MIRANDA EMZA PORTFOLIO 2018 - 2019
miranda emza
MIRANDA
E
EMZA +64 21 345 099 mirandaemza@gmail.com https://www.instagram.com/emza.architecture/
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E D U C AT I O N 2019 Victoria University of Wellington Bachelor of Architectural Studies (BAS) Major in Architecture 2016 Diocesan School for Girls, Auckland National Certificate of Education Achievement (NCEA) Level 3 Endorsed with Merit
ARCHITECTURAL COMPETENCE Software Skills AutoCadd, SketchUp, Adobe Suite (Photoshop, InDesign, Illustrator), Revit, Maya, Rhinoceros 3D, 3ds Max, Lumion, Keyshot, Vray, Microsoft Office Competent in both Mac OS & Windows 10 Practical Skills Hand/Cadd Drafting, Hand Sketching, Model Making, Laser Cutting, Graphic Design, Multi-media Art (Painting, Textile), Digital Art
LANGUAGES English - Native Indonesian - Intermediate
ACHIEVEMENTS 2019 New Zealand Institute of Architects (NZIA) Wellington Library Narrative Design Competition Highly Commended - 2nd Place 2018 Victoria University of Wellington Annual Architecture and Design Exhibition Top Four Second Year Student to Present at Exhibition
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CONTENTS
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WELLINGTON LIBRARY DESIGN Highly Commended NZIA Competition 2019 Narrative Design 05 - 12
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ADAPTIVE RESILIENCE VUW Third Year Digital Design Studio 2019 Systems Interaction 13 - 20
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PORIRUA RESIDENCE VUW Third Year Practice & Management 2019 Finance Planning, Organisation & Construction 21 - 24
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HIGH RISE APARTMENT VUW Third Year Construction 2019 Facade Construction 25 - 28
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ARTIST-IN-RESIDENCE VUW Second Year Design Studio 2018 Formal Composition 29 - 32
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ACOUSTIC MUSIC VENUE VUW Second Year Design Studio 2018 Collage Layering 33 - 38
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01 WELLINGTON LIBRARY DESIGN 2019 Highly Commended New Zealand Institute of Architects Wellington Central Library Design Competition
The re-design of the Wellington central Library adopts the narrative of “Drawing Near”. Where the exploration of concrete’s structural malleability demonstrate geometrical memberships with submissive detail. Using context as a compositional precedent; civic square that is recognised as the heart of Wellington central, holds a major collection of Wellington’s congregational buildings. It became the subject of the design approach to analyse the social network that evolves towards the site. This imposed a formal synthesis of the internal design for the library to reflect on the collective of social integration and interval of geometrical hybridity. Implementing these parameters in the floor plans and sections inform the narrative by looking at these spatial organisations in variable perspectives, creates the emphasis of “drawing near” to seeking opportunity in detours throughout the design. In itself, a connotation of the library’s programme - a congregation of space that thrives knowledge and curiosity.
01. Victoria St Facade Render
Using civic square as the paradigm of the final journey, the megastructured arch that is located to the south of the building, transverse the final moment of the journey through the library. Opening the solid facade to the view of the civic square, reveals the breadth of light and grasps the composed scenery of Wellington’s waterfront, with a space designed for quiet and uninterrupted habitation.
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02. Site Context Analysis
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L5
L4
L3
L2
L1
GF
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03. Library Floor Plans
main hall
G
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Taking the context precedent into formal composition illustrates the development of the final design to its origin of geomterical refinement. To inform this with the design, the concept of redirecting geomtery back to true north influenced the alignment of spatial planning. The intersection of singular geometry portray intervals at different variances. This informs amongst the narrative of which perspective can come into the roll of new openings. Where light can direct geomtery and different spaces can be occupied and variable instances.
PRAYER ROOM
L5
10
victoria st entrance
main entrance
G
G
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atrium arch
archives entry
L1
L3
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01. Hero Render
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02 ADAPTIVE RESILIENCE 2019 Digital Design Studio Systems Interaction | Analysing the Natural/Biological processes of living organisms (bio-type) in relation to their respective interactions with the physical environment
This project explores the interaction between biotype and site/ context within an extended field of effects including climate, convention and materiality. The design is influenced by the characteristics of the ‘Deepstaria Enigmatica’ - a chosen Biotype to synthesize the biological adaptation of a hyper-responsive architecture. Introducing conventional programming in combination with extreme environment interventions, the project challenges established design logic with the disruption of an epidemic. The extensive design responds to the extraterrestrial environment, adopting systematic adaptations derived by the Biotype. The project visualises the conservation of end-user population and is designed to maintain energy generation, food sustenance and water filtration.Through the biotype’s conception of fortification and selfpreservation, the architecture interractively accommodates for the climatic event of a prospective biological pertubation.
