Advanced Studio II - Spring 2020 by Matthew Anderson

Advanced Studio II - Spring 2020 Matthew Anderson

Section

Pages

Fire Station Case Study .......................................................................................... pg. 1-10 Fire Station Program Analysis ................................................................................. pg. 11-18 Novus Site Analysis ................................................................................................ pg. 19-35 Fire Station Iteration 1 ............................................................................................ pg. 36-37 Fire Station Iteration 2 ............................................................................................ pg. 38-39 Fire Station Iteration 3............................................................................................. pg. 40 Final Iteration .......................................................................................................... pg. 41-64

Index

Sulzberg-Thal Fire Station Architect: Dietrich Untertrifaller

Fire Station Case Study

Passive Shading The large continuous glazing structures the building, creating an air of lightness and transparency to most angles. External Shading protects the interior from overheating The building has ground level access from the main road, with the slightly projecting top floor marking and sheilding the entrance area.

Program Analysis

TYPICAL ADJACENCIES

Novus Site

Zoning Code

R1-6

Zoning Code

R-4

Zoning Code

CSS

Zoning Code

R-3

Zoning Code

Zoning Code:

GID

Zoning Code

MU-ED

Zoning Code

RMH

Zoning Code:

Zoning Code R1-6 Zone Description: Single-Family Residential

Zoning Code R-4/R-3 Zone Description: Multi-Family Residential General

Maximum Height 30 Maximum Coverage 45 Minimum Site Area 6,000 Minimum Lot Depth 100 Minimum Lot Width 60 Minimum Front Setback 20 Minimum Rear Setback 15 Minimum Side Setback 5 Minimum Street Side Setback 10 Maxium Density 4.00 Minimum Open Structure Front Setback

Maximum Height 40 Maximum Coverage 60 Minimum Landscape 25 Minimum Site Area 1,740 Minimum Front Setback 20 Minimum Rear Setback 10 Minimum Side Setback 10 Minimum Street Side Setback 10 Maxium Density 25.00 Minimum Parking Front Setback 20 Minimum Open Structure Front Setback Minimum Common Wall Side Setback Minimum Open Structure Side Setback Minimum Common Wall Rear Setback Minimum Parking Street Side Setback

Zoning Code

Maximum Height Maximum Coverage Minimum Landscape Minimum Front Setback Maxium Density 10.00

Zoning Code CC Zone Description

Maximum Height 35 Minimum Landscape 10 Minimum Front Setback 25 Minimum Rear Setback 0 Minimum Side Setback 0 Minimum Street Side Setback

Maximum Height 35 Maximum Coverage 50 Minimum Landscape 15 Minimum Front Setback 0 Minimum Rear Setback 10 Minimum Side Setback 0 Minimum Street Side Setback

15 0 5 0 20

Zoning Code RMH Zone Description: Mobile Home Residence

City Center

CSS

Zone Description: Commercial Shopping and Services

Zoning Code: GID Zone Description: General Industrial District 30 35 30 15

Zoning Code

Zoning Code MU-ED Ordinance Number O2017.40 Zone Description: Mixed Use Educational Maximum Height Maximum Coverage Minimum Landscape Minimum Site Area Minimum Lot Depth Minimum Lot Width Minimum Front Setback Minimum Rear Setback Minimum Side Setback Minimum Street Side Setback Maxium Density Minimum Parking Front Setbac

Zoning Code: AG Zone Description: Agricultural Maximum Height 30 Maximum Coverage 25 Minimum Site Area 43,560 Minimum Lot Depth 150 Minimum Lot Width 115 Minimum Front Setback 40 Minimum Rear Setback 35 Minimum Side Setback 20 Minimum Street Side Setback 25 Maxium Density 1.00 Minimum Open Structure Front Setback

Link to Interative Zoning/Land use Map

https://tempegov.maps.arcgis.com/apps/webappviewer/index.html?id=af023d 9ba8b847eebf9674a24d281619

Zoning Code MU-ED Ordinance Number O2017.40 Zone Description: Mixed Use Educational

Present and future Novus developement corridor showing current structures and future projection of the neighborhood.

