Juan Planells - Portfolio (Architecture, Design, Visualisation) - 2021 by JCPV

planells selected works 2014 - 2020

architecture.design.visualisation portfolio

resume Juan Planells Architectural Graduate

Juanqui@planells.com +61 402922062 209 Dryburgh Street, North Melbourne, VIC.

Brief: Architectural Graduate from the University of Melbourne, with five years of experience in CAD, architectural visualisation, design conceptualisation, development, and detailing. Objective: to contribute to a collaborative and dynamic team, through my experience and skills in design, architecture, and the construction field; supporting the organization objectives, raising the standard of the company, and working towards the realization of projects that benefit the built environment and their users.

awards 2020 Our Future Cities Design Competition First Place Project: Root Connection Melbourne, Australia.

languages English - Fluent Spanish- Native Portuguese- Intermediate

education

software skills

2018-2020| Masters of Architecture University of Melbourne Melbourne, Australia

Drawing AutoCAD

2009-2013| Bachelor of Architecture Major in Structural Architecture USMA. Panama City, Panamá.

3D/ BIM Revit 3Ds Max Rhinoceros Grasshopper Sketchup ArchiCAD

work experience 2016-2018 CAD Designer Selina Panama City, Panama (global position) Key tasks: Drafting, design, and development of architectural projects, construction documents, site visits, interior design. Production of 3d model, visualisations, and design presentations of hotels in Latinamerica, Europe, and the United States. 2015-2016 Architectural Assistant AGP (Administradora General de Proyectos) Panama City, Panama Key tasks: Design and development of architectural commercial and corporative projects, 2D Drawing and technical details, 3D visualization and Rendering. Production of graphic and promotion material for Real Estate Fairs 2014-2015 3D Visualiser - Architecture and Interior Design Studio Q Projects Sao Paulo, Brazil Key tasks: Architectural and interior design development, execution of technical plans (2D) and photo-realistic visualisations (3D), presentation to clients and construction supervisions.

[2]

Rendering V-ray (3Ds Max) Lumion Enscape Presentation Photoshop InDesign Illustrator

skills Architectural software & tool handling. Physical model making. Computer-aided design (CAD) drawing and rendering. Knowledge of construction systems. Precise detail drawing. Sustainable design orientation. Fast software learning. Market and project research. Client management. Clear oral and written communication skills. Knowledge of the architectural practice. Knowledge of Australian Standards Scheduling and documenting Open to receiving feedback. Team worker

contents

Biodiver_city (thesis)

The Living Workshop

Root Connection

residential + mixed use

Recivilization Justice Centre

PL&N Tower

office + technical drawings

academic

civic - institutional

Our Future Cities Competition

[3]

Various

rendering + interior design

Chamber of Secrets model making

non-academic

mixed use + masterplan

[5]

Biodiver_city design thesis - individual building design Supercity Studio Year: 2020 Typology: Mixed Use, Residential, High Density Software Used: Rhinoceros, Grasshopper, 3DS Max, Vray Individual Tutor: Benjamin Lau (Farrels) The studio tackles urban densification from a green perspective, with a site located in the busy Melbournes’ CBD. The project consists of developing a masterplan with a FAR of 18:1, followed by an innovative project that undertakes different aspects of sustainability. BiodiverCity focuses on the habitat fragmentation phenomena, and how affects the endangered species and the green balance on Earth, questioning sustainability principles, exploring the relationships between human and biodiversity in the built environment and facilitating the species migration, conservation, and existence.

Rhinoceros + Grasshopper + 3Ds Max + Vray + Photoshop BiodiverCity, Urban_Fragments masterplan, Melbourne CBD, 2050.

“Humans as a coexisting and supporting part of the ecosystem”

DESIGN CONCEPT ECOSYSTEM V

BUILDING AS ECOSYSTEM

SPACES AS HABITATS

[6]

COMMUNITIES WITHIN HABITATS

SPACES OF COEXISTENCE

SITE LOCATION

BIODIVERSITY ELEMENTS

SITE

NATURAL HABITAT

MAN-MADE HABITAT

FLINDERS ST.

YARRA RIVER

BRIDGING SPECIES

UrbanFragments Block (group masterplan) within the Melbourne CBD. EcoBridge System towards Yarra River.

LOGS AS SHELTERS

CREATING HYBRID HABITATS

BiodiverCity facilitates endangered urban and suburban species, focusing on birds, insects, and small marsupials; bridging their seasonal migration, providing shortterm shelters and habitats within the project, and freeing the Australasian flyway path to support birds mobility.