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02. Render from Ground Level
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03. Wellington Site Context
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04. Digitalisation Study of Disintegration
Using Maya to study the digitalisation of formal conception, the intial development of this project was to develop a pneumatic alloy of precedented architectural dilation from the Deepstaria biotype. A parenthesis of nexus latitudes using vertex interactions and distribution of particle clusters to deploy formal synthesis of unbridled architecture. A progression into architectural digitalisation from the initial stages of the disintegration effect was carried out through a furhter digitisation study in Maya. Executing through Nparticla tools with platonic geometries and Mash to manipulate inflation of orbicular geometry; to transmitting particles from planar surfaces for cluster deformed solids. These tools were defined further in the overall formal configuration of the design to manipulate more pragmatic architectural parenthesis.
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05.
06.
Developing into a more architectural structure, this follows into phase four of the digitisational study. Now using N_Particle trails and N_Cloth deformer to convulse platonic orbicular forms executed in the prior phases, and manipulate organic complexies into architectural more parameters for the population adaptation and biological response of the resilience.
08. Landscape Planes
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05. Agriculture Plantation 06. Biofuel Extraction Domain 07. Transportation Huab
07.
Introducing scale and programme with extreme environmental interventions, the biological response of the Arx occupies an isolated habitation to coax the remaining population. designing a hyper-responsive architecture that facilitates for the inhabitants through technological interventions of Biofuel energy generation, hydronized water filtration systems, and a botonist engineered genetically designed agriculture plantation. Chemical polutants and radiation has dominated the Earths surface environment, depreciating the Earth’s environment for human habitation. With the avian epidemic that was the off spring of the worlds ecosystem degrade, humans stand at risk of contamination from the outside world. Hydronized carbon dioxide vessel networks filter the itnernal oxygen capacity of the Arx from radiation and polution. Where the Gamma Ray Voronoi network acts as a defense mechanism to retract avian living from the Arx external surfaces to avoid inhabitation and minimise risk of contamination.
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09. Transportation Particle Trails
01. South Render of Residence
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03 Porirua Residence 2019 Practice & Management Integration of design & Project Management Practice using BIM software to analyse planning, organisational and finance practice in a residential rebuild.
This project was collaborative between the four disciplines: Landscape, Interior, Building Science and Architecture. As a team, each architect from the individual disciplines were assigned tasks in the development of planning, financing and designing of the residence. As the architect’s role, the task was to re-design the residence and build from it’s original structure on the site of Porirua. The architectural design was limited to a budget assigned by the Project Manager, amongst other site limitations that were concerned of the council.The work below presents all the individual participation as the architect of the project which involved designing the structure and exterior facade of the residence.
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2 A3.2
Level 2 Ceiling 2511.5
Ground Floor Ceiling 2376.6
ground floor
2 A3.2
22068
Level 2 Ceiling 2511.5
C1
1:150 SECTION 1
1 A3.2
Ground Floor Ceiling 2376.6
ground floor Level 2 Ceiling 22068 2511.5
Ground Floor Ceiling 2376.6
C1 1 A3.2
ground floor 22068
Level 2 Ceiling 2511.5
Ground Floor Ceiling 2376.6
ground floor 22068
1:150 SECTION 2
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GROUND
02. North-East Render of Residence
SECOND
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ROOF
01. Jervois Quay Street View
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04 high rise Apartment 2019 Construction Integrating constructional theory with design to document the construction of a multi-storey facade for a high-rise apartment and office building.
Following a series of constructional practice in core structural design and building services, this project encompases the final structural design stages of the high-rise apartment. Looking at how the structure integrates with the overall facade, using constructional drawings to communicate the building envelope works. For this project, two architects and a project manager worked collaborately to complete the over structure of the building. Taking on the role as one of the architect’s was to design the six upper-storeys for the apartments. The floors below consist of offices and a retail ground floor which was designed by the other architect. The following drawings demonstrate a section cut-away render of the recessed balcony detail with a section detail draiwng to communicate the construction of the facade structure.
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PRODUCED BY AN AUTODESK STUDENT VERSION
2 400 mm x 100 mm hollow alumninum vertical louvre fixed to horizontal lovre with stainless steel bracket.
