Matt Tierney - Portfolio

MATT TIERNEY, AIA (EMAIL) MTIER0067@GMAIL.COM (TEL) 651.491.7830

social_impact

2010 ekialo kiona 2012 fish for tomorrow 2014 life boat competition 2013 many nations 2017 KGSA safe house

Instruction

2018 performance ecologies 2019 the new natural city 2019 crafting indegnous ecologies

research

2014 snap shot design tool 2015 integrated project delivery 2017 r&d business plan

competition

2013 ULI competition 2017 ralph rapson fellowship 2017 AIA st. paul prize 2012 eugene city hall 2017 north wood deisgn comp.

professional

2015 jordan middle school 2016 ASK research/practice 2018 gsa de lugo courthouse 2017 MNDOT light rail 2017 Commutator Foundry

EKIALO KIONA CLINIC - 2009 Project Architect type:

Community Health Structures

duration:

2 months on-site/ongoing relationship

location:

Mfangano Island, Lake Victoria, Kenya

organization: size:

Organic Health Response

25,000 sq ft

Located in the “hot zone� of the HIV/AIDS epidemic in Africa, Mfangano island is a community of fishermen and subsistence farmers. Introduction of a non-native fish (nile perch) in 1950 and a foreign fishing industry have created a drifting source of income and a highway for hiv

transmission. The

Ekialo Kiona Community Center has created a cyber HIV testing program, a biodynamic farm program, and a multitude of other community led initiatives all aimed at creating healthy lifestyles for the people of Mfangano while increasing awareness.

On a remote island, without electricity,

basis

running water, roads, or infrastructure,

access

I was confronted with the challenge of

equipment, and the process of navigating

designing and constructing a building

language barriers and cultural/climatic

without the modern design tools I was

differences, I relied on the skills of local

used

on-site

labor and detailed means of documenting

meetings with masons, welders, artisans

design decisions on paper, chalkboards

and a host of other trades formed the

and through photography.

to.

My

sketchbook

and

of

my to

design

process.

commercial

Without

materials

or

Structural calculations for the steel truss design in collaboration with structural engineers in Kisumu.

Solar altitude and azimuth studies of the south side of the island

Operable clerestory ventilation details for diurnal passive cooling

Ekialo Kiona Center which loosely translates to “the whole world� in Suba (After the 6 rainy seasons)

SOLAR BOAT AQUAPONICS - 2011 Project Architect type:

Biodynamic Farming System

duration:

1 months on-site/ongoing

location:

Mfangano Island, Lake Victoria, Kenya

organization: size:

Organic Health Response

800 gallons

By winning a first place prize in the UC Berkeley “Big Ideas Competition� a project seeking to create an unprecedented type of agricultural system in rural Kenya found its funding source. Leading a team of three architecture and landscape architecture students coming from UPenn, and University of Oregon, we traveled to Mfangano Island in Lake Victoria to build a structure with local artisans. Using local materials and labor, this system produces native tilapia, fresh greens, and fruiting vegetables year-round in a semiclosed loop system powered completely by solar energy and constructed under budget.

Above: Plumbing diagram showing flows to tiered planting beds from the ferro cement, buried fishing boat that served as a ready made fish tank. Right: A section through the system showing water flow and return. Tiered planting beds, the profile of a disused fishing boat, solar panels mounted above the beds, and electrical in the hull made this project extremely cost effective and replicable in the community.

The system was one of the first in East Africa to be completely powered by solar and self regulating.

The main structural system used recycled telephone poles and rapidly renewable trees grown locally and kiln dried.

MOBILE HEALTH BOATS - 2014 Competition - Design Team Member Implementation - Project Architect type:

Floating Clinic + Emergency Boat

duration:

2 wk Competition + Implementation

location:

Indonesia + Lake Victoria

organization:

Impact Design + OHR

team:

Bridget Ayers Looby (MLA)

Marco Salmen (MD)

Chas Salmen (MD)

Maureen Ayers Looby (MD)

Claire Lonsbury (AIA)

Katie Mhyre (AIA)

By assembling an interdisciplinary team of architects, landscape architects, and doctors, we sought to tackle a competition brief and produce a real world benefit from our efforts. By looking at how watercraft culture works in multiple different locations around the world, our team derived cross-cultural elements that could be used in a mass customized strategy. We evaluated local ecologies, climate, food production, trade, and the local waterways in parallel with human health needs and non-communicable diseases in multiple countries. The competition design and investigation for Lake Victoria informed the design and implementation of the Organic Health Response’s Emergency Boat which provides emergency service to three different island populations.

USA_ NW Coast

BRAZIL_ AMAZON R.

EGYPT_ NILE R.

KENYA_ LK. VICTORIA

INDIA_ YAMUNA R.

LAOS_ MEKONG R.

climate

craft

economy

nutrition

climate

adapted_boats craft

SE

THE LAND DIVIDES

local_craftsmen economy

WHILE THE SEA WHILE THE SEA THE LAND DIVIDES

UNITES UNITES

Targeting rural, water-based communities has multiple benefits for mobility. Waterways behave consistently, unlike roads and other infrastructure. They also grant access to very remote areas with little access to health care services.

heart disease

40%

of children under five + pregnant women in Southeast Asia suffer from

.18m

1.4m

ANEMIA

4m

obesity

3.6m

1m

NCDs

infectious & parasitic diseases

2.6m

COPD

7.9m

tobacco

1m

chronic respiratory

1.4m

asthma

Maternal & Prenatal Conditions

diabetes

0.3m

1.4m

By outfitting locally crafted boats, with pre-fabricated equipment, this conceptual framework has the potential to preserve tradition, add value to local economic loops, and provide a transferable way to blend into a range of geographic contexts. (See diagram above for examples)

cancer

1.1m

lung

cervix uteri

oral

breast

RO VE D

ECONOMIC M OB IL IT

By international standards, there were only a few accredited hospitals in Indonesia in 2012. This is mainly due to the requirement to keep records. By utilizing mobile units that also provide valuable e-records, multiple parties benefit and a resilient network is defined.

Y

ITY

IMP

H

H LT EA

L TA VI

connecting health_NETWORKS

HEALTH SCREENING

IMPR O NUTR VED ITIO N

SS

% of children suffering from stunting due to malnutrition

L

[MALNUTRITION]

AL IC Y YS IT PH TIV C A

A UR LT T CU AF CR

100%

FI MIC NA RO NC E

ACCE

URE CULT S AGRI VEMENT O IMPR

The root cause of NCDs is an unhealthy lifestyle. Good nutrition, cultural vitality and economic mobility can start to create positive lifestyle changes in this area of the world. (See diagram opposite for more detail)

stroke

Cardiovascular

Communicable Diseases

rigging local_WATERCRAFT

empowering healthy_LIFESTYLE

hypertension

Nutritional Deficiencies

respiratory infections

COMMUN MOBILE ICATIO N

utilizing h20_INFRASTRUCTURE

food_production nutrition

1

1

20mm diam screw hook

2

roll-up marine grade fabric

lagbolt, nut, washer assemblies (x3)

cotter pin for adjustable height

wooden boat ribs

+ Mass customization was used as a method to blend locally sourced water-craft with adaptable medical infrastructure able to deal with a variety of boat shapes, sizes, and local medical needs. marine grade rope wooden boat siding tube steel wooden boat rib

B

A

10mm diam marine rope strapping assembly secured at back

drip edge of roof assembly marine grade rope prefab bent tube steel 20mm x 20mm wooden boat siding tube steel

LIGHTWEIGHT, SHEER RESISTANT SKIN AND TIE DOWN SYSTEM

ope

l

EXPANDABLE DIMENSIONS FOR DIFFERING BOAT SIZES

ADJUSTABLE PRIVACY/WEATHER SHADES PACKAGING METHOD.

Flat packing wereABLE used to to ship materials in long LONG methods BOXES ARE TOfind BE ways TRANSPORTED BY TWO flat boxes or bundles that could be transported on boats to remote PEOPLE. PACKAGES ARE EASILY STORED IN A BOAT areas. Once on site adjustable components put together with simple AND ASSEMBLED ON for SITE WITHofLIMITED TOOLS hand tools allowed a variety shapes and sizes.AND

EXPERTISE.

1

4

5

3

1 2

2

3 7 7

7 7

4 7

5 8

6

6

8

prefabricated chassis

= A A

+

prefabricated chassis 10mm diam marine rope

cotter pin w/ spring 25mm x 55mm tube steel 20mm x 50mm tube steel 10mm diam marine rope 20mm diam screw hook cotter pin w/ spring 25mm x 55mm tube steel lagbolt, nut, washer 20mm x 50mm tube steel assemblies (x3) 20mm diam screw hook wooden boat ribs lagbolt, nut, washer assemblies (x3) wooden boat ribs

After the competition, we used our research and design to create the first Ekialo Kiona Emergency Boat which serves islands around Mfangano with service to the mainland hospitals in Mbita Point.

local boat builders

REGIONAL FABRICATORS

local boat builders

B A 2

2

B A

SYSTEM FABRICA

SYSTEM FABRICA

flexible solar panels marine grade waterproof fabric flexible solar panels marine grade waterproof fabric

sheet metal pre-fab channel w/ lag bolt roll-up marine sheetgrade metalfabric pre-fab channel w/ lag bolt cotter pin for roll-up marine adjustable height grade fabric 10mm diam marine rope strapping assembly secured at back cotter pin for adjustable height 10mm diam marine rope strapping assembly secured at back

drip edge of roof assembly

marine grade rope wooden boat siding tube steel wooden marine boat graderib rope wooden boat siding tube steel wooden boat rib

B B

marine grade rope drip edge of roof assembly prefab bent tube steel 20mm x 20mm wooden siding marine boat grade rope tube steel prefab bent tube steel 20mm x 20mm wooden boat siding tube steel

MANY NATIONS RESTORATION PROJECT 2013 MArch Thesis Project type:

First Nation Urban Headquarters

This

project

was

a

catalyst

in

my

Native American peoples.

development as an architect in how it

to create inclusive, symb

allowed me to navigate complex cultural

connected local riverine an

and ecological constructs in the United

(Once an integral part of th

States using design thinking as a tool to

American life) with innova

create conversation around socio-political

facilities.

Through

multip

duration:

16 weeks

issues often overlooked by the planning

tribal elders, traditional he

location:

Eugene, OR

of our built environment. The approach

american teenagers, boat bu

took a 1930’s steam plant and electrical

of Eugene, the program evol

substation along the Willamette River in

both celebrated native craf

Eugene, Oregon, and transformed it into

giving it an urban venue in a

urban headquarters for Northwest Coast

along the Willamette River.

critic: size:

Brook Muller

55,000 sq ft

It blended program

biotic activities that

nd riparian ecologies

he NW Coast Native

ative digital crafting

ple

meetings

with

ealers, young native

uilders and residents

lved into a space that

ft and culture while

a prominent location

weaving studios

Seasonal ecologies were linked with programming of the building. Traditional First Nation crafts were brought into the public realm and the processes of planting, managing, and harvesting raw materials

became the logic of the landscape. The site turned into a large scale exhibition of both the pre colonial landscape matrix and a modern, publicly accessible recreation space.

photo credit: j naughton

KIBERA GIRLS SOCCER ACADEMY 2009-present

Project Architect type:

Dormitory/School

duration:

2012-present

location:

Kibera Slums, Nairobi, Kenya

organization: size:

KGSA

12,000 sq ft

nutrition + womens health

After the Ekialo Kiona Center construction process, I decided to form a team with other design professionals in the construction and engineering industry that could help bring projects halfway across the world to life. With more control of design implementation and detailing, I was able to deal with the process from

both

an

objective

perspective

while

removed from the context of Kibera and color that with my immersive experience on site.Some elements of the design were iterated intensely to

educational spaces

find solutions that link the project to the place. Supporting local economies and allowing the surrounding context to influence a project has a profound effect on the way the building works, looks, and feels. Other elements of the design are seeded to members of the team and given license to embed their own meaning.

social space

Local artist partner Kevin Bankslave Omondi will collaborate with the girls to design and install a mural on the recessed portions of the north facade facing the main entrance to this neighborhood @ Ngong Rd.

Partnering with a local organization (Alive and Kicking) that builds soccer balls, the design team has worked to change the way they cut out shapes from leather to create scrap material that is assembled into larger mesh screens used throughout the interior of the dormitory.

REVISIONS:

1.1

REVISIONS:

2.1 Existing water tanks

3.1

5920

4.1

5569

5.0

6.0

5569

NOTES: 1. The dimensions of the site were taken on our site visit on 23rd November 2016. 2. Whilst the limits of the site are accurate, the position and size of the surrounding buildings are approximate.

