Krystn Rilloraza Architecture Portfolio by rilloraza

KRYSTN RILLORAZA

Architecture Portfolio 2016-2018

m: +1 (847) 749-7639 e: krystn.rilloraza@gmail.com www.rilloraza.squarespace.com www.linkedin.com/in/rilloraza

University of Illinois at Urbana-Champaign Master of Architecture GPA: 3.58/4.00 | Dec. 2018

Technische Universität München Exchange Program Apr. 2018 - Jul. 2018

University of Illinois at Urbana-Champaign

Bachelor of Science in Arch. Studies GPA: 3.45/4.00 | May 2015

Skidmore Owings & Merrill, LLP

Chicago, IL | Architectural Designer Contribute to preparation of design through drawings and physcal/digital models. Formulated architectural plans and diagrams for staff and client support. Apr. 2016 - Jun. 2016

Canopy / architecture + design, LLC

Chicago, IL | Intern Architect Responsible for providing staff and clients with design and architectural support. Developing conceptual, construction document, and marketing deliverables for variety of projects. Nov. 2015 - Apr. 2016

Programs

Rhinoceros 3D Studio Max Adobe Suite AutoCAD Autodesk Revit Google SketchUp Microsoft Ofﬁce

Interests

Building Information Modeling (BIM) Sustainable design Climate responsive design High performance building design Building-envelope systems Inclusive design in architecture

University Housing

Urbana, IL | Desk Clerk Responsible for assisting residents or guests with their questions and concerns. Process mail and packages, organize lost and found items, notify residents of overdue items. May 2013 - May 2014

Experimental Envelops

Temple Hoyne Buell Hall | Urbana, IL Nov. 2017

MAKER/THINKER: Chicago Biennial Temple Hoyne Buell Hall | Urbana, IL Jan. 2018

Languages

English, Filipino, Spanish, Korean Dean’s List, Spring 2014

45’

85’

36’

45’

A 05.

07. 57’

16.

85’

09.

02.

04. 15.

14.

19.

06.

11.

04. UP

08.

16.

04.

17. UP

34’

08.

12.

42’

17. UP

08.

04. 17.

01.

42’

02.

42’

08.

18.

17.

34’

02.

04. DN

84’

42’

04.

09. DN

42’

07.

09. 10.

42’

142’

36’

45’

06.

61’

08.

17.

13.

A 167’

GROUND LEVEL PLAN

41’

58’

54’

BASEMENT 1 PLAN

14’

58’

54’

BASEMENT 2 PLAN

14’

Mountain Film Institute Luster, Norway Spring 2017 Dedicated to support the art of mountain films, my proposal aims to provide spaces for film viewing, exhibition and shelter while providing views to the Hurringane peaks. The harsh climate of the mountains in Norway and the 2030 Challenge with 60% target was considered in the design and technologies of the institute.

01.

rectangle form with the long side towards the south to maximize solar gain and views to the Hurringane.

D A I LY O C C U P A N C Y The different activities that occur in the institute was broken down to four categories: relax, work, observe and watch. The daily occupancies of spaces that fall under each category were studied so that the placement of the different program areas correspond to the time of day that activity is being done.

02.

extrude from the south wall for program for views.

RELAX

03.

carve a path through the institute to provide for a tunnel view of the Hurringane from the approach.

WORK

O P E R AT I N G H O U R S WORKERS HIKERS ARTISTS SCIENTISTS

04.

add the glass column as the entrance and acts as a beacon in the evening hours.

OBSERVE

WAT C H

DIMINISHING VIEW OF THE HURRUNGANE PEAKS As the user decends through the Institute, the view of the Hurringane peaks diminishes based on the activity on each level.

UNOBSTRUCTED VIEW panoramic view of the Hurrungane peaks on the terrace by the main enterance.

FRAMED VIEW Experience the Hurrungane peaks with the exhibit.

NO VIEW Focus on the mountain films.

f a

H E AT I N G / V E N T I L AT I O N C O N C E P T a: thermal solar panels, 1,030 sqft. b: ventilation & heat recovery c: water d: heat store e: operable windows f: naturally ventilated

e b

WAT E R C I R C U L AT I O N C O N C E P T

a: water collection b: disinfection c: heat store d: micro waste water filtration e: showers f: water saving fixtures g: grey water reuse

POWER / ELECTRICITY CONCEPT a: photovoltaics, 15,400 sqft b: heating c: excess power sold to grid

Approach from the main road.

Main entrance.

a . double skin facade:

U N F O L D E D FA C A D E & S O L A R E N E R G Y

electronically operated PV panels a i r c a v i t y, 3 6 i n anodized aluminum rainscreen panel rainscreen structure air gap, 2 in OSB, 1/2 in mineral fibre insulation, 16 in air/vapor barrier precast concrete wall panel, 16 in gypsum board, 5/8 in

100

kWh/sqft

b . occupiable roof structure:

stone tiles, 1 in strain & drain vapor barrier OSB, 1/2 in mineral fibre insulation, 16 in concrete hollow core, 16 in

c . raised floor: stone tiles, 1 in raised floor support floor diffuser concrete hollow core, 12 in

d . dropped ceiling:

knife edge dropped ceiling light fixture reflector return air duct

e . box window system:

aluminum frame single glass air gap, 11 in double glass, low-e, 1/2 in. space with argon gas thermally broken frame

f . concrete floor structure:

polyethelyne house wrap mineral fibre insulation, 20 in concrete slab, 22 in concrete footing, 24 in

2 0 3 0 C H A L L E N G E , 6 0 % TA R G E T b

Target 60% (kBTU/sqft-yr)

Floor Area (sqft.)