MASSING DIAGRAM

EXISTING HERITAGE BUILDINGS

OPENING MIGRATION PATHS

DENSIFY

CREATE HABITATS

[7] [7]

BUILDING LEADING TO HABITATS

MULTIDIRECTIONAL BIODIVERSITY CIRCULATION

PROGRAM AXO CIRCULATION humans biodiversity PROGRAM

Rhinoceros + Grasshopper + 3Ds Max + Vray + Photoshop

South View

PROGRAM

AREA (m2)

parking

750

retail

1,300

food market

1,200

research institute

20,000

exhibition

1,000

cores

8,600

habitats residential

accomodation

institutional

cultural

bio-retail

mechanic/parking

The building program includes a green-food market, a research institute with exhibitions, and accommodation + residential living units, consists of two towers (north and south) to enhance species mobility in that direction, with eco bridges and urban forests

BOH

2,150

accomodations

29,750

residential

28,000

habitats (eco bridge + urban forest)

10,000

HEIGHT (m)

FLOORS

vertical farming

1,800

accomodation

240.00

total

105,000

residential

210.00

SITE (m2)

6,000

FAR

17.50

BUILDING

LIVING UNITS

STUDIO 45 m2

interior view - habitats

1 BR 60 m2

2 BR 85 m2

apartments balconies

podium

Rhinoceros + Grasshopper + 3Ds Max + Vray + Photoshop [9]

CONSTRUCTIVE AXONOMETRIC

1- Shell structure atrium 1SHELL STRUCTURE ATRIUM 22- Cylindrical liftCYLINDRICAL cores LIFT CORES 3-

STRUCTURAL CONCRETE BEAMS

3- Structural concrete beams 4-

WOODEN FLOOR SLAB

4- Wooden5- floorCLTslabs INTERNAL PARTITIONS 5- CLT internal partitionsSHARE WALLS 6STRUCTURAL 7BALLUSTRADEL MESH 6- Structural share walls 8-

WOODEN-LOG ANIMAL SHELTERS

7- Balustrade mesh

8- Wooden-log animal shelters

5 5 4 3

7 8

4 3

The constructive system combines shell structure atrium with natural and green materials such as CLT, to create a bio-diverse building, reducing the carbon footprint and wooden logs in the balcony that acts as a refugee for fauna and flora.

S-N SECTION

FLOOR PLANS

GROUNDFLOOR

TOWERS

[11]

Urban Fragments - masterplan design thesis - group masterplan Supercity Studio Year: 2020 Typology: Master Plan Software Used: Rhinoceros, Illustrator, Enscape. Team: Michael Groppo, Karen Tsui, Mary Hou. Tutor: Benjamin Lau (Farrels) The site is located in the Melbourne CBD, a high-density segment of the city lacking public space, with the densification of the city centre, UrbanFragments pretends to give back negative spaces for the pedestrian, creating pathways that celebrate the site topography, and pocket spaces to enhance greenery and celebrate biodiversity. TRADITIONAL VS CONTEXTUAL

POCKET SPACES

TRADITIONAL VS CONTEXTUAL

POCKET SPACES

PROJECT VISION

“Weaving a fragmented urban form centered around the circulatory experience that reflects the past, present and future” swanston street entrance

Rhinoceros + Enscape [12]

SWANSTON ST PLAZA

CONNECTIVITY

This block constitutes the epicentre of a whole green and eco-bridging CBD that prioritizes negative spaces within the podiums and celebrates the history of the place by respecting heritage, replicating the original material usage, and keeping heritage-listed façades.

BIODIVERSITY

2020 FIGURE GROUND

VIEW APERTURE

2050 FIGURE GROUND

HIERACHY

ANALYSIS DIAGRAMS

2020

2050

BIODIVERSITY

GROUNDPLANE

HIERACHY

[13] [13]

The master-plan includes 4 skyscrapers, with their targets includes biodiversity, biophilia and wellness, building waste mitigation, and water collection.

[15]

Re-civilization and Relief Justice Centre Outpost Agora (firm-run studio by John Wardle Architects) Year: 2019 Typology: Civic Software Used: Rhinoceros, Grasshopper, 3DS Max, Vray Individual Tutor: Ariani Anwar (JWA)

The studio aims to explore typologies for 2050 supreme courts, addressing the possible future challenges of humanity; in this case, the vision developed for 2050 consisted of a world dominated by increasing domestic violence, a disconnected society and a highly populated urban centre, requiring spaces for relief and support.

Rhinoceros + Grasshopper + 3Ds Max + Vray + Photoshop

North view - Civic Plaza

Artistic Manifestations

Meditation

Reading

Professional Support Public Speaking

One to one Speaking

Reationship with Nature

Writing

PROCESS OF RELIEF FROM DOMESTIC VIOLENCE

SITE The project is located within the Melbourne CBD Legal precinct, in 2050.