A

W-01

W-01

W-01

W-01

NOTES: 1. All furniture and equipement shown for information only. To be provided by client 2. Counters shown for information only. To be provided by client in future phase.

5500

W-01 W-01

W-01

LEGEND: EXISTING KGSA BUILDINGS

B

5775

TO BE DEMOLISHED BY KENYA RAILWAYS

W-01

D-16

Library

Furniture, not within current scope, typ

Conference Room A

Exterior Terrace

B

D-10

LEGEND:

D-10

D-10

A

Nurse's Office

D-09

D-10

PERFORATED WALL

B.1

B

Existing KGSA School Blocks

A

200MM WIDE BLOCK WALL

B

100MM-150MM WIDE BLOCK WALL (TBD)

1900

W-01

B D-10

D-10

D-05

D-10

D-10

D-08

Furniture, not within current scope, typ

Conference Room

C

C

D-10

Fire Stair

Office Copyright © Orkidstudio Ltd. Except as permitted by written consent of Orkidstudio Ltd, any reproduction of this drawing in any form, of all or part, is prohibitted.

B

B

www.orkidstudio.org Charity Number SC041184 CIC No. 496128 Limited Company in Kenya PVT/2016/013077

A

Office

4800

D-05

All dimensions are to be verified on site. Do not scale from this drawing.

All dimensions are to be verified on site. Do not scale from this drawing.

B

www.orkidstudio.org Charity Number SC041184 CIC No. 496128 Limited Company in Kenya PVT/2016/013077

D-10

Men's Washroom

D

A

800

KGSA Project

KR Housing Development - Exact Boundaries TBC.

Women's Washroom

KGSA Foundation

A

W-01

W-01

W-01

W-01

W-01

W-01

KGSA Project

W-01

KGSA Foundation

E

Site storage space within the classrooms, KGSA to confirm

To be demolished as per Kenya Railways design. This would create a site access road which would benefit us, but they will not demolish this until their buildings are done (currently at foundation level and stopped due to election uncertainties).

D-05

Copyright © Orkidstudio Ltd. Except as permitted by written consent of Orkidstudio Ltd, any reproduction of this drawing in any form, of all or part, is prohibitted.

Kibera,Nairobi-Kenya

Kibera,Nairobi-Kenya

DATE:

SCALE:

1:200

20/04/2017

DRAWN BY:

CL

JM

5900

5550

5550

5500

CN

1.0

KGSA-0010 10000

15000

20000

JM

ARCHITECT:

SITE PLAN

5000

20/04/2017

CL

5500

CN

2.0

5000

3.0

10000

4.0

15000

5.0

20000

6.0

DWG TITLE:

1ST FLOOR PLAN

25000 mm

KGSA-003

25000 mm

1ST FLOOR PLAN

1

SITE PLAN

CHECKED BY:

CHECKED BY:

ARCHITECT:

SCALE 1:50

SCALE 1:100

Ground Floor Cafe / Futbol Pitch (+0) Education/Conference Floor (+1)

REVISIONS:

1.1 2.1 3.1

5920

4.1

5569

5.0

6.0

A

5569

W-01

W-01

NOTES: 1. All furniture and equipement shown for information only. To be provided by client 2. Counters shown for information only. To be provided by client in future phase.

5500

W-01

W-01

5775

Furniture, not within current scope, typ

Dorm Room

Exterior Terrace A

B

Dorm Room

A

B

W-01

B

LEGEND:

D-12

D-12

D-09

A

PERFORATED WALL

B.1

D-12

Sick Bay

A

200MM WIDE BLOCK WALL

B

100MM-150MM WIDE BLOCK WALL (TBD)

1900

W-01

B D-12

D-11

Washroom B

Furniture, not within current scope, typ

Dorm Room

Fire Stair

Dorm Room

Copyright © Orkidstudio Ltd. Except as permitted by written consent of Orkidstudio Ltd, any reproduction of this drawing in any form, of all or part, is prohibitted.

A

4800

D-05

B

D-12

D-12

C

C

D-12 D-05

Dorm Room

D-05

All dimensions are to be verified on site. Do not scale from this drawing. www.orkidstudio.org Charity Number SC041184 CIC No. 496128 Limited Company in Kenya PVT/2016/013077

D

A

800

D-05

A

W-01

W-01

W-01

W-01

W-01

KGSA Project

W-01

KGSA Foundation

E

1

DATE:

DRAWN BY:

1:50

DWG TITLE:

0

SCALE:

Kibera,Nairobi-Kenya

SCALE:

DATE:

DRAWN BY:

CHECKED BY:

1:50

5900

5550

5550

5500

20/04/2017

CL

5500

JM

ARCHITECT:

CN

1.0

0

Site Clearing

2.0

5000

1

2ND FLOOR PLAN SCALE 1:50

10000

3.0

15000

4.0

20000

5.0

25000 mm

Dormitory Floors +2,3

6.0

DWG TITLE:

2ND FLOOR PLAN

KGSA-004

Abstract Improvisation is a process, performance, or development traditionally associated with the arts, language, and human interaction. When reappropriated into a design idiom at the informal urban scale, the seemingly illogical process and products associated with improvisation have the potential to suggest resilient solutions to complex challenges. By tracing the path of a singular resource and its trajectories, intersections, and the relationship between them, this research agenda seeks to understand a pattern language

city

of improvisation within informal settlements as a tool for resilient planning and design. Building upon nearly a decade of work with an

organization

providing

educational

and

economic training for young women in the Kibera Slums of Nairobi, Kenya, the project will leverage its widespread community connections to study the flow of water. Water in all its forms (potable water, grey water, black water) is the inevitable foundation of the public health and infrastructural network in every modern settlement. A wealth of mapping and analytical

district

techniques both “lo-tech” and “hi-tech” would be used to understand these improvisational networks

currently

obscured

by

lack

of

traditional coherence. Techniques may include in situ field study and testing, ethnographic survey/ interview, flows mapping utilizing telemetric GPS tracking devices, existing cell phone technology, analytical computation of qualitative/quantitative data, and the use of aerial drone mapping and/or thermal photography. When used in concert, the combined product(s) of these modes of inquiry could reveal a motif deeply rooted in the human/ urban morphology of place, ultimately suggesting

neighborhood

alternate modes of conceiving and designing resilient, improvisational infrastructures.

Local artist partner Kevin Bankslave Omondi will collaborate with the girls to design and install a mural on the recessed portions of the north facade facing the main entrance to this neighborhood @ Ngong Rd.

Source Material from Map Kibera

See AIA Upjohn Grant Document (appended) for more Information on this project

bio-climatic

approach Climate Checklist research tools

research tools

RESOU RCES

approach

survey tools design tools

Wind

bio-climatic Soil Water

Sun

Aquatic Ecosystems

Wind

Terrestrial Ecosystems

Soil

Domesticated Species

Water library

Aquatic Ecosystems

SNAPSHOT DESIGN TOOL - 2014 role: type:

Lead Researcher Cultural Research/Design Tool

duration:

6 months

location:

Minneapolis, MN

topics:

Cultural Ecologies

Public Interest Design

Rural Healthcare

case studies

a

Terrestrial Ecosystems Domesticated Species

RESOU RCES

RESOU RCES

design tools

S C

C

library

case studies

survey tools

Sun

Social Strutcture aquatic

aquatic

terrestrial

beliefs/religion terrestrial

soil/geology

wind

sun/temp

ecosystems

Climate Checklist

soil/geology

wind

analysis

Precipitation

sun/temp

SI T E CI T E

analysis

Precipitation

SN A P SHOT - a SI T E Socio-Cul CIBio-Climatic TE

communication

construction

economics

~400 MI

~200 MI

RESOU RCES

Contamination Soil

aquifer health Aquatic Ecosystems Pastoralism contamination Poultry

Terrestrial Ecosystems Population Crops Changes Bio Diversity Pets Domesticated Species Disease/death aquatic plants health

Population Changes Bio Diversity Disease/death Pastoralism Poultry Crops Pets

bio-climatic

lake, stream, river, wetland Passive cooling strategies potable/non-potable Orientation altitude/aspect well depth

Daylight hours Avg. temperature earth rainwater construction potential Vegetative cover

heaving/sinking Sun flooding/drought drainage potentialAvg. Speed storms Wind Avg. Direction resistive structure extinction by competition Diurnal Cycle

low mass dams,materials bridges, Seasonal boats, etc Cycle Soil climatefloor changeplan effects crenelated Character by competition Seismic risk lake,Extinction stream, river, wetland Water roads, bridges, Contamination deforestatoin potable/non-potable well Moving/sedentary depth Ecosystems sources Aquatic

water source/food source precipitation Cows, Goats, Sheep, Pigs, other aquifer health rainwater potential

Terrestrial Ecosystems contamination flooding/drought grains, vegetables, root, Changes trees Population storms Domesticated Bio Species Diversity pesticides/fertilizers Disease/death ag system utilized

extinction by competition aquatic plants health household dams,shared bridges, boats, etc foodchange source/water source climate effects Population Changes disease present/strays Bio Diversity Extinction by competition Disease/death roads, bridges, deforestatoin Moving/sedentary Pastoralism Poultry water source/food Crops source Cows, Goats, Sheep,Pets Pigs, other grains, vegetables, root, trees pesticides/fertilizers ag system utilized shared household food source/water source disease present/strays

altitude/aspect Infrastructure Checklist Daylight hours Avg. temperature Vegetative cover Renewable energy Potential Risk of uplift Avg. Speed PassiveAvg. cooling strategies Direction Orientation Diurnal Cycle Seasonal Cycle earth construction Character heaving/sinking Seismic risk drainage potential Contamination resistive structure low mass materials sources crenelated floor plan precipitation lake, stream, river, wetland aquifer health potable/non-potable contamination well depth Population Changes rainwater Bio potential Diversity flooding/drought Disease/death storms aquatic plants health extinction by competition dams, bridges, boats, etc Population Changes climate change effects Bio Diversity Extinction by competition Disease/death roads, bridges, deforestatoin Moving/sedentary Pastoralism water source/food source Poultry Cows, Goats, Crops Sheep, Pigs, other Pets grains, vegetables, root, trees pesticides/fertilizers ag system utilized shared household food source/water source disease present/strays

NAIROBI

communication

MFANGANO

construction

economics

sanitation

energy

water

M. MARA

resistive structure

Renewable energy Potential low Cultural mass materials Checklist Risk ofcrenelated uplift floor plan

access

technology economics

health

KE lat : -1.456 S NY A

~400 MI

~200 MI

communication

sanitation clothing / craft

food/water

energy

beliefs/religion

Social Strutcture

Cultural Checklist

water

Climate Checklist heaving/sinking drainage potential

Infrastructure

access

health

Infrastructure Checklist earth construction

architecture

technology aquatic

soil/geology

food/water wind

communication

economics

clothing / craft construction terrestrial

sanitation

Precipitation

Social Strutcture

beliefs/religion energy sun/temp

aquatic

library Population Changes sources Bio Diversity Water case studies Disease/death precipitation

design tools

Passive cooling strategies Orientation

lat : -1.456 S

Infrastructure

l

MFANGANO

ecosystems

Renewable energy Potential Risk of uplift

NAIROBI

M. MARA

construction architecture

energy

water

access

water

access

terrestrial

Avg. Speed Avg. Direction Diurnal Cycle Seasonal Cycle wind

ecosystems

analysis

soil/geology

Precipitation

Daylight hours Avg. temperature Vegetative cover

sources bio-climatic precipitation research tools Avg. Speed approach aquifer health Avg. Direction contamination Diurnal Cycle Population Changes survey tools Seasonal Cycle research tools SunDiversity Bio Character Disease/death design tools Wind plants health Seismic risk aquatic survey tools

case studies

sanitation

architecture

architecture

technology

SI T E Socio-Cultural CI T E

altitude/aspect Climate Checklist Character Daylight hours Seismic risk Avg. temperature Contamination approach Vegetative cover

library

: -1.456 S long: 35.26 E SHOT - lat a site analytics tool

Infrastructure Checklist

Bio-Climatic altitude/aspect

sun/temp

analysis

technology

clothing / craft

health

food/water

SI T E CI T E

Cultural Checklist

Infrastructure SN A P

MFANGANO

SN A P SHOT -Bio-Climatic a site analytics Socio-Cultural tool

Cultural Checklist

health

food/water

ltural

clothing / craft

Social Strutcture

beliefs/religion

site analytics tool

long: 35.26 E MFANGANO ~400 MI ~200 MI M. MARA

ARUSHA

Infrastructure Checklist

~400 MI

~200 MI

K

NAIROBI

M. MARA

EN Potential Renewable energy YA Risk of uplift Passive cooling strategies Orientation earth construction heaving/sinking drainage potential ARUSHA resistive structure low mass materials crenelated floor plan lake, stream, river, wetland potable/non-potable well depth rainwater potential flooding/drought storms extinction by competition dams, bridges, boats, etc climate change effects Extinction by competition roads, bridges, deforestatoin Moving/sedentary water source/food source Cows, Goats, Sheep, Pigs, other grains, vegetables, root, trees pesticides/fertilizers ag system utilized shared household food source/water source disease present/strays