330 x 200 x 600 mm depth Steel Primary I-Beam mounted by Steel bracket to 300 x 300 Precast Concrete Column. Primary beams span across 6 x 9 m structural grid. Externally exposed steel beam treated with high performance anti-corrosion paint coating
93 150
Armstrong seismic perimeter support arm. See armstrong ceiling specifications. Rondo Seismic Wall Angle Fixed to Ceiling Baton, Supporting suspended ceiling to support arm with 8 mm seismic gap to adjacent wall. See manufacturers details and specifications for fixings.
1800
Apartment Floor 2
Apartment Floor 2
Apartment Floor 2
Apartment Floor 2
Apartment Floor 5
30600
30600
30600
30600
40500 Apartment Floor 5 40500
600
Four Panel external sliding door from interior of apartment to recessed balcony. 2100 mm height with double glazed panelling. Brushed aluminium framing and thermally broken mullion with brushed metal handle.
600 x 600 Reinforced Concrete Column. For reinforcing details, refer to structural engineer. Frameless Glass Balustrade 1150mm x 1250mm x 12mm Panel (Sizing customized per balcony)
180 mm Laminated timber floor panelling, 8 mm thick, fixed to insitu reinforced concrete slab.
Concrete masonry tiling units 300 mm width. Layed to insitu reinforced concrete slab flooring. Recessed Balcony
Apartment Interior
Stainless Square Spigot Top Mount SS205 80 mm x 80 mm. Attached to Concrete foundation lip elevated 50mm for flashing and drainage.See BelAire manufacturers details. Alumnium Louvre System, installed to Manufacturers Specifications, Fixed into concrete floor slab withmoisture vapour seal flashing.
Insitu reinforced concrete slab with 100 mm precast concrete ribs spanning across and 25mm timber infill.
1200 Apartment Floor 4
Apartment Floor 2 27300 30600
Apartment Floor 1 Apartment Floor 2 27300 30600
Apartment Floor 1 Apartment Floor 2 27300 30600
37200 Apartment Floor 4
Apartment Floor 1 Apartment Floor 2 27300 30600
37200
600
600
Drawing:
2780 Exposed elevation
54 JERVOIS QUAY SARC 321 PROJECT THREE Address: LAMBTON, WELLINGTON JERVOIS TOWER 6011 Drawn By: Author Drawing: Exposed elevation 54 JERVOIS QUAY Project: SARC 321 Drawing: PROJECT THREE Address: Date: LAMBTON, Drawing: Drawing: Date: Date: 10/08/19 10/08/19 WELLINGTON 54 JERVOIS QUAYJERVOIS TOWER 54 JERVOIS QUAY ess: |ON JOSH EAGLE 6011 SARC 321 PROJECT TWO Address: LAMBTON, WELLINGTON Drawn By: Author LAMBTON, WELLINGTON Project:
Date:
JOSH EAGLE
Unnamed
180 mm Laminated timber floor panelling, 8 mm thick, with stained timber finish and fixed with secret galvanized timber screw.
2100
Apartment Floor 1 204
d
Unnamed
Unnamed
A224
10/08/19
Date: Scale:
10/07/19
VICTORIA UNIVERSITY Date: 10/07/19 FACULTY OF ARCHITECTURE
Scale:
A224
800
10/08/19
VICTORIA UNIVERSITY
A224
A224
FACULTY OF ARCHITECTURE VICTORIA Drawn UNIVERSITY VICTORIA UNIVERSITY VICTORIA UNIVERSITY VICTORIA UNIVERSITY JERVOIS TOWER 6011 6011By:SECTION Scale: Drawn Drawn By: AuthorBALCONY Scale: By: AuthorScale: Scale: Author FACULTY RECESSED DETAIL OF ARCHITECTURE FACULTY OF ARCHITECTURE FACULTY OF ARCHITECTURE FACULTY OF ARCHITECTURE
Drawing:
PRODUCED BY AN AUTODESK STUDENT VERSION
dess:
Scale
1:50
Unnamed
Drawing:
Standard GIB Plasterboard, Resene Alabaster interior paint finish. 90 mm x 45 mm timber framing at 600 mm spacing. Pink Batts silencer Acoustic insulation r-value 1.5 100 mm. GIB Noiseline 13 mm FRR 60/60/60. James hardie Titan Facade panel board exterior.
