense of place

Bike Path Seperate bike path allows bikers to commute more safely

Permeable plaza allows water capture and storage

U R B A N

Private Garden

2.) 146,053sf of restoration ecology

Outreach programs are offered by the library to those in need

T UC SON 2 0 50

PA R K

MAR K E T

P L A ZA

PROTOTYPING Ecological Corridor Community farmers Solar Panels Location Maps Panels tied to a neighborhood microgrid Mixed Housing Housing for individuals, families, and multi-families Existing Buildings 2015

The Tucson vernacular remains similar

Description

market promotes outdoor activity Key Performance Indicators (KPIs)

Local Design Competition-driven bridge scheme

Bike Path

1.) 0lbs of carbon sequestered annually

A non-paved bike path along the river

2.) 0sf of restoration ecology 3.) ∞sf of hardscape per sf of green space

Dense Vegetation

4.) 0lbs of food grown annually

Improves air quality and discourages animal movement

1.) 38,867lbs of carbon sequestered annually 2.) 200,034sf of restoration ecology 3.) 162sf of hardscape per sf of green space 4.) 0lbs of food grown annually 2030Art Wall

River Revitalization

A space for community to create together

Pays respect to one of Tucson’s original water sources 1.) 289,098lbs of carbon sequestered annually

Community Garden Land for growing and harvesting food Farmer’s Market 2050An area to trade locally grown food

Recycled Water

2.) 1,487,896sf of restoration ecology

The river runs from water treated nearby

3.) 21sf of hardscape per sf of green space Underground 4.) 0lbs ofcisterns food grown annually provide captured water to the garden

Aquatic Vegetation Plants can survive flooding during monsoons

Two river levels allow constant flow and prevent monsoon flooding

AG RICULT U R A L PAV I L I O N

EC O L O G I C A L CO RRIDO R

C O M M U N I T Y

02 .

M OM C 3.

UNITY GA

RD EN

LE RK A P

O U T R E A C H

“Mesquite pods will be ready for harvest in eight days. They can be used to create flour!”

“The bus will arrive shortly! It is currently stopped at congress and I-10.”

04. URB AN

A AZ

“Welcome to the park! Local air quality is excellent and allergen levels are low.”

1 - Shaded Refuge

“There are currently ten beds available at the shelter. Reserve one soon!”

1 - Food Production

A shelter offering services, and a place to sleep and eat for the homeless.

2 - Social Services

Recyclable items can be exchanged at automated ticket kiosks for bus passes.

2 - Medical Care

The agriculture pavilion offers fresh produce to local communities.

social benefits

Parklets offer protected shaded areas to rest or await public transportation.

1 - Shelter social benefits

RK PA

2 - Food Donation

3 - Accessible Transit

Medical care and other basic needs are given to homeless clients at the shelter.

1 - Clean Air

Homeless clients can volunteer at community gardens for food.

3 - Skill Training

Public transportation allows homeless residents to travel across the city.

Urban parks have increased local vegetation that provides cleaner air.

social benefits

SHELTER 0 1. P

Community gardens educate clients on business and farming techniques.

2 - Recreational Activities

Urban parks create a welcoming environment for the homeless.

3 - Cooling Station

3 - Expression

Cooling stations gather rainwater to treat for drinking and passive cooling.

Clients are able to express themselves via art studios within the shelter.

9 am 800 ft.

6 am

T UC SON 2 0 50

. 1000 ft

12 pm

3 pm 3/4

mi.

6 pm

800

ft.

9 pm

2 0 5 0

P U B L I C

E X H I B I T

PROJECT |S O N O R A N A R T I S T R E T R E AT

D e c e m b e r, 2 0 1 8 Tu c s o n , A Z

The Tucson Artist Retreat is a proposed chapter of the American Academy of Rome located in the Sonoran Desert. The campus consists of twelve residences for visiting professionals, studio space, a dining hall, and a public center in which work produced on the campus is exhibited. The project seeks to capture the diverse perspectives through which one can experience the desert by providing a combination of tectonic and stereotomic architectural solutions. 38

S O N O R A N A RTIS T R ETR EAT

S ITE Key

PLAN

W a t e r sh ed F o o t Tr a i l

P R I V A T E

P a v e d Ro a d Na t u r e P a t h

C O M M U N A L

P U B L I C

S T IN

N PR

Submersion

Framing

Inset

L VA

P R O G R A M A S P R O C E S S I O N

C O N C E P T

Creek

Natural

E X P E R I E N C I N G

Lofted

T H E

D E S E R T 39

P U B L I C

C O M P L E X

M A S S I N G

S O N O R A N A RTIS T R ETR EAT

O R D E R I N G

D I A G R A M S LibraryLibrary Library

LibraryLibrary Library Book Store Book Book Store Store

LibraryLibrary Library

Book Store Book Book Store Store

View ViewView CorridorCorridor Corridor

Exhibition Exhibition Exhibition

View ViewView CorridorCorridor Corridor

Performance Room Performance Room

Performance Room

Performance Room Performance Room

Performance Room

Performance Room Performance Room

Performance Room

Exterior Space Exterior Space

Exhibition Exhibition Exhibition

Exterior Space

Cafe CafeCafe

Exterior Space Exterior Space

Cafe CafeCafe

Exterior Space

Cafe CafeCafe

Exhibition Exhibition Exhibition

D I N I N G

H A L L

S O N O R A N A RTIS T R ETR EAT

L O F T

A B O V E

M A S S I N G E S TA B L I S H

V I E W S

A R T I S T

R E S I D E N C E S

U N I T

S O N O R A N A RTIS T R ETR EAT

U N I T

M A S S I N G

S I T E

P L A N

T H A N K

Y O U

https://www.linkedin.com/in/eric-reynaert-6610aa177/ e ric .e r n s t .re yn a e r t @ g ma il.c o m +1 (520) 440 8500