KE

NY

A

ARUSHA

COMPARISONS

A unique “signature� emerges for each situation. Building + Site

1

4.0

6.0

8.0

10.0

1

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0

People

4.0

5.0

6.0

7.0

8.0

9.0

10.0

8.3 5.0 9.3 5.7 3.1 3.9 35.3

Water 10.0 Politics 9.0 Culture + Context 8.0 Cultural Understanding Safety 7.0 Bio-Climatic Understanding 2 Community Engagement 6.0 Efficiency 5.0 Total Construction Mgmt 4.0 Avg 3.0 2.0 Feasibility + Planning 1.0 Cost Communication 0.0 People

3

3.0

Water Energy Waste Site Construction IEQ Total AVG

IEQ Construction Site Waste Energy Water 0.0

5.9

Energy

8.6 5.0 9.1 6.8 29.5

2.0

8.0

Water 10.0 9.0 8.0 7.0 6.0 5.0 4.0 3.0 2.0 1.0 0.0

Politics

10.0 Safety

3

Community Engagement Bio-Climatic Understanding Cultural Understanding Site

7.4

Construction Mgmt 0.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

10.0 Communication

Politics Construction Safety Construction Mgmt Communication People IEQ Cost

Category

Tier 3

60-80%

Satisfactory

Tier 2

40-60%

Significant Success

Tier 1

20-40%

Marginal Success

Baseline

20%

Pre Requisites Met

2.0

4.0

6.0

8.0

10.0

12.0

2.0

3.0

4.0

6.0

8.0

Total possible

Achieved

Percentage

Tier 4

80-100%

Optimal

Building + Site Community Engagement

60

35.3

59%

Tier 3

60-80%

Satisfactory

Culture + Context

40

29.5

74%

Tier 2

40-60%

Significant Success

Feasibility + Planning

60

42.3

71%

Tier 1

20-40%

Marginal Success

160

107.1

67%

Baseline

20%

Pre Requisites Met

Bio-Climatic Understanding

Totals

2

4.0

5.0

6.0

6.0

8.0

7.0

8.0

10.0

9.0

10.0

10.0

12.0

Water Energy Waste 1 Site Construction IEQ Water Total 10.0 Politics Energy AVG 9.0 Culture + Context 8.0 Cultural Understanding Safety 7.0 Bio-Climatic Understanding 6.0 2 Community Engagement 5.0 Efficiency Construction Mgmt 4.0 Total 3.0 Avg 2.0 + Planning Feasibility 1.0 Cost Communication 0.0 People Communication 3 Construction Mgmt Safety Politics People Total AVG Cost

Cultural Understanding

80-100%

Tier 3

60-80%

Satisfactory

Tier 2

40-60%

Significant Success

Tier 1

20-40%

Marginal Success

Baseline

20%

Pre Requisites Met

6.7 5.0 7.8 4.3 15.8 3.4 43.0

Snapshot Project Combined Rating

IEQ Construction Site Waste Energy Water

Clinic

0.0

7.2

5.0

10.0

15.0

Totals

Politics

20.0

10.0 Waste 10.0 2.9 6.8 Site 29.7 7.4 6.7 7.5 2.5 6.0 6.0 2.5 31.2

4.0

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

2.0

10.0

1.0 Communication

Politics Construction Safety Construction Mgmt Communication People Cost IEQ

Total possible

Achieved

Site

3.0 0.0

0.0

People |

0.0

Waste

5.0 Construction Mgmt

Cultural Understanding

5.2

Energy

6.0

4

Bio-Climatic Understanding

9.0 7.0

Efficiency Community Engagement

Water 10.0 8.0

Safety

Efficiency Bio-Climatic Understanding 60 43.0 Building + Site Community Engagement 40 29.7 Culture + Context

Feasibility + Planning

Bio-Climatic Understanding Community Engagement

1.0

2.0

3.0

4.0

5.0

Construction

IEQ

M A Z Z E T T I

6.0

7.0

Cultural Understanding

Category

Optimal

Tier 4

Construction

Cost

Building + Site

4.0

Site

Cultural Understanding Efficiency

Optimal

80-100%

Waste

IEQ

Efficiency

Tier 4

Energy

People

0.0

7.1

Cost

6.0

Efficiency

Waste

5.3 7.5 7.5 6.0 6.0 10.0 42.3

Communication Construction Mgmt Safety Politics Total AVG

4.0

Percentage

Tier 4

80-100%

Optimal

72%

Tier 3

60-80%

Satisfactory

74%

Tier 2

40-60%

Significant Success

60

31.2

52%

Tier 1

20-40%

Marginal Success

160

103.8

65%

Baseline

20%

Pre Requisites Met

8.0

Cost

Cultural Understanding Efficiency

Bio-Climatic Understanding Community Engagement

se fac t or s int erac t in o r d e s t r u c t i ve w a y s ?

Socio-Natural

Techni-Natural

Water Extraction Housing/shelter Traditional Medicine Diet Disease/Illness Livestock/Pastoralism Farming Clothing Seasonal Movement

Solar Access Avg. Precipitation Avg. Wind Speeds Local Topography Access to site Aquifer Health Fuel Sources

socio-technical Mobile Phones Internet Media Influence Access/Mobility Construction Methods Resistance to tech Knowledge Transfer

PERFORMANCE ECOLOGIES - 2018-Present role:

Adjunct Faculty Instructor

(co teacher) Bridget Ayers Looby, MLA type:

Studio Workshop

location:

UMN, College of Design

Minneapolis, MN

topics:

Cultural Ecologies

Riverine Ecosystems

Representation

Student: Bob Frank

Course Overview: Eddy,

confluence,

deposit,

This

oxbow,

workshop

will

investigate

the

all

potential of using riverine ecosystem

operative words traditionally used to

process, flows, pattern, phenomenon,

describe rivers. When these terms are

and

reappropriated within a design language

Through this, students are provided

they generate architectural/landscape

a lens through which to approach a

typologies, new rules for value, and

design/investigation process in the new

heightened

“natural” world.

deadfall,

drop,

pool,

these

ecological

are

objectives.

Growing Conditions: Depths up to 10’0”. Prefers hard water (high mineral).

Growing Conditions: Underwater from 1’0” to 20’0”

Growing Conditions: Water 6” to 4’0” deep. Prefers semi-hard bottom.

Growing Conditions: Full Sun, 4” Standing Water, Wet Soil

Benefits: Excellent oxygen producer. Habitat for many small aquatic animals.

Benefits: Refuge for small insects. Survives through the winter.

Benefits: Strengthens shorelines. Assists water filtration - purifies water b y absorbing nutrients. Refuge for species.

Benefits: Removes oil, bacteria (E. coli, Salmonella), copper, nickel, zinc. Controls soil erosion. Facilitates substrate oxidation.

morphology

as

design

drivers.

a Waterwee d nad Ca

N

PLANT SPECIES INFO

rn Watermilf oil the or

GEOLOGICAL CONTEXT Plateville Limestone St. Peters Sandstone Sand and Gravel

mmon Rush Co

Celery Wild

FATHER HENNEPIN BLUFF PARK 771.58 ft above sea level

STONE ARCH BRIDGE 25 ft. above water level

XCEL ENERGY WATER POWER PARK 781.10 ft. above sea level

1.5’ - 4.0’

Student: Kerry Kennedy

DEFINING THE RIVER Pike Island Saint Paul, MN

Crosby Lake is approx. 73 acres with 20 different species of fish, making it a popular fishing spot.

The Lexington Bridge connects St. Paul to southern Minnesota. The next bridge is approx. 2.5 miles down the river.

Although this part of the river is 1/10th of a mile, the watershed extends to about half a mile.

The island is named after Zebulon Pike, an explorer that sought to find the headwaters of the Mississippi. On his journey, he purchased land on behalf of the U.S. Government to be turned into a military base. This land is now Pike Island.

An airport built southwest of the confluence has caused worry about groundwater contamination from pesticides, PCBs, jet fuel, and deicing chemicals.

To the Mdewakanton Dakota, Bdote Minnesota (the confluence of the Mississippi and Minnesota rivers) lay directly over the center of the Earth and directly below the center of the universe.

High-end commerical and residential border the river on either side, with the airport to the southwest.

Student: Charlotte Elo

MAPPING THE NEW NATURAL CITY - 2018 role: type:

Visiting Professor Research/Representation Seminar

location:

University of Oregon,

School of Architecture and Environment

Portland, OR

topics:

Cultural Ecologies

Urban Ecology

Cartography

Novel Ecosystems

Infrastructure

Portland [context] Observations

Po

Compi Median Year Built

+Increased development at the outer city limits +City expansion outward increases need of transit infrastructure in order to sustain consumer x producer relationship

Diversity of Building Age

+Development of cheap real estate

Character Score

ortland [context]

Social // Economic Opportunity Very Low

iled Variables

EE E E

E E E E EE E EE

E E

E E E

E EE

E E

E

E

E

E E E EE EEEE E EEEE E E E E EE E EE E E E E EE E E E EE E E E E E E E E E E E EEEE E E E E E E EE E E EE E E E E EE E E E E EEE E E E EE EE E EEEE EEE E EE E E EE E E E E E E EE E E E E E E E E E E E E E EEEE EE E E E E E EEE EE E E E E E E E E EE EE EE E E E E E E E E E E E E E E E E EEE E EEE E E E E E E E EE EE EEE E EE E E E E E E E E E E EE E E EE E EE E E EE E E E EE E E E E E E

E

E

E E EE E

E E

E

E

E E E E

+ Affordable Housing

Very High

Student: Daniel Matallana

Willamette River Valley Basin:

PORTLAND

SALEM

Middle Reach

Mt. Hood

Lower Reach

stream networks

• • •

Confined Basalt trench minimal floodplain “meandering”

•

•

alternates between confined sections and open floodplains river weaves around basalt outcrops Variety of channel types

• • •

Large floodplain “braided” channels highly sedimented

•

ALBANY

CORVALIS

Upper Reach

Willamette River Basin - Streams First Order Streams Second Order Streams Third Order Streams Fourth Order Streams Fifth Order Streams

EUGENE

SPRINGFIELD

Sixth Order Streams Seventh Order Streams Columbia River City Boundaries Cat Earley and Isaac Wimer - Source: Pacific Northwest Ecosystem Research Consortium, 2002 - Willamette River Basin Atlas: Trajectories of Environmental and Ecological Change - http://www.fsl.orst.edu/pnwerc/wrb/Atlas_web_ compressed/PDFtoc.html

Student: Cathrine Earley

Potential EcoDistricts:

building upon community

Sabrina Ortiz Luna and Isaac Wimer - Source: Oregon Spatial Data Library and Portland Maps - https:// spatialdata.oregonexplorer.info/geoportal/ - https://www. portlandoregon.gov/28130

Student: Sabrina Ortiz Luna

CRAFTING INDIGENOUS ECOLOGIES role: type:

Visiting Professor Graduate Level Design Studio

location:

University of Oregon,

School of Architecture and Environment

Portland, OR

topics:

Cultural Ecologies

Post-Industrial Site

Indigenous Craft

Habitat Restoration

ROUGH BRIDGEBASALT THROUGH SECTION BASALT SECTION

BRIDGE SECTION BRIDGE AT SECTION P.I.E.S. AT P.I.E.S. BRIDGE THROUGH BASALT SECTION

BRIDGE AT OBSERVATION BRIDGE BRIDGE SECTION SECTION AT P.I.E.S. AT SECTION OBSERVATION POINT POINT

PRE-HUMAN PRE-HUMAN STORYSTORY

BRIDGE SECTION BRIDGEAT SECTION OBSERVATION BRIDGE AT SECTION REFURBISHED AT REFURBISHED POINT PLANTER PLANTER

PRE-HUMAN HUMAN HUMAN STORY STORY STORY

BRIDGE SECTIO

HUMAN STORY

P.I.E.S.