TRANSIT ROUTES current and future

LRT track LRT stops

Tempe Streetcar (under construction) novus innovation corridor

T. Streetcar stops site

T. Streetcar - LRT future connection Tempe Streetcar (10-20 years future extension) Tempe Streetcar (potential future connections)

Bicycle Network Bike lane Bike route Multi-use path (paved) Multi-use path (unpaved) Paved shoulder

Sun Path in August

10:00am

12:00pm

02:00pm

04:00pm

Sun Path in January

10:00am

12:00pm

02:00pm

04:00pm

Cont. Macro-Climate (Shade)

Summer Solstice on June 21st

Winter Solstice on December 21st

Spring Equinox on March 21st

Fall Equinox on September 21st

Cont. Macro-Climate (Wind Rose/Prevailing Winds)

Average Wind Speed This section discusses the wide-area hourly average wind vector (speed and direction) at 10 meters above the ground. The wind experienced at any given location is highly dependent on local topography and other factors, and instantaneous wind speed and direction vary more widely than hourly averages. The average hourly wind speed in Tempe experiences mild seasonal variation over the course of the year. The windier part of the year lasts for 9.5 months, from September 27 to July 11, with average wind speeds of more than 6.6 miles per hour. The windiest day of the year is April 29, with an average hourly wind speed of 7.5 miles per hour. The calmer time of year lasts for 2.5 months, from July 11 to September 27. The calmest day of the year is August 15, with an average hourly wind speed of 5.7 miles per hour.

Best time of Year to Visit Tempe

Wind Rose

Fire Station Iteration 1

Fire Station Iteration 2

Trumpf Factory Benefits of VRF

Consistent comfort Quiet operation Energy efficiency Installation flexibility, great for tight spaces Heat & cool simultaneously Zoned heating & cooling Fewer breakdowns/less downtime

Fire Station Iteration 2

This roof got me closer to a structural solution. Changes were still necessary to allow for column grid, habitable spaces and roof to work better together. This solution resolved many things including allowing for light to better penetrate throughout the building.

Fire Station Iteration 3

The courtyard was made the focal point of this iteration, to align better with values

Novus Firestation Matthew Anderson 41

Final Iteration

Site Plan

Spring Equinox

Summer Solstice

Winter Solstice

Solar

19.

GROUND FLOOR PLAN 1. Entrance 2. Lobby 3. Kitchen 4. Dinning 5. Office 6. Restrooms 7. Storage 8. Study 9. MEP

10. Control Room 11. Break Room 12. Gym 13. Training 14. Shop 15. Turnout 16. Laundry 17. Dorms 18. Stairs and Lift 19. Couryard

GROUND FLOOR PLAN 1. Entrance 2. Lobby 3. Kitchen 4. Dinning 5. Office 6. Restrooms 7. Storage 8. Study 9. MEP

10. Control Room 11. Break Room 12. Gym 13. Training 14. Shop 15. Turnout 16. Laundry 17. Dorms 18. Stairs and Lift

GROUND FLOOR PLAN 1. Entrance 2. Lobby 3. Kitchen 4. Dinning 5. Office 6. Restrooms 7. Storage 8. Study 9. MEP

10. Control Room 11. Break Room 12. Gym 13. Training 14. Shop 15. Turnout 16. Laundry 17. Dorms 18. Stairs and Lift

GROUND FLOOR PLAN

1. Entrance 2. Lobby 3. Kitchen 4. Dinning 5. Office 6. Restrooms 7. Storage 8. Study 9. MEP

10. Control Room 11. Break Room 12. Gym 13. Training 14. Shop 15. Turnout 16. Laundry 17. Dorms 18. Stairs and Lift

19.

LIVING QUARTERS 1. Entrance 2. Lobby 3. Kitchen 4. Dinning 5. Office 6. Restrooms 7. Storage 8. Study 9. MEP

10. Control Room 11. Break Room 12. Gym 13. Training 14. Shop 15. Turnout 16. Laundry 17. Dorms 18. Stairs and Lift 19. Courtyard

12.

LIVING QUARTERS

1. Entrance 2. Lobby 3. Kitchen 4. Dinning 5. Office 6. Restrooms 7. Storage 8. Study 9. MEP

10. Control Room 11. Break Room 12. Gym 13. Training 14. Shop 15. Turnout 16. Laundry 17. Dorms 18. Stairs and Lift

Circulation

Section - South Facing

Section - East Facing 54

Roof Structure

Courtyard

Green Wall

Pressure Zones 60

North

South 61

Elevations

East

West

Shou Sugi Ban wood planks

CMU Block

Aluminum Mullions 63

Steel Framing

Standing-Seam Steel Roof

Materials

Perspectives