2021_Portfilio_Elizabeth Franzen

Page 1


franzene1@email.arizona.edu (520) 977-9834 Tucson Az

University of Arizona Bacholars of Architecture 5th year GPA 3.78

Study Aboard in South Africa with CAPLA May -June 2019

1st Place winner of the U.S Department of Energy Solar Decathlon Mixed Use Division Team Lead Jan-May 2020

Bank of America Low Income Housing Challenge Jan-May 2020

PHIUS Certification training Currently pursuing certification

EcoDistrict AP Tau Sigma Delta Vice President

Rhino Grasshopper Enscape Adobe Illustrator Adobe Photoshop Adobe Indesign Physical modeling Revit WUFI Sefaira Formit Processing

Architectural Intern for Creative Machines Current Joe OConnell (520) 294-0939

Bubble Futures Platform Accelerate The City Finalist

Current Elizabeth Dawson (520)850-5144

1st Place US department of Energy Solar Decathlon Mixed Use Division

Design Build

Richard + Bauer Systems Integration Prize runner up

optional summer class in partnership with Dalhousie University Cape Breton, Nova Scotia, Canada, 2018

University of Arizona Foundation Award for Grit

Volunteer with Habitat for Humanity 2016

Smithgroup Scholarship

Internship at the Tucson Museum of Art 2016

Wildcat Excellence Scholarship

Architectural Intern for Dawson Rose Design

Silver and Sage Scholarship Gordon Heck Memorial Scholarship

Current Position

Student Representative on the Board of Diversity and Inclusion at CAPLA Jan-May 2020

TA for computational design and environmental design courses Jan 2020 - Present

First Place in the Pima County Fair Oil Painting High School Division





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B B

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B B

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LEVEL 1 C

PLANS 1/16"=1"-0"

0 48 16

32

LEVEL 0

LEVEL 2

LEVEL 3

LEVEL 4

LEVEL 5


24.00

12.00

TRASH

12.00

D.E.G

Tent Structure

Solar Chimney

Bi Facial Solar Panels

Shade


VERTICAL V VE E ERTICAL FAR FA FARM AR A RM

STACK S TA ACK K EF EFF FFECT F

STAC STA SST TTA TAC AAC CK C K EEFF EFFE FFFE FF FEECTT FFEC

CROSS VENTILATION L ATION LATION LA B ER N O ULLIE

NOITA LITNEV SSORC


6

5

4

3 2

B

A

1

A

6.THERMALLY BRAKE 5.AUTOMATED WINDOW WITH OCCUPANCY OVERRIDE 4.POLYETHYLENE MESH OVER ALUMINUM ANGLE 3.CHILLED BEAM 2.WOOD SLAT DROP CEILING to create BERNOULLI EFFECT 1. RADIANT FLOOR SLAB

B SOUTHERN WALL SECTION 1'-0" - 1/2" 0

2

4


CiC Native Plants specifically the species needed for migrating monarchs are planted in the specially designed precast concrete shear walls. This adds moisture to the air while bringing the sonoran desert into the architecture. These native plant walls brings the college of agriculture, environmental studies and ecology into the CiC.

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Theory: Urban Desert









Maximize Wood Construction Benefits

eliminate thermal bridging

Maximize Natural Ventilation

Cool Air with Bioswales

Collect Rain Water

Agrivoltaics Clean Efficient Energy Accessible Healthy Food

Increased Accessibility to Alternate Transport

Solar Powered Ride Share

Increased Connectivity through Bike Path

Increase Walkablity

Shared Community Resources

reduce utility rates with renewable


Existing

New Build

The Loop encourages the community to become actively engaged in sustainable practices like urban farming, solar collection and bioswales.





Hydro - Cotta Hydro-Cotta is a brick specialy designed to cool air passively in the Sonaran desert region. The regionally sorced red clay is mixed with fly ash, a by product of burning coal to produce a thermal mass. It is the perforated with geometry proven to increase the speed of gas that is forced through it. This preferation is coated in a hydrogel. With the added moisture and increased speed the air passes over hte skin creating a cooling effect.


Theory A1= cross sectional area of largest aperture V1= velocity of the air moving into the module A2= cross sectional area of smallest aperture V2= Resulting velocity

Cross sectional area is the area of the 2D shape resulting form a cross section A1=7.4 in2

A2= .05 in2

A1V1=A2V2 = A2=A1 = V2=V1

Sonoran Desert

Hydrogel

1.25”

2.5”

of smallest constriction x2Volecity = dist Length of smallest constriction x2 =Length distance of traveled at constant

Application of Theory A2=A1 = (A2/A1)V1=V2 =

M dule Mo

V21/156=V1

A1= 7.4 in2 V1= tucson average wind speed 9 kt (10.35 mph) must convert mile to inches = 655776 A2= .05 in2 V2= Resulting velocity

V21/156=10.35 V2=1,614.6 mph The air would then travel at a constant velocity of V2= 1,614.6 mph for 2.5” and then decelerate

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Hydro - Cotta Theory: Prototyping I tested the ablitly of the geometry of the terracotta module to direct and speed up pervalining winds. At a 1/4th scale a CNC milled negative is used to shape terra cotta clay. They are then dried and stacked to create one brick. The bricks are stacked in an acrylic testing area. A fan was placed on one side of the wall and a smoke gun is used to see the air flow. Video was used to analyze the speed. I believe the next step to testing the geometry would be creating a one to one brick.

3"

2 3/4"

75 /8"

5.0

0

/4" 11





SITE



SUMMER

WINTER


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B C



URBAN FLUX


TOWNHALL

AUDIO

COMMUNITY RESOURCE

URBAN CONNECTION


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A


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