PRE-HUMAN STORY

POST INDUSTRIAL ECOLOGICAL SAFARI

NATURE

EXHIBITION TWO

EXHIBITION THREE

EXHIBITION ONE

EXHIBITION FOUR

GATHERING SPACE

CULINARY EXPERIENCE

wildlife and plant story.

HUMAN STORY

NATIVE

MODERN STORY

INDUSTRY

RIVER

FALLS

native human story.

the falls formation story.

industrial human story.

kitchen, dining, and classrooms.

events and story telling.

MAIN PLAZA

events and story telling.

P.I.E.S.

post industrial ecological safari

FISHING GROUNDS

modern and native fishing platforms.

IMMERSIVE STREAM HABITAT recreation of salmon breeding grounds.

Students: Cary Chu + Katey Gilbert

5’

20’ 10’

40’

Journey of Water Stormwater Filtration for Use in Garden Filtration, Storage and Recirculation pump room

Planted Rock Filter

Permaculture Terrace

Stormwater Deceleration terraces with native and non-native plantings

Anoxic Reactor

Trickle Filters

Anoxic Reactor

Planted Rock Filters on Perimeter Footprint 10’ 20’

40’ 80’

Clean Water Reuse Tank

Filtration Room

Groundwell Recharge. Land Acknowledgement. site irrigation.

Trickle Filters

Tidal Wetland

5’

20’ 10’

40’

Woodchip Wetland

Denitrification Reactor

Polishing Wetland

Modules in Motion

Open ended Activity

play

Site module migration

Mill O Nest

learn

Base module organization

gather

Service Core

Base Platform

view

Spring open house

Summer cross ventilation

Fall Collaboration

move Winter Bundled

study

5’

20’ 10’

40’

Journey of Water Students: Josh Gabbard and Keean Tom

Stormwater Filtration for Use in Garden

WINTER

SPRING

SUMMER

FALL

Thimbleberry Oso Berry

upland forest flowering/berries

Cluster Rose Holly-Leave Oregon Grape Red-Flowering Currant

NOV

riparian forest flowering/berries

THRE

Richardson Penstemon arrow-leaf wild buckwheat Wild Mock Orange

riparian basalt flowering

CLOUD COVER december 75% overcast

Oregon Sunshine

licorice fern idaho fescue

PRECIPITATION riparian basalt greens

Broadleaf Stonecrop douglas spiraea american dogwood

off-channel alcove flowering

rice cutgrass panicles bulrush lateral sedge marsh spike-rush ovate spike-rush soft rush spreading rush

off-channel alcove grasses

december 7.3�

winter

Mertens Saxifrage

HUM

flowering/berries

spring riparian basalt flowering

SALMON MIGRATION april peak migration

CLOUD COVER december 75% overcast

LAMPREY may peak migration

winter

december 7.3�

summer

PRECIPITATION riparian basalt greens

TEMPERATURE

VEL ECOSYSTEM PLATEAU

august 83.7

off-channel alcove flowering

ESHOLD

fall

MAN INTERVENTION

off-channel alcove grasses

ECIES

1 YR

5 YR

15 YR

+15 YR

Students: Jordan Pieper + Michelle Montiel

1 24 23

2

1.00

3

0.90 0.80

22

0.70 0.60

21

0.50 0.40 0.30

20

0.20 0.10 19

0.00

18

17

16 11

15 12

14 13

1 24 23

INTEGRATED PROJECT DELIVERY RESEARCH - 2015 role: type:

0.80 0.70 0.60

21

0.50 0.40

Mixed Methods Research Minneapolis, MN

topics:

Integrated Project Delivery

Team Structuring

Data Driven Management

3

0.90

22

Lead Researcher

location:

2

1.00

0.30

20

0.20 0.10 19

0.00

18

17

16 11

15 12

14 13

1 24 23

24

3

0.90

23

0.80

22

4

1

2

1.00

4

0.70

21

0.80

22

21

0.40 6

0.30

20

0.20

8

19

0.10

7

0.00

19

8

18

8

18

9

17

10

16

10

10

16

11

15

11

15

12

14

12

14

13

13

1 24 23 4

1 2

1.00

24 3

0.90 0.80

22

23 4

0.70

21

22

5

0.50

21

0.30

6

0.30

20

8

9

10

6

0.20 0.10

0.10 19

5

0.40

0.20 7

4

0.60

0.50

20

3

0.70

0.40 6

2

0.90 0.80

0.60 5

7

0.00

9

17

9

6

0.20

0.10 7

5

0.50 0.40

0.30

20

6

4

0.70 0.60

5

0.50

3

0.90

0.60 5

2

1.00

7

0.00

8

18

9

17

10

16 11

15 12

14 13

19

7

0.00

18

8

17

9

16

10 15

11 14

12 13

qualitative/quantitative analysis: JGCV OCRRKPI VQ HKPF RCVVGTPU

BASELINES

TEAM PERFORMANC E

PROJECT SIZE (1000 SQ FT) PSIZE

%

PROJECT PROJECT COMPLEXITY BUDGET (/SQ FT) SCHEDULE INVER PCOMP % LEX PBUD SCHED TED

TEAM TEMPERATURE

LEADERSHIP EXPERIENCE TEAM WITH EXPERIENC CLIMATE/ENV BASELINE PROJECT TYPE E IRONMENT AVERAGE ENVIRONMEN LEXP TEXP T BLAVG