[16]

Rhinoceros + Grasshopper + 3Ds Max + Vray + Photoshop

court room interior

NGO interior

Rhinoceros + Grasshopper + 3Ds Max + Vray + Photoshop

MASSING DIAGRAM

1. EXISTING SITE

2. CREATE ORGANIC CONNECTION

3. PROGRAM AND GIVE SHADE

4. ATRIUMS AS CIRCULATION AND LIGHT.

[17]

5. ORGANIC FORM FOR RELIEF AREAS (SOCIAL)

6. SOCIAL CONNECTION AND BIOPHILIC FOREST.

CIRCULATION AND PROGRAM

Legal Aid Clinic -900 m2 NGO- Psychological +Emotional Support -830 m2

Library -700 m2

Rooftop Garden -400 m2

Staff Area - 400 m2

Educational Area -800 m2 To Plaza

24 Judge Chambers - 500 m2

Staff Area - 600 m2 Courtroom 12 - 170 m2 Courtroom 11 - 170 m2

Courtroom 10 - 180 m2 Courtroom 9 - 180 m2

Courtroom 6 - 180 m2 Courtroom 5 - 180 m2

Courtroom 2 - 180 m2

Courtroom 1 - 180 m2 Courtroom A - 500 m2

Courtroom 8 - 170 m2 Courtroom 7 - 170 m2

Courtroom 4 - 170 m2 Courtroom 3 - 170 m2 Courtroom B - 500 m2

To Plaza

re et Lt Lo ns d

ale

Staff and Custody Access - 520 m2

Lo ns da

St re

Reception and Technological Legal Aid

Cafe -300 m2

Lonsday Lane

Circulation & Services - 7000 m2

Underwater Meditation -900 Custody Zone - 600 m2 L-1

PROGRAM Social

GROUNDPLANE

point of connection and urban relief forest to access the community center

CIRCULATIONS Legal

Commercial

Services

Public

Judge

Staff

Accused

The project is located within the Melbourne CBD Legal precinct, in 2050. Apart from the courtrooms, the project includes a community centre assisting domestic violence victims, together with a design that enhances organic shapes, contact with natural elements such as urban forests and rain, using the principles of biophilia to heal and comfort users.

Carbon fibre+powder coated Architectural skin Operable automated double Glass bipv window Fixed double glass BIPV Window panel Steel hanging Atrium support Concrete edge beam

Carbonfiber slender Forest columns.

Double glazed + Alluminium framed water collection.

atrium

Wooden slabs lifted floor Concrete slab+edge beams Background carbonfiber skin

SECTION DETAIL

SECTION A [19]

[21]

The Living Workshop Fieldstudies, Firm-run studio by Fieldwork Architects Year: 2019 Typology: Residential, Mixed Use , Co-Living Software Used: Revit, Sketchup, 3DS Max, Vray Individual Tutors: Vlad Doudaklev, Stephanie McNamara (Fieldwork Architects)

Residents Collingwood Workers and Makers

GIVE BACK Give Back

COLLINGWOD Current Scenario

SITE RESPONSE

“A makers community with facilities to cohabit, exchange ideas and startup their manufacturing-related business”

Create CREATE

Equip and Educate EQUIP AND EDUCATE

Located in Langridge street, Collingwood; this co-living project aims to bring together the manufacturer and industrial professionals from the predominantly industrial surrounding, provide them with equipped workshops and incubator centres, and increasing their business opportunities.

Co-Live

CO-LIVE

langridge st.

Site

Bricks

Children

Concrete

Youth

Metallic Panels Glass/ Curtain Walls

Adults Elderly

Gipps St.

Wood

Russell St.

Raphael St.

Hoodle Street

Henry St.

St. Cromwell

Islington St.

Rokeby St.

Rupert St.

Langridge St. Langridge St.

St.

Hoodle Street

St. Cromwell

Rokeby St.

Bloomburg

Islington St.

Greenwood

St.

Rupert St.

Cromwell St.

Islington St.

Rokeby St.

Rupert St.

Wellington

St.

Langridge St. Bloomburg

Wellington St.

Russell St.

Raphael St.

Henry St.

Wellington

St.

Non Specified

Greenwood

St.

Victoria Parade

150 LANGRIDGE STREET, COLLINGWOOD, VIC.

SITE ANALYSIS

Revit+ Sketchup + 3Ds Max + Vray + Photoshop

150 Langridge St, Carlton. Facades Predominant Material Analysis.

150 Langridge St