Apartment Floor 1
Apartment Floor 1
Apartment Floor 1
Apartment Floor 1
27300
27300
27300
27300
UnnamedDate:
54 JERVOIS QUAY 54 JERVOIS QUAY SARCLAMBTON, 321 PROJECT TWO Address: LAMBTON, WELLINGTON ON WELLINGTON
Drawing: Unnamed Date: 10/08/19
10/08/19
A224
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Date:
10/08/19
A224
Date:
10/08/19
A224
A224
Hanger suspended ceiling wire to structure. Details and specifications by structural engineer. 800 mm free ceiling cavity between beams and tile frame allowing 300 mm ventilation piping and full size cable trays to exit core. Refer to building scientist’s service plan. 330 x 200 x 600 mm depth Steel Primary I-Beam mounted by Steel bracket to 300 x 300 Precast Concrete Column. Primary beams span across 6 x 9 m structural grid. Rondo Metal Ceiling Baton. 13 mm GIB Standard Plasterboard with Resene Alabaster Paint Finish. AtA3104 tached with Steel bolt. Size specified by engineer.
A3104
Standard GIB Plasterboard, Resene Alabaster interior paint finish. 90 mm x 45 mm timber framing at 600 mm spacing. Pink Batts silencer Acoustic insulation r-value 1.5 100 mm (ALL SIMILAR). GIB Noiseline 13 mm FRR 60/60/60. James hardie Titan Facade panel board exterior. (CONSISTENT FOR ALL EXTERIOR WALLS UNLESS STATED)
Four Panel external sliding door from interior of apartment to recessed balcony. 2100 mm height with double glazed panelling. Brushed aluminium framing and thermally broken mullion with brushed metal handle fized to Fairview windows & doors manufacturers details.
600 x 600 Reinforced Concrete Column. For reinforcing details, refer to structural engineer.
Concrete masonry tiling units 300 mm width. Layed to insitu reinforced concrete slab flooring.
Frameless Glass Balustrade 1150mm x 1250mm x 12mm Panel (Sizing customized per balcony)
500 mm x 100 mm Alumninum horizontal louvre system cantilevered over 70 mm cavity gap.
400 mm x 100 mm hollow alumninum vertical louvre fixed to horizontal lovre with stainless steel bracket. Double Glazed Window, with termally broken Aluminium window framing system, fixed to manufacturers specifications
RECESSED BALCONY DETAIL OF WEST FACADE OF APARTMENT FLOOR 4
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01. Isometric Section of Artist’s Residence
05 Hataitai artist'-in-residence 2019 Design Studio Creative processes involving line drawings to explore form within the environmental design. Resolving the formal space in sectional and plan dimension.
The projectis based around the Hataitai site where three consecutive projects are designed to develop around the artist’s residence for a multi-artistic complex. Beside the artist’s residence is the Hataitai local art gallery which follows through to the back of the site for the small-accoustic music venue. The displacement of the artist’s residence was designed to accommodate for wheelchair accessibility and a place for serenity. The project’s parameters were to use concrete as the main structural material and specifically at 200 mm thickness. This was to create an emphasis on scale and formal conception. To work and design in section and plan communicated the spatial design in a more pragmatic dimension. The design decisions were based around the site, lighting and accoustic parameters of the complex as a whole.
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1
2
PLAN FLOOR 1
PLAN FLOOR 2
PLAN FLOOR 3
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North Section
East Section
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1
2
01. S
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Street View of Complex
06 Hataitai acoustic music venue 2019 Design Studio Creative processes involving line drawings to explore form within the environmental design. Resolving the formal space in collage renderring.
Following the Hataitai artist-in-residence project, this final project completes the development of the site. For this project the design was progressed through montage design. By layering textures and colours, this informed the design in an artistic manner to compliment the site’s artistic value. Maintaining to conform to the needs of wheelchair access in the accommodation of an acoustically designed environment with the development of the spatial complexity for the rest of the site. Using montage drawings with the consideration of light and the acoustic environment; the volume of the space is explored in the coherence between exterior and interior design within its surrounding context.
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WEST STREET SIDE VIEW OF SITE
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02. Pathway to Music Venue from Street View 03. Hataitai Art gallery and Artist Residence from Street View
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04. Courtyard of Music Venue
N
N
Further back of the site maintains a more comfortable level of sound away from the street traffic noise, making it most ideal for orienting the music venue.
N
05. Site Context Elevation, Section & Plan
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06. Interior of Music Venue
FORMAL EXPLORATION OF SPATIAL CONTEXT AND RESOLVING THE RAMP
RE-ITERATING THE FORMAL COMPOSITION OF THE RAMP
RE-ORIENTING THE SPATIAL COMPOSITION BY MAXIMISING THE CENTRE AREA FOR OUTDOOR SEATING POTENTIAL AND MAXIMUM EXPOSURE TO SUNLIGHT
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07. Volume Development & Isometric Drawing of Site