STRENGTH OF LEADERSHIP SLEAD

FUN STRESS INVER TED STRESS FUN

COMMUNICATION

TEAM TEMPERATURE AGGREGATE DISPUTES INVE TEAMMTG MPROJECT RTED DISPUTES COOPAVG

COHESIVENES TEAM MAIN SCHEDULE S MEETINGS PROJECT

INTERNAL USE OF EXTERNAL EASE OF TOOLS COMMUNICATION INTRANET COMMUNICATION

SCHEDULE COHE

COLLABTOOLS

INT COMM

LEADERSHIP

FACE TO FACE MTGS

INT COMM

COMMUNICATIO TOOLS N TOOLS AVERAGE

TRUST IN LEADERSHIP

COMMTOOL

TRUSTLDR

TOOLAVG

STRESS INVE RTED STRESS

CLARITY

LEADERSHIP EXPERIENCE

LEADERSHIP AVG

CLARITY

LEXP

TSTAVG

1

2.39

55.00

0.18

0.20

0.80

220.00

0.10

0.80

0.90

0.80

0.70

0.53

0.65

0.43

0.58

0.43

0.58

0.48

0.60

0.75 0.75

0.25

0.60

0.54

0.56

0.06

0.50

0.92

0.98

0.59

0.65 0.43

0.58

0.98

0.70

0.67

2

2.49

80.00

0.27

0.20

0.80

215.00

0.10

0.80

0.90

0.80

0.40

0.50

0.74

0.58

0.42

0.57

0.67

0.70

0.85

0.52 0.84

0.16

0.66

0.85

0.68

0.00

0.81

0.00

0.90

0.65

0.74 0.58

0.42

0.90

0.50

0.68

3

2.13

30.00

0.10

0.70

0.30

275.00

0.12

0.80

0.88

0.80

0.20

0.51

0.48

0.70

0.30

0.48

0.52

0.43

0.59

0.63 0.70

0.30

0.52

0.64

0.52

0.00

0.57

0.00

0.80

0.50

0.48 0.70

0.30

0.80

0.40

0.59

4

2.67

20.00

0.07

0.70

0.30

220.00

0.10

0.80

0.66

0.30

0.30

0.42

0.75

1.00

0.00

1.00

1.00

0.75

0.75

0.50 0.75

0.25

0.69

0.50

0.75

0.00

1.00

0.00

1.00

0.65

0.75 1.00

0.00

1.00

0.90

0.91

5

2.35

44.00

0.15

0.70

0.30

174.00

0.09

0.50

0.75

0.20

0.90

0.47

1.00

0.50

0.50

0.75

0.50

0.75

0.75

0.67 0.50

0.50

0.68

0.75

0.75

0.00

0.75

0.00

0.50

0.55

1.00 0.50

0.50

0.50

0.60

0.65

6

2.54

65.00

0.22

0.50

0.50

250.00

0.11

0.50

0.86

0.10

0.90

0.46

0.81

0.66

0.34

0.79

0.88

0.75

0.86

0.61 0.75

0.25

0.72

0.76

0.65

0.00

0.64

0.00

0.91

0.59

0.81 0.66

0.34

0.91

0.70

0.77

7

2.01

0.50

0.17

0.00

0.17

0.00

0.83

0.33

0.50 0.67

0.33

0.83

0.70

0.68

8

2.46

85.00

0.28

0.20

0.80

450.00

0.17

0.30

0.86

0.10

0.70

0.37

0.81

0.56

0.44

0.75

0.88

0.75

0.81

0.50 0.69

0.31

0.70

0.75

0.56

0.00

0.75

0.00

1.00

0.61

0.81 0.56

0.44

1.00

0.70

0.77

9

2.59

120.00

0.40

0.30

0.70

550.00

0.20

0.30

0.95

0.50

0.60

0.46

0.74

0.35

0.65

0.73

0.80

0.78

0.71

0.63 0.81

0.19

0.73

0.76

0.69

0.13

0.76

0.72

0.88

0.70

0.74 0.35

0.65

0.88

0.80

0.69

10

1.96

150.00

0.50

0.10

0.90

450.00

0.17

0.60

0.95

0.90

0.70

0.56

0.50

0.46

0.54

0.21

0.39

0.25

0.75

0.50 0.89

0.11

0.50

0.36

0.43

0.00

0.54

0.00

0.36

0.34

0.50 0.46

0.54

0.36

0.90

0.56

11

2.41

80.00

0.27

0.50

0.50

350.00

0.14

0.90

0.20

0.90

0.80

0.53

0.71

0.58

0.42

0.60

0.75

0.58

0.63

0.68 0.79

0.21

0.65

0.60

0.65

0.00

0.56

0.00

0.73

0.51

0.71 0.58

0.42

0.73

0.90

0.73

12

2.12

50.00

0.17

0.40

0.60

400.00

0.16

0.90

0.10

0.50

0.40

0.37

0.50

0.25

0.75

0.75

0.75

0.50

0.50

0.50 1.00

0.00

0.66

0.25

0.50

0.25

0.75

0.75

1.00

0.60

0.50 0.25

0.75

1.00

0.20

0.49

13

2.45

55.00

0.18

0.50

0.50

325.00

0.13

0.80

0.10

0.70

0.40

0.40

0.75

0.31

0.69

0.81

0.98

0.81

0.79

0.56 0.92

0.08

0.79

0.77

0.71

0.06

0.75

0.50

0.98

0.70

0.75 0.31

0.69

0.98

0.20

0.56

14

2.66

65.00

0.22

0.20

0.80

350.00

0.14

0.70

0.43

0.90

0.20

0.40

0.88

1.00

0.00

0.88

0.96

0.88

0.88

0.77 0.79

0.21

0.75

0.92

0.88

0.00

0.88

0.00

0.96

0.73

0.88 1.00

0.00

0.96

0.30

0.78

15

2.37

70.00

0.23

0.20

0.80

275.00

0.12

0.60

0.50

0.90

0.20

0.39

0.81

0.31

0.69

0.56

0.78

0.59

0.75

0.54 0.89

0.11

0.70

0.75

0.58

0.05

0.64

0.00

0.88

0.57

0.81 0.31

0.69

0.88

0.80

16

2.03

90.00

0.30

0.70

0.30

315.00

0.13

0.70

0.86

0.10

0.80

0.51

0.50

0.83

0.17

0.50

0.67

0.42

0.42

0.50 0.83

0.17

0.50

0.50

0.50

0.00

0.33

0.50

0.42

0.40

0.50 0.83

0.17

0.42

0.70

0.61

17

2.20

44.00

0.15

0.70

0.30

174.00

0.09

0.50

0.75

0.20

0.90

0.41

0.65

0.43

0.58

0.43

0.58

0.48

0.60

0.75 0.75

0.25

0.60

0.25

0.50

0.25

0.75

0.75

1.00

0.60

0.48 0.66

0.34

0.80

0.40

0.58

18

2.53

150.00

0.50

0.10

0.90

450.00

0.17

0.60

0.95

0.90

0.70

0.67

0.74

0.35

0.65

0.73

0.80

0.78

0.71

0.63 0.81

0.19

0.73

0.76

0.65

0.00

0.64

0.00

0.91

0.59

0.50 0.43

0.58

1.00

0.20

0.53

19

2.35

55.00

0.18

0.50

0.50

325.00

0.13

0.80

0.10

0.70

0.40

0.40

0.81

0.66

0.34

0.79

0.88

0.75

0.86

0.61 0.75

0.25

0.72

0.54

0.56

0.06

0.50

0.92

0.98

0.59

0.50 0.35

0.65

0.88

0.80

0.63

20

2.45

30.00

0.10

0.70

0.30

275.00

0.12

0.80

0.88

0.80

0.20

0.46

0.65

0.43

0.58

0.43

0.58

0.48

0.60

0.75 0.75

0.25

0.60

0.92

0.88

0.00

0.88

0.00

0.96

0.73

0.75 0.70

0.30

0.80

0.40

0.66

21

2.28

44.00

0.15 0.00 1.00

0.70

0.30 0.00 1.00

174.00

0.09 0.00 1.00

0.50 0.00 1.00

0.75 0.00 1.00

0.20 0.00 1.00

0.90 0.00 1.00

0.41 0.46

0.50 0.00 1.00

0.83 0.00 1.00

0.17

0.50 0.00 1.00

0.67 0.00 1.00

0.42 0.00 1.00

0.42 0.00 1.00

0.50 0.83 0.00 0.00 1.00 1.00

0.17

0.50 0.85

0.76 0.00 1.00

0.69

0.13 0.00 1.00

0.76

0.72

0.00 1.00

0.70 0.58

0.65 0.43 0.00 0.00 1.00 1.00

0.58

0.00 1.00

0.88 0.00 1.00

0.98 0.00 1.00

0.70 0.00 1.00

0.67 0.68

2.57

47.00

0.16

0.50

0.50

375.00

0.15

0.50

0.63

0.10

0.80

0.41

0.50

0.67

0.33

0.42

0.67

0.42

0.83

0.78 0.83

0.17

0.60

6'#/ 6'/2

EQPVGZV

0.00 1.00

.'#&'45*+2

%1//70+%#6+10

1.00

1.00

0.90

1.00

1.00

0.90

0.80

0.90

0.90

0.80

0.70

0.80

0.80

0.70

0.70

0.60

0.60

0.60 0.50

AVG BASELINES

0.40

OVERALL AVG

TEAM TEMP

0.50 0.40

OVERALL AVG 0.85

0.70 COMMUNICAT ION AVG

0.60

0.50

0.50

LEADERSHIP AVG

0.40

OVERALL AVG

0.40

OVERALL AVG

0.30

0.30

0.30

0.30

0.20

0.20

0.20

0.20

0.10

0.10

0.00

0.00

0.10 0.00 1

0.70

0.10 0.00 1

1

6

EQOO

VGOR

EQORNGZ

/8

#

# 1 %

%#

%

/

6 ' 8

/8

1

1

8 6'

#

1 %

%

#

1 %

#

# % 1

# 1 %

' 6

8

1 %#

QYPGT

VO

GZ R

Ä

8 /

'

8

8

1

8

6

/

'

J UE J UE VO

GZ R

GF EQORNGZ

F JG

UE

CTEJKVGEV

VO

GZ R

EQPVTCEVQT

GF EQORNGZ

2 J C U G U

QYPGT

EQPUV %& &&

This

research 2&

project

5&

utilized

a

broad,

interdisciplinary group of Architects and Engineers from DLR Group, Contractors

EQPVTCEVQTfrom

Mortenson,

experts

in

Integrated

Project Delivery from the University of #TEJKVGEV

Minnesota CDes, University of Pennsylvania,

%#

qualitative comparative analysis (QCA) leaders

from the University of Washington, and data scientists from the College of Infomatics at the University of Minnesota. The research topic investigated the complexity of project teams in the AE+C world in a multi-year study.

URBAN PLANNING/ DEVELOPMENT STRATEGIES

2017-PRESENT

RESEARCH

Director of Research

duration:

ongoing

Designing a hybrid firm structure for Snow

Kreilich

architects

required

with

alternative

modes

SUSTAINABILITY/ ECOLOGY

MATERIALS

the coordination of existing business strategy

PROFITS

R&D Tax Credit

DESIGN

HYBRID RESEARCH FIRM MODEL SNOW KREILICH ARCHITECTS role:

EXISTING FIRM ACTIVITIES

of

**Tax Deductible Donation** 2% of annual profits put towards public interest research and “low bono” design work.

501c3

EXTERNAL FUNDING SOURCES

working, additional sources of funding, and non traditional workflows which link research activities and collaboration

RESEARCH DESIGN

across disciplines closely with every project.

14

SOCIAL IMPACT DESIGN

PUBLIC INTEREST RESEARCH

MOONLIGHTING AND PTO

RESEARCH PARTNERSHIP NATIVE BEE HABITAT

RESEARCH PARTNERSHIPDISASTER RELIEF HOUSING PROTOTYPE

AMERICAN REFUGEE COMMITTEE

Setting MPLS up PARKS a hybrid firm structure BOARD

environment.

provides

different ways to pursue projects,

ns io ns ut io rib ut nt trib Co g on in lC ht ua lig nn on g A Mo in o/ ist on Ex ob Pr

ns io ns ut io rib ut nt trib Co g on in lC ht ua lig nn on g A Mo in o/ ist on Ex ob Pr

flexibility

interdisciplinary

to

teams

create that

are

the

built and SNOW utions

Annual

Ex ist in Pr gA ob nn on ua o/ M lC oo on nli trib gh u t t in g C ions on trib ut io ns

Ex te rn al

An nu al

al nu An

al rn te Ex

Co

ut io ns

rib nt

ns io ut

C

e

al Extern

tT itl

e Ex ist in Pr g o A bo nn no /M ual Co oo nt nli rib gh ut tin io ns on trib ut io ns

SNOW KREILICH

UNIVERSITY OF MN FORESTRY DEPT.

External Ann

ENGINEERING CONSULTANT

ENGINEERING CONSULTANT

Chart Title

ual Contribu tions

al Extern

An nu al

Co

nt rib

Co

rib nt

ns io ut

ut io ns

Ch ar

itl

tT

e

Ch ar

itl

tT

e

Annual

Ex te rn al

An nu a

ut io ns

Co

rib nt

ns io ut

lC

Existing Annual Contribu tions Probono /Moonlig hting Co ntributio ns

Ex te rn a lA nn ua l

Ex ist in Pr g o A b nn on ua o/ M lC oo on nli trib gh ut tin g C ions on trib ut io ns

on trib

al nu An

Ex ist in Pr g o A b nn on ua o/ M lC oo on nli trib gh ut tin g C ions on trib ut io ns

on trib

ut io ns

al rn te Ex

al nu An

Co

An nu al C

Ex te rn al

e

tle

itl

Ti

tT

HUMPHREY INSTITUTE

C on t rib ut io ns

Chart Title

External Ann

ual Contribu tions

tle

Ch ar

itl

tT

e

Existing Ann ual Contribu tions Probono/Mo onlighting Con tributions

Ti

UNIVERSITY OF MN TOM FISHER

CONSTRUCTION

Ch ar t

Ch ar

itl

tT

e

TRANSSOLAR

ual Contribu tions

CLIENT

SNOW KREILICH Ch ar t

Ch ar

Chart Title

External Annual Contributions

Probono/Moonlighting Contributions

al rn te Ex

ns io ns ut io rib ut nt trib Co g on in lC ht ua lig nn on g A Mo in o/ ist on Ex ob Pr

External Annual Contribu tions

ns io ns ut io rib ut nt trib Co g on in lC ht ua lig nn on g A Mo in o/ ist on Ex ob Pr

Chart Ti tle

utions

Existing Annual Contributions

Ex is Pr it n gA o b on nn o/ ua M oo l Co n n tri li g bu h tin t g C ion s on t rib ut io ns

SNOW KREILICH

External Ann

POLITICIANS

CITY OF MPLS+HCMC

CSBR

Existing Ann ual Contribu tions Probono/Mo onlighting Con tributions

Contrib

PRIVATE CLIENT

HGA

ARTISTS

RESEARCH PARTNERSHIP HCMC HOMELESSNESS PROJECT

RESEARCH PARTNERSHIP SUSTAINABILITY

itle Chart T

itle Chart T

Chart Title

Existing Ann ual Contribu tions Probono/Mo onlighting Con tributions

s ibution al Contr s g Annu ibution Existin g Contr nlightin o/Moo

Probon

s ibution al Contr s g Annu ibution Existin g Contr n ti h lig oon /M o n o Prob

Ex te

rn al

al nu An

gC

BIO HABITATS

UNIVERSITY OF MN BLAINE BROWNELL

ual Contribu tions

Contrib

Ch ar

Ch ar tT itl

TEAM

Chart Title

External Ann

unbuilt

KREILICH

on trib

in

MG MCGRATH

Existing Ann ual Contribu tions Probono/Mo onlighting Con tributions

flexibility and potential.,

al rn te Ex

issues

multiple

the way that teams are formed has

capable of dealing with complex SNOW KREILICH

With

PROJECT NETWORKS

SPECIALTY Potential CONSULTANT

project teams are an effective way o consulting firms, non profits, and educational have a different team makeup but partners wi network could be established at the onset. Es on would increase the capacity of this initiativ and would help cater the goals of research an that could be tackled by the network effectivel ACADEMICS resources provides for ready made project acq projects that come in have been vetted by part the leg work will have been done already.

rib nt

ns io ut

GERALD D. HINES COMPETITION MINNEAPOLIS: ULI 2013 type:

Develepment Master Plan

duration:

7 Days

location:

Minneapolis, MN

team: Chris Watkins (MBA/MArch)

Liz Podowski (MLA) Amanda Bednarz (MLA)

Jess Yarrish (MArch)

INFILLSTRUCTURE HOUSING 2018 type:

Affordable Housing Competition

duration:

3 Days

location:

Minneapolis, MN

organization:

raised first floor apartments create a privacy gradient between public open space and private interior space while still keeping eyes on the “street�

simple durable exterior skin provides economies of scale and modular prefabricated construction efficiencies to keep construction costs low. screened elements shade east/west facing windows add frame outdoor spaces within each unit

AIA MN Rapson Fellowship

mix fami and

urban ecology performative landscape = reduced infrastructure load + future resilience

hard infrastructure

biophilia = public health benefits

affordable housing

shared value = infrastructure pays subsidies > increased affordable housing

proposition: shared benefits Dispersed, affordable housing is treated as municipal infrastructure. Infrastructural systems development provides shared value propositions that subsidize the cost of lower rent for residents and offsets infrastructural development costs.

$$$$$$$$$$$$$$$

xst dify e

As demand for city living increases, increased loads are placed on aging “hard” infrastructure. While these systems were designed for future population movements and have been renovated multiple times they were conceived in a different time. The speed at which an aging infrastructure can recover can cost municipalities more than the cost of renovating.

exst

event

infrastructure functionality

mo

reta in

time to recovery

of unit types allow multiple ily arrangements, unit costs, amenities

roof mounted solar PV + solar hot water

THE CASE FOR SOFT INFRASTRUCTURE

concrete piers raise the lower level units to allow utility access and provide clearance over flood elevation when necessary

Contemporary ecological planning shows that dispersed, “soft” infrastructure has a critcal role in adding resilience to a central system by withstanding unpredictable natural events and adapting to everchanging conditions in the urban environment.

vertical towers are first stage of grey water and waste water processing settling pools and stormwater filtration zones intermixed with pathways and housing units

rail, transit lines, and industrial land use

Transit is a major asset to low income communities for a number of reasons. Access to existing rail lines has already proven to be a cost effective and resource efficient means of increasing rail based transit systems in america and abroad. Access to existing rail lines should be a prerequisite for affordable housing. Industrial/utility uses within minneapolis (pioneered in europe) have been retrofitted successfully into ecologically hyperproductive spaces. Looking at the amount of industrial zoned space along the river, this is a prime urban typology to take for public affordable housing

greenspace and sewer interceptors

The relationship between green space and sewer interceptors is a diagram of opportunity. Linking sewersheds with greenspace provides recreational opportunities while allowing green and brown soft infrastructure to reduce peak demand on aging systems. Linking soft infrastructure, hard infrastructure, and ecologically sensitive development is a win, win, win for all. The disconnect of green space along the river’s edge north of the downtown district is an opportunity in planning to link systems across and down the river. Future development will undoubtedly move upstream towards columbia heights.