Required energy (kBTU/yr)

Enetertainment

16.8

18046

303,173

Lodging

28.8

2,569

73,987

Cafeteria

82.8

1,433

118,652

Library

36.8

818

30,102 525,000

154,000 kWh/yr

Solar Energy on Surface (kWh/yr)

Solar Energy Generated (15%) (kWh/yr)

PV Panels Closed (95%/yr)

572,200

86,000

81,700

PV Panels (5%/yr)

705,000

105,900

5,300

PV on Roof

447,500

67,100

BIPV

50,400

7,600

7,600 161,700

161,100 kWh/yr WALL R-VALUE: 63.91 ROOF R-VALUE: 62.45 FLOOR R-VALUE: 79.66 WINDOW R-VALUE: 02.17 WINDOW U-VALUE: 00.46

0’ .5’

2.5’

5’

Museo Modulo Chicago, Illinois Fall 2017 In collaboration with Max Zorn the Museo Modulo is the headquarters for the Chicago International Architecture Biennale 2017 located in the neighborhood of the West Loop in Chicago. Our proposal makes architecture as a form of public art and a center for cultural production.

The museum of the future should continue to grow and expand instead of being constrained by a form. The concept of Metabolism informs the structure of the museum. Modules that house different exhibits are created in the base of the museum, flown out to different artists, scientists, or historians using deployable balloons, and brought back to the museum to be plugged in. This allows for the museum to continue to grow instead of removing exhibits to be replaced with something new. This also creates an opportunity to transport exhibits to other locations around the world. The museum not only exhibits artifacts, but also becomes a space for collaboration and learning. In addition to the exhibition modules, there are also modules for cafes, lounges, libraries, etc. These modules are able to shift and rearrange itself based on a profile that each visitor submits. Therefore, the museum shapes itself to the needs of the visitor. The artifacts in these modules represent different moments in time, therefore these artifacts should remain to be exhibited, to never be forgotten. We should not forget our history, it plays a big part in shaping our present and our future.

Atrium View.

Lobby view.

a b

a. 150/50 mm steel RHS

b. roof construction: stone tiles protective layer; seal insulation reinforced concrete floor deck 310-450 mm steek hollow-floor construction reinforced concrete slab

c. cinema wall construction: double polycarbonate panels d. floor construction: 30 mm flooring 140 mm composite floor slab with thermal grid 310-450 mm steel hollow-floor construction reinforced concrete slab

e. auditorium wall construction: double glazing, 0.5 spacing fabric curtain 6mm laminated safety glass f. gallery wall construction: double glazing, 0.5 spacing 6mm laminated safety glass

g. 6 mm laminated safety glass grate

h. aluminum siding insulation reinforced concrete

gallery wall construction: concrete panels with perforations double glazing, 0.5 spacing

basement wall construction: vapor barrier insulation reinforced concrete

k. basement floor construction: stone tiles reinforced concrete insulation vapor barrier

Other Projects 1. Professional Work 2. Found Moments 3. Deployable Structures 4. Models

1. Professional Work: Skidmore Owings & Merrill (SOM) - Architectural Designer, Chicago, IL

During my time at SOM Chicago, I was fortunate enough to join a team working on a mixed use development in the heart of Chicago’s Lincoln Park neighborhood. I had the opportunity to work on the exterior facade design and model (above).

2. Found Moments: Summer 2018, Technische Universität München

In collaboration with Maja Paulsen Skjerdingstad and Pauline Vermeulen. In speculation of the possible atmospheric character of the shared spaces of a very large collective building, we were asked to find an existing place that expresses material atmosphere. Then recreated the lighting levels and atmosphere we observed in the photograph (above) by modeling in 1:10 scale and photographing the model from the exact angle (right).

angle of each angulated member: α = 360°/9 = 40° Ψ = φ = 180° - α Ψ = φ = 180° - 40° = 140° length of each angulated member: sin(α/2) = (b/2)/l sin(40°/2) = (b/2)/9” b < 6.16”

3. Deployable Structures: Fall 2016, University of Illinois at Urbana-Champaign

In collaboration with Miya Teng, Ivana Rakshit, Yuqiao Zhang and Edward Shen. We studied deployable structures in order to explore its potential in architecture.

4. Models: Fall 2016, University of Illinois at Urbana-Champaign

In collabration with Norissa Coleman. Model for a proposal for an Aviation Maintenance Technology and airport hangar for the Parkland College Institute of Aviation in Savoy, IL.

THANK YOU e: krystn.rilloraza@gmail.com http://linkedin.com/in/rilloraza/