single family + industrial + sewer interceptors

The land use pattern of this portion of the upper urban mississippi (downtown to columbia heights) is characterized by stark boundaries between industrial and residential areas. Often these divides are closely related to the boundary conditions of urban sewersheds. A hybrid residential/infrastructural program and industrial land useage along this corridor can take on a myriad of simbiotic benefits. Industrial buildings and complexes often have trouble with waste water, excess heat, stormwater infiltration, etc. These problems can be eased by the proximity of adjacent infrastructure and can provide “nutrients” to adjacent residential use.

sub sewersheds flood potential

Existing storm water and waste water infrastructure is compliant by modern standards but the city’s current and projected growth will place it’s existing infrastructure under higher stress. Freshwater resources will be a primary driver population growth/displacement in the next 30 years. Flood potential of certain areas of the city, especially those along the river’s natural floor plain create another diagram of opportunity to deal with both the future demand on hard infrastructure while using soft green, blue, and brown infrastructure to bolster existing systems and provide humans with biophilic benefits.

riparian zone

wetland filtration zone

ter

e

stormwate

modula adapta to inclu familie

filtered storm water enters the river

artificial wetland and riparian zone provide habitat, recreational space, and performative ecological systems for water before entering the mississippi river.

site section/perspective aa 25’

50’

100’

prefiltered/treated water is lifted up to artifical wetlands for final treatment

open stage wate process is expos

rtiary filtration zone

secondary filtration + settlement zone

primary filtration and treatment zone

excess engy back to grid

excess engy back to grid

heat by-production

waste water

volume

stormwater storage and infiltration

er storage and infiltration

er filtration sed

vertical towers are first stage of grey water and waste water processing

centralized green space provides habitat, pedestrian zone, and infiltration capacity for site storm water

mix of walk up 2br, 3br, and studio units to accomodate a wide variety of users and family needs.layout to provide modular additions to any floor plan type

ing

eer

bioswales for site generated stormwater infiltration

open stage water filtration process is exposed

large capcity storage and slow infiltration for peak storm events

bioswales for site generated stormwater infiltration

elevator core for ADA to all units and electrical routing for net positive to grid.

solar hot water and PV provide domestic hot water and heat exchange for radiant in floor heating

see

in eng

s wg

rea

sa

thi

d

waste water treatment plant -waste heat/steam > domestic hot water and heating -organic solids >fertilizer>food

INFRASTRUCTURE PUBLIC HOUSING

ar unit floor plans provide flexibility and future ations to accomodate expansion of single units ude adjacent units for senior assistants, larger es, and different living arrangements..

T

AIA ST. PAUL PRIZE (WINNING ENTRY) HIGHLAND RESERVOIR SEASONAL EVENT SPACE 2018 type:

Seasonal Event Space/Adaptive Reuse

duration:

1 week

location:

St. Paul, MN

organization:

AIA St. Paul

GARDEN PATH LOOKING EAST TOWARDS SNELLING AVE. ENTRY

1/4 1/2

INDUSTRIAL, LT MANUFAC, MULTI-FAMILY, COMMERCIAL COLLECTOR STREETS

le

mi

le

mi

SCHOOLS, INSTITUTIONAL

HABITAT, OPEN SPACE, BUFFER ZONES

SINGLE FAMILY RESIDENTIAL MIXED MULTIFAMILY RESIDENTIAL SM COMMERCIAL/RETAIL

RIVER FLYWAY AND HABITAT CORRIDOR

SITE PLAN + ZONING MAP

STEEL ROOF EDGE MODULAR TRAY GREEN ROOF SYSTM

20 RIGID INSULATION ICE AND WATER BARRIER SHEATHING WOOD ACOUSTIC CEILING GLULAM PURLINS GLULAM EDGE BEAM @ GRID LINE GLULAM GIRDER @ GRID LINE (BEYOND) AUTOMATED LOUVERS ALLOW WARM AIR TO EXIT AT THE TOP OF THE DOUBLE SKIN FACADE

OPERABLE PORTIONS OF THE INTERIOR FACADE ALLOW NIGHT COOLING NATURAL VENTILATION AUTOMATED TRANSLUCENT SHADES REDUDCE GLARE AND PROVIDE VISUAL PRIVACY FOR EVENTS THAT NEED IT.

B

EXTERIOR SINGLE PANE CURTAINWALL INTERIOR TRIPLE PANE CURTAINWALL @ GRID LINE EXISTING COLUMN (BEYOND) AUTOMATED LOUVERS ALLOW COOL AIR TO ENTER AT THE BOTTOM OF THE DOUBLE SKIN FACADE RADIANT HEAT IN NEW TOPPING/INFILL CONCRETE SLAB EXISTING C.I.P. CONCRETE PARABOLIC VAULTS ELECTRICAL RACEWAYS THROUGHOUT

A 19

C

CURTAIN WALL SECTION @ EXST+NEW

NEW PED ENTRY OFF SNELLING AVE

13

C

14

13

12

COCTAIL HR

10

11

1

15 8

2 18

6

7

B

9

16. MAIN EVENT SPACE 17. SUBDIVIDED EVENT SPACE ______________________________

5

WEDDING LAYOUT

3 3

1. UNDERGROUND PKG 2. LRG COMM ED ROOM 3. MED COMM ED ROOM 4. EVENT STORAGE SPACE 5. LOADING DOCK/RECEIVING 6. STAFF OFFICES 7. STAFF RESTROOMS 8. ELEV/STAIR TO ROOF 9. MECHANICAL ROOM 10. CAFE 11. BAR 12. KITCHEN 13. LOCKER ROOMS 14. GREEN ROOF: WINTER = ICE RINK SM/SP/FA = FITNESS 15. BUILDING RECEPTION ______________________________

18. GARDEN WALKWAY 19. 6 PERSON SAUNAS 20. 12 PERSON SAUNAS

4

A

NEW UNDERGROUND PARKING GARAGE ENTRY FROM EXST SURFACE PKG LOT

19 ACCESS @ EXISTING TOP OF ROOF GRADE TO HOCKEY ARENA.

GROUND FLOOR PLAN

A EVENT HALL + GARDEN: Summer and fall/spring shoulder seasons in St. Paul are some of the most gorgeous times of the year. Waves of color bloom each month for short, bittersweet amounts of time. This program seeks to provide residents of Highland Park and visitors alike the opportunity to be surrounded by an incredible garden that changes with every visit. A diverse planting plan offers sequential blooms and a wealth of polinator habitat. Summer is also the season in Minnesota where weddings, live music, and parties are at their peak. The event space is designed to be flexible and large enough to house weddings, concerts, expos, tradeshows, fundraisers, and other large gatherings while using the existing structure to make it unlike any other space available for rent.

EVENT HALL AND GARDEN: As the annuals and perrenials in the garden begin to go dormant, evergreen trees and shrubs become the main vegetation in sight mixing with mahogany, yellow, red, and orange leaves in planted areas. 6 person and 12 person saunas nestled between existing buttresses along the perimeter of the space start to be rented in colder months. A variety of events in the pavilion space are maintained all year. Through passive strategies (double skin wall + thermal mass) and active radiant in floor heating the space is maintained at a useable temp year round using minimal energy.

B

EDUCATIONAL/OFFICE SPACES: A community education program partnered with the Univeristy of Minnesota extension program provides education and training in gardening, food preparation and preservation, exercise and well-being, arts and crafts, technology, etc. GREENROOF: Utilizing the green roof space as an open air gym, residents of Highland Park and visitors could sign up for a range of athletic programming. The facility has locker rooms in the space below the rooftop for community members.

EDUCATIONAL/OFFICE SPACES: Winter time and shoulder seasons demand a change in program. Classrooms and offices are used more often in the cooler months in minnesota. The kitchen, while not as busy with catering events and busy summer crowds can offer cooking courses, farm to table events, and the inevitable hot chocolate after an hour on the ice rink on the roof. GREENROOF: The rooftop turns into a freeskate rink during the freezing months of Minnesota’s long winters. Skylights dotting the rink’s interior provide diffuse northern light to the spaces below during months of short days and low sun angles.

A growing downtown civic district demanded an updated city hall. A new structure in the heart of a growing downtown which took the needs of the city managers office and those of the city counsel and married them with the beauty of the natural landscape of the pacific northwest. The resultant design sought to abstract natural metaphors present in the landscape into a cohesive building design that's impact and abilities were larger than the sum of its parts. A district hub for stormwater treatment, an energy production center, and a step towards a new future for Eugene.

H WOOD

R IN MINNEAPOLIS, MN WOOD TOWER COMPETITION

growing cities is a design ag vision for sustainable growt

2016 role:

Project Architect

firm:

Snow Kreilich Architects /Studio NYL

type:

Mass Timber CLT Addition

duration:

2 weeks

location:

Minneapolis, MN

SOURCE RAW M WITHIN 500 MI

Minneapolis was one timber centers in No and fir forests line th border. Sourcing timb offer a significant red energy of the constru

RESPECT THE MAXIMIZING ST

SOURCE RAW MATERIA EXISTING F WITHIN 500 MI/800 KM

Minneapolis was one of the large timber centers in North America. Selecting existing the Canadian/ SITE: CONTEXT VARIABLES and fir forests line possess a large s border. Sourcing timber from this additional stories the stories to a in buildi Every site presents a unique set of contextualoffer a significant reduction capacity. The bene constraints. The goal of an adaptive, unique energy of the construction. architecture should be to capitalize on the assets of a site and to minimize the flaws. The building form can use a set of principles to inform the composition of the skin.

SOLAR PATH

RESPECT THE HISTORI MAXIMIZING STRUCTUR

genda that has a long-term th.

XT VARIABLES

BUILDING WALL SECTION

unique set of contextual of an adaptive, unique e to capitalize on the o minimize the flaws. The e a set of principles to on of the skin.

T.O. ELEV CORE EL +310’-0”

STEEL PLATE CONNECTION

E EXTREMES

of the largest annual on the planet. Therefore, it ound for materials that are date extreme cold and heat.

WIND

SHADOWS

VIEWS

18’-0” (@ ROOF DECK)

STRUCTURAL 4” X 18” SPLICED LVL COLUMN SOLAR PATH

CIRCULATION

PROPOSED SITE

T.O ROOF DECK

Existing historic masonry/concrete 2 story building on a main walking/transit street.

T.O. PREFAB ROOF

SPLICED LVL COLUMNS. (SIM TO TYP DETAIL @ SLAB EDGE) GLASS RAILING @ ROOF DECK LVL COMPOSITE ELEVATOR CORE WALL 4X4 CONC PAVERS ON ADJUSTABLE PEDESTALS

PREFABRICATED RIPA ROOF PANEL B.O. CEILING

TRIPLE GLAZED IGU @ CURTAINWALL LVL COLUMN 10’-0” TYP

ADDITION HT (270’-0”)

130-145 120-130 110-120 100-110 90-100 80-90 70-80 27-70

LVL COMPOSITE ELEVATOR CORE WALL CONCRETE W/ RADIANT FLOORING OVER LVL BEAMS

T.O. FFE (TYP)

PROPOSED SITE

2’-0” TYP

STEEL PLATE CONNECTION (TYP) B.O. DROP CEILING

ACOUSTIC INSULATION DROP CEILING (WOOD OR GYP)

Existing historic masonry/concrete 2 story building on a main walking/transit street.

EXISTING TILE COPING @ PARAPET PAVERS ON ADJUSTABLE PEDESTALS

eEof the largest softwood YEARLY TEMPERATURE SWING: White Spruce orth America. he Canadian/Minnesota ° would ber ° from this region duction in the embodied uction.

EXISTING STRUCTURE @ ROOF

10 - 130

B.O. DROP CEILING

75’

ELEVATOR CORE

0’

1

300’ / 100m 150’

HISTORIC+FOOTPRINT UCTURE CONTEXTWHILE

TRUCTURAL CAPACITY

18’-0” (@DBL HT)

MATERIALS I/800 KM

VERTICAL LVL COLUMN/MULLION (BEYOND)

T.O. EXISTING PARAPET EL +40’-0”

2

EXISTING BLDG HT (40’-0”)

FFE NEW 1ST FLOOR

N OW NT

W DO

PA R

K

SETBACK

est softwood . White Spruce g buildings that already /Minnesota structural capacity for would ssisregion preferable to adding a few e embodied ing with a lower structural

- More floors means more efficiency in the mass production of prefabricated components

WIND LOADS SHADOWS

IC FOOTPRINT WHILE RAL CAPACITY

VIEWS

SOLAR + VIEWS CIRCULATION

MODULAR PLANTER @ STREET SIDE PARAPETS EXISTING SIDEWALK

DE ST STRI RE AN ET

- Mechanical/electrical distribution economies

- Greater density of units/acre

WIND

PE

- Mobilization of construction equipment and labor

efits of adding more floors are:

AD LOADS

UP

FFE EXISTING STREET LEVEL EL +0’-0”

BUILDING WALL SECTION T.O. ELEV CORE EL +310’-0”

RESULTING FACADE

EXISTING FOUNDATION DEPTH (16’-6”)

FOOTPRINT

18’-0” (@ ROOF DECK)

ALS

T.O. EXISTING ROOF

NEW MAT FOUNDATION CONNECTING EXISTING FOOTINGS AT CORE MICRO PILES IN MAT FOUNDATION T.O. EXISTING BASEMENT FLOOR

STEEL PLATE CONNECTION

B.O. EXISTING FOOTING EL -16’-6”

STRUCTURAL 4” X 18” SPLICED LVL COLUMN SPLICED LVL COLUMNS. (SIM TO TYP DETAIL @ SLAB EDGE) GLASS RAILING @ ROOF DECK LVL COMPOSITE ELEVATOR CORE WALL

1’ 0’

10’ / 3m 5’

CANTILEVER AMENITY FLOOR PLAN

CANTILEVER RESIDENTIAL PLAN

JORDAN MIDDLE SCHOOL - 2015

Largely Responsible for the Design DLR Group type: Reno/Addition/New Const duration: 1.5 Years location: Jordan, MN role:

firm:

A central circulation spine and clerestory lighted learning cafe were key elements in reorganizing and revitalizing this cramped, underlit, and dated single-story floor plan layout.

A complicated program involving renovation, alteration, addition, was asked to fit into an outdated existing 1960’s school building. The resulting program moved the way that students were able to learn and teachers were able to create

curriculum in ways better suited to 21st century learning. Dedicated community offices and recreational facilities further blended the use of this as a facility for a wide group of users.

ARCH

role: Design Architect

Nicollet MALL REVITALIZATION Minneapolis MN

SNOW KREILICH ARCHITECTS

REFERENCE David Frank, Exe Community Plan Development City of Minneapo 612-673-5238 david.frank@ci.m

2015-Present While working at Snow Kreilich Architects, had the chance to be involved in

I have

a variety of projects

ranging from full streetscape designs to the reskin of the existing Social Security Building. The nature of the studio-based practice demands that teams shift focus to accommodate project deadlines and that staff are able to deal with complicated projects at multiple stages of development. The range of projects and documentation tasks I’ve been a part of has given me the technical skill to navigate and represent complex building assemblies and layouts in well coordinated and complete document sets. This variety has allowed me to find building typologies that resonate with my process and methods of working that I would not have been exposed to otherwise. role: Design Architect

Arthur J. Altmeyer Social Security Building Woodlawn MD

SNOW KREI ARCH

SNOW KREILICH ARCHITECTS

All Images © James Corner Field Operations

role: Project Architect Estimated Completion Date: Fall 2017 Project Size: 1 mile Construction Cost: apx $50 million Street Greening Fourth

Concept

Minneapolis MN The design team, under the leadership of James Corner Field Operations of New York is envisioning a more eventful Nicollet Mall; a curated promenade of experiences and attractions; a greener and more sociable corridor; a ribbon of light; an elegant urban spine of interconnectivity, movement and delight. Our proposed design extends Nicollet to connect the cultural and green hubs of Loring Park and the Walker Art Center to the Mississippi Riverfront and institutions. We characterize the corridor into three zones – a “live” zone with primarily residential and community, a “work” zone with primarily business, office and retail, and a “play” zone with primarily food/beverage/café. This “live/work/play” corridor then encapsulates the full aspiration of the City as a beautiful and dynamic place to live, work and to visit. Groves of trees provide seating and a strong sense of green nature, functioning also as porous storm-water collection areas. Generous and varied seating encourages a wide range of socialization opportunities. New transit shelters and kiosks bring activity to the street. With these improvements, we believe that Nicollet Walk will become an innovative, green, sustainable, social connector that can stimulate economic growth and attract locals, visitors, and businesses throughout the year.

219 NORTH SEC SUITE 120 MINNEAPOLIS, 612 359 9430 WWW.SNOWKR

role: Design Architect

Metro Transit southwest lrt operations & MAINTENANCE FACILITY

ARCHITECTS

role: Design Architect

ARCHIT

Southwest station park & ride facility Eden prairie MN

Hopkins MN

REFERENCE Ryan Kronzer, Manager 6465 Wayzata Boulevard 612-373-3826 ryan.kronzer@metrotran

role: Design Architect Estimated Completion Date: Winter 2020 Project Size: 165,000 sf Construction Confidential river Northbound rest area mndotCost: straight Owatonna MN Located along the proposed Light Rail Green Line extension, the Operations Maintenance Facility (OMF) site is in an industrial neighborhood near the historic downtown in the City of Hopkins. The structure uses a hybrid system of conventional steel framing and load bearing insulated precast concrete panels. Interior daylighting is accomplished by using high performance insulated glass and translucent polycarbonate glazing panels. The mechanical systems use high efficiency air handlers for the office spaces and energy recovery ventilators for the semi-conditioned shop and storage spaces.

The building’s large roof area is used to capture rainwater in an underground storm water storage tank that is used for water supply to the light rail vehicle car wash. The facility will remediate and rebuild the existing brownfield conditions and will set an example of sustainability and innovation in the existing context of 1-story industrial-shed surroundings. The site is highly visible to commuters and the neighborhood, and thus will have a civic contribution to the area, architecturally and within the landscape.

SNOW KREILICH ARCHITECTS

SNOW KREILIC ARCHIT

Rochester MN Southwest Station is a multi-modal transportation center anchoring the western end of the new Minnesota. The project adds a Light Rail Platform, Parking Garage to an existing Parking Garage on the site. The program is carefully organized on the compact suburban site to clarify wayfinding and avoid REFERENCE conflicts between vehicular and pedestrian circulation.

RECOGNITIONS WoodWorks Wood Desig

role: Design Architect Estimated Completion Date: Spring 2022 Project Size: 500,326 gsf Construction Cost: TBD Lofts at Mayo Park

Southwest Light Rail Line in Hennepin County, RECOGNITIONS Auto Drop-Off Area, and 440-stall AIA MN Bus HonorStation, Award, 2017

David Schilling MNDOT BSS Project Manager The LRT and Bus components are wrapped in a low-slung, delicate canopy that celebrates arrival 395 John Ireland Boulevard MS-715 the Station. Hovering above the Station, and highly visible from the adjacent freeway, the Parking St. Paul,to MN 55155-1899 Garage is wrapped in a subtly sculpted, perforated aluminum skin that is brought alive by the play of 651-366-3583 david.schilling@state.mn.us light, shadow, and snow across its surface.

219 NORTH SECOND STREET SUITE 120 MINNEAPOLIS, MN 55401 612 359 9430 WWW.SNOWKREILICH.COM

Estimated Completion Date: Fall 2017

Completion Date: May 2017

AIA MN Honor Award, 20

REFERENCE Helen Roland GF Pougiales Trust 612-388-5896 helen.ap.roland@gmail.c

219 NORTH SECOND S SUITE 120 MINNEAPOLIS, MN 55 612 359 9430 WWW.SNOWKREILICH

NORTH

WIND DIRECTION (IN %)

STREET

RON DE LUGO FEDERAL COURTHOUSE

STREET

APRIL

SP RIN

SU

G

2015-Present

MM

ER

NORRE GADE

SU M

ME R

NORRE GADE

Snow Kreilich Architects

type:

Reno/Addition/New Const

duration:

L

BJERGE GADE STREET

Project Architect

firm:

BJERGE GADE STREET

role:

SP RIN

G

APRIL

L FA

AUGUST

L

L FA

AUGUST

Ongoing WINTER Sunset

Sunset

Sunrise

Noon

LONG BAY

WINTER

SEPTEMBER SEPTEMBER

Sunrise

Noon

LONG BAY NORTH

NORTH

NOVEMBER

NOVEMBER

SNOW KREILICH ARCHITECTS

SNOW KREILICH ARCHITECTS

RON DE LUGO FEDERAL BUILDING AND U.S. COURTHOUSE CAPITAL SECURITY ENHANCEMENT PROJECT GSA PROJECT NO .: VV100002 PROJECT

RON DE LUGO FEDERAL BUILDING AND U.S. COURTHOUSE CAPITAL SECURITY ENHANCEMENT PROJECT

SOLAR + WIND ANALYSIS

DESIGN CONCEPTS PHASE

GSA PROJECT NO .: VV100002

DESIGN CONCEPTS

PROJECT

PHASE

MAY 1, 2015

SUBJECT

SOLAR + WIND ANALYSIS SUBJECT

DATE

MAY 1, 2015

PROPERTY OF USA

DATE

PROPERTY OF USA

Due to the lack of office space on the island, the design team was required to phase the entire project over 36 months. The diagrams above show the extensive coordination needed to move

tenants, renovate and abate their vacant space while providing swing space in the building. Above is one of 23 phases of moves and renovations for the project.

Retrofitting and adding onto existing cast in place and precast concrete structures while maintaining seismic separation, water tightness, and construction clearances were major design challenges. Countless

details documenting the sequencing and layers of new and existing building elements were integral to the simple aesthetic approach for an addition to a building with such a strong presence in St. Thomas.

BLUE LINE LRT O+M FACILITY 2016 role: type:

Design Team Industrial Facility + Offices

duration:

1.5 Years

location:

Minneapolis MN

HISTORIC COMMUTATOR FOUNDRY 2016-Present role:

Project Architect

firm:

Snow Kreilich Architects

type:

Historic Reno/Addition/New Construction

duration:

Ongoing

location:

North Loop, Minneapolis

A complex infill/historic renovation project which was the product of many external influences, many existing conditions, and a sensitivity to the history of the surrounding buildings. Minimal perceived impact on the exterior of the building masks 2 levels of underground parking, interconnected floor plates with 2 existing buildings, and subtle massing changes to allow the new construction and existing to coexist.

WD BLKG-1 SLNT-#

SLOPE

ET STUD-1 SLNT-#

Right:

INSUL SPRAY-1

WD BLKG-1

219 NORTH SECOND STREET The SUITE 120 detailing of a new roof structure that relieved MINNEAPOLIS, MN 55401 the existing cast iron joists of their compressive duty 612.359.9430 219 NORTH SECOND STREET WWW.SNOWKREILICH.COM while utilizing them as tie rods for a new bent beam SUITE 120 MINNEAPOLIS, MN 55401 system which floats above the existing. structural 612.359.9430 WWW.SNOWKREILICH.COM

WB-1

2' - 0"

ET STUD-1

L "

ROOF LEVEL EL + 914' - 2"

WB-1

2' - 0"

NSUL BD-1

L "

MET STUD-1

6"

MET STUD-1

6"

COMMUTATOR Below: FOUNDRY COMMUTATOR Conceptual diagrams dealing with the perforation and permeability of the existing masonry walls on FOUNDRY the interior which have been heavily modified to

ROOF LEVEL EL + 914' - 2"

NSUL BD-1

RUCTURAL THERMAL BREAK

ET STUD-1

8"

123 North First Street Minneapolis, MN 55401

RUCTURAL THERMAL BREAK CE OF WALL BEYOND ET STUD-1 8"

ET 1 1'-0" A5.50

EW-1

E ASSEMBLY COVER ET1/2" 1

EW-1

INSUL BD-1

CE OF WALL BEYOND

INSUL BD-1

1'-0" A5.50

E ASSEMBLY COVER 5/8" 1/2" MBLY

CLIENT 123 North First Street Commutator, Minneapolis, MNLLC 55401

make room for large industrial equipment and parts the life of the building.

4"

408 North First Street # 110 passage over Minneapolis, MN 55401 CLIENT

4"

Commutator, LLC CIVIL ENGINEER

408 FirstLab Street # 110 ElanNorth Design Minneapolis, 55401 901 North 3rdMN Street, Suite 120, CIVIL ENGINEER Minneapolis, MN 55401 Elan Design Lab 901 North 3rdARCHITECT Street, LANDSCAPE Suite Ten x120, Ten Minneapolis, 211 1st St N MN 55401

SHADE-1

CONNECTION 5/8"

MBLY "

1' - 4"

1' - 0 5/8"

0' - 1 3/8"

1' - 4"

1' - 0 5/8"

0' - 1 3/8"

SHADE-1

CONNECTION

END OF " TENDON

Suite 350 LANDSCAPE ARCHITECT Minneapolis, MN 55401 Ten x Ten 211 1st St N ENGINEER STRUCTURAL Suite 350 Meyer Borgman Johnson Minneapolis, 55401South 510 MarquetteMN Avenue Suite 900 STRUCTURAL ENGINEER Minneapolis, MN 55402 Meyer Borgman Johnson 510 Marquette Avenue South Suite 900 Revision Description Minneapolis, MN 55402

8"

NL-1 END5"OF

4" TENDON 8" 8"

FACE OF WALL BEYOND

NL-1 5"

SLOPE

4" OVER SULATION 8"

NL-1

L SECTION CE OF WALL BEYOND RAL) NL-1 TAPE AT ALL EXPOSED CONNECTION ASSEMBLY L SECTION RAL) 8" (BEYOND) TAPE AT ALL EXPOSED CONNECTION ASSEMBLY

LEVEL 6 EL + 901' - 2"

0' - 8" 0' - 8" 0' - 8"

ED 2 1'-0" A5.50

CE OF WALL BEYOND

FACE OF WALL BEYOND

Revision Description

EW-1

1

SCHEMATIC DESIGN DRAWINGS

FACE OF WALL BEYOND

AINED @ PANEL JOINTS FING AT FLOORS @ TOP OF SLAB RAL) TRACK STUD AINED OF SLAB@ PANEL JOINTS EFING AT FLOORS @ PANEL JOINT RAL) TRACK STUD OF SLAB

DRIP EDGE

"

40

A

Project Number

01/12/2018

Drawn By

PROJECT 3 (Infill)

NORTH LOOP - MARCH 2017

I hereby certify that this plan, specification or report Project Number Drawn By was prepared by me or under my direct supervision and that I am a duly Licensed Architect under the State of Minnesota I hereby certify that this plan, specification or report was prepared by me or under my direct supervision and that I am a duly Licensed Architect under the Signature State of Minnesota

A

E @ PANEL 4" JOINT RAL)

UE 3 1'-0" A5.50

Typed or Printed Name Signature Registration Number Typed or Printed Name

4"

UE 3 1'-0" A5.50

4 1'-0" A5.50

Revision Date

SCHEMATIC DESIGN DRAWINGS 01/12/2018 NOT FOR CONSTRUCTION FOR REFERENCE ONLY

FACE OF WALL BEYOND

@ TOP OF SLAB 8" (BEYOND) RAL)

ALL

Number

NOT FOR CONSTRUCTION FOR REFERENCE ONLY

CONC PNL-1 EW-1

DRIP EDGE

4 1'-0" A5.50

Revision Date

LEVEL 6 CONC ELPNL-1 + 901' - 2"

"

ALL

Number

SLOPE

0' - 8" 0' - 8"

OVER SULATION

0' - 8"

ED 2 1'-0" A5.50

Registration Number

EXTERIOR WALL DETAILS

A5.50 A5.50

SLOPE

EXTERIOR WALL DETAILS SLOPE

Above: The facade approach was sympathetic to the typology of buildings on the block and in the 19th Century Warehouse District but took a decidely contemporary approach to the way that depth, shadow, and parti wall articulation and relief were dealt with.

2

42

PROJECT 3 (Planes)

NORTH LOOP - MARCH 2017

N

S solar path

skylighting

gathering paving

views to downtown

stepped building heights to adjacent historic

primary historic facades

views to river

T NEW WIDE FLANGE BENT NG JOISTSEE BEARING AND END NDITION. STRUCTURAL .STEEL SEE STRUCTURAL TRUSSES AS

EBER. CONCRETE BOND BEAM. SEE STRUCTURAL TO EXISTING TRUSS. RAL NG JOIST BEARING AND END SHATCHED INDICATE NEW . SEE STRUCTURAL ICK ADDED TO TOP OF WALL E CONCRETE BOND BEAM. TO EXISTING TRUSS. RAL SHATCHED INDICATE NEW ICK ADDED TO TOP OF WALL

T.O. NEW BEAM EL + 854' - 1"

F5.50

12 8

2 4 412

T.O. NEW BEAM EL + 854' - 1"

2 2 2 8

2 4 4

LINTEL EL + 851' - 11"

LINTEL EL + 851' - 11"

2 2 2

ROOF ASSEMBLY (2") STANDING SEAM ZINC MTL ROOF (1/2") UNDERLAYMENT/DRAINAGE BD (3/4") PLYWOOD SHEATHING (6") RIGID INSULATION (1/2") COVER BOARD ROOF ASSEMBLY (2") STANDING SEAM ZINC MTL ROOF (1/2") UNDERLAYMENT/DRAINAGE BD (3/4") PLYWOOD SHEATHING (6") RIGID INSULATION (1/2") COVER BOARD (3") ACOUSTIC PERFORATED METAL DECK. 2" x 2" L SECTION (CONTINUOUS TO BEAM PEAK) WELDED AT FACE OF WIDE FLANGE NEW (W8x24) STEEL BENT BEAM STRUCTURE. (3") ACOUSTIC PERFORATED METAL DECK. SEE STRUCTURAL 2" x 2"WOOD L SECTION (CONTINUOUS TO BEAM NEW DECKING PEAK) WELDED AT FACE OF WIDE FLANGE NEW (W8x24) STEEL BENT EXST. STEEL JOIST STRUCTURE. BEAM STRUCTURE. RETAIN IN PLACE. REPAIR SEE STRUCTURAL CONNECTIONS AND MEMBERS PER NEW WOOD DECKING STRUCTURAL RECOMMENDATIONS. NEW ZINC GUTTER MATCH EXST. STEEL JOIST TO STRUCTURE. COLOR AND FINISHREPAIR OF ROOF RETAIN IN PLACE. CONNECTIONS AND MEMBERS PERLINTEL. REPAIR IN PLACE EXISTING WOOD STRUCTURAL RECOMMENDATIONS. REPLACE EXISTING STEELZINC LOOSE LINTEL NEW GUTTER TO MATCH WITH NEW COLOR ANDLINTEL. FINISHSEE OF ROOF STRUCTURAL REPAIR IN PLACE EXISTING WOOD LINTEL. REPLACE EXISTING STEEL LOOSE LINTEL WITH NEW LINTEL. SEE STRUCTURAL

8' - 8"

STEELWITH TRUSSES AS EILING ACOUSTIC BER. SEE STRUCTURAL

4 _________ 2 F5.50

8' - 8"

T NEW WIDE FLANGE BENT NDITION. SEE STRUCTURAL

F5.50

2 F5.50

SILL EL + 843' - 3"

SILL EL + 843' - 3"

4' - 7"

EILING WITH ACOUSTIC

EX-3.5 4 _________

4' - 7"

BLY G SEAM ZINC MTL ROOF AYMENT/DRAINAGE BD OD SHEATHING ULATION BOARD BLY G SEAM ZINC MTL ROOF AYMENT/DRAINAGE BD OD SHEATHING ULATION BOARD

EX-1.2 3 F5.50

3 F5.50 12 8

2 2 2

STEEL CLIP ANGLE AT BEAM BEARING 4 124

8

2 2 2

ROOF ASSEMBLY (2") STANDING SEAM ZINC MTL ROOF (1/2") UNDERLAYMENT/DRAINAGE BD (3/4") PLYWOOD SHEATHING (6") RIGID INSULATION (1/2") BOARD ROOFCOVER ASSEMBLY (2") STANDING SEAM ZINC MTL ROOF STEELUNDERLAYMENT/DRAINAGE CLIP ANGLE AT BEAM BEARING (1/2") BD (3/4") PLYWOOD SHEATHING (6") RIGID INSULATION (1/2") COVER BOARD

NEW ZINC GUTTER TO MATCH COLOR AND FINISH OF NEW ZINC ROOFING 4 4

NEW ZINC GUTTER TO MATCH COLOR AND FINISH OF NEW ZINC CIP CONCRETE BONDROOFING BEAM

NEW 1x4 WOOD DECKING CIP CONCRETE BOND BEAM STEEL PLATE WELDED TO HSS @ NEW OPENING LINTEL NEW 1x4 WOOD DECKING EXST. STEEL JOIST STRUCTURE. RETAIN IN PLACE. REPAIR CONNECTIONS AND MEMBERS STEEL PLATE WELDED TO HSS @ PER STRUCTURAL NEW OPENING LINTEL RECOMMENDATIONS. EXST. STEEL JOIST STRUCTURE. RETAIN IN PLACE. REPAIR CONNECTIONS AND MEMBERS PER STRUCTURAL RECOMMENDATIONS.

RETAIN IN PLACE EXISTING MASONRY PILAR (BEYOND) REPLACE EXISTING STEEL RETAIN INWITH PLACE EXISTING WINDOWS NEW UNITS MASONRY EXISTING PILAR (BEYOND) MATCHING SIZE, CHARACTER AND PATTERN. SEE HISTORICAL WINDOW ASSESSMENT (FORTHCOMING) FORSTEEL MORE REPLACE EXISTING INFORMATION (TYP) WINDOWS WITH NEW UNITS MATCHING EXISTING SIZE, CHARACTER AND PATTERN. SEE HISTORICAL WINDOW ASSESSMENT REPAIR EXISTINGFOR MORE (FORTHCOMING) ROWLOCK BRICK SILL INFORMATION (TYP)

REPAIR EXISTING ROWLOCK BRICK SILL RETAIN EXISTING INTERIOR MASONRY WALL. REMOVE GRAFFITI, REPOINT TO STRUCTURAL SPECIFICATIONS. RETAIN EXISTING REPOINT REPAIR INTERIORAND MASONRY EXTERIOR BRICKGRAFFITI, AS WALL. REMOVE NECESSARY PER REPOINT TO STRUCTURAL STRUCTURAL SPECIFICATIONS. ASSESSMENT. REPOINT AND REPAIR NEW CONCRETE EXTERIOR BRICK FLOOR AS W/ RADIANT HEATING NECESSARY PER STRUCTURAL ASSESSMENT. NEW CONCRETE FLOOR W/ RADIANT HEATING

LEVEL 1 EL + 838' - 8" GRADE EL + 838' - 2" LEVEL 1 EL + 838' - 8" GRADE

LINE NEW OPENINGS WITH STEEL PLATE AT JAMBS, SILL, AND HEAD LINE NEW OPENINGS WITH STEEL PLATE AT JAMBS, SILL, AND HEAD

219 NORTH SECOND STREET SUITE 120 MINNEAPOLIS, MN 55401 612.359.9430 219 NORTH SECOND STREET WWW.SNOWKREILICH.COM SUITE 120 MINNEAPOLIS, MN 55401 612.359.9430 WWW.SNOWKREILICH.COM

NORTH LOOP PROJECT 3 NORTH LOOP PROJECT 3

125 North Second Avenue Minneapolis, MN, 55401 CLIENT 125 North Second Avenue Commutator, Minneapolis, MN,LLC 55401

408 North First Street # 110 Minneapolis, MN 55401 CLIENT Commutator, LLC CIVIL ENGINEER 408 FirstLab Street # 110 ElanNorth Design Minneapolis, 55401 901 North 3rdMN Street,

Suite 120, CIVIL ENGINEER

Minneapolis, Elan Design MN Lab55401 CARVED INTERIORS 901 North 3rd Street, LANDSCAPE ARCHITECT Suite 120, Ten x Ten Minneapolis, MN 55401 211 1st St N Suite 350 ARCHITECT LANDSCAPE Minneapolis, Ten x Ten MN 55401

211 1st St N ENGINEER STRUCTURAL Suite Meyer350 Borgman Johnson Minneapolis, 55401South 510 MarquetteMN Avenue Suite 900 STRUCTURAL ENGINEER Minneapolis, MN 55402 Meyer Borgman Johnson 510 Marquette Avenue South Suite 900 Revision Description Minneapolis, MN 55402

NEW CURTAINWALL

Revision Description

Number

Number

NEW CURTAINWALL

EXTERIOR PAVING. SEE LANDSCAPE

EXTERIOR PAVING. SEE LANDSCAPE

NOT FOR CONSTRUCTION FOR REFERENCE ONLY

SCHEMATIC DESIGN DRAWINGS NOT FOR CONSTRUCTION FOR REFERENCE ONLY SCHEMATIC DESIGN DRAWINGS

Project Number

Drawn B

PARTI WALLS

I hereby certify that this plan, specification or Project Number Drawn B was prepared by me or under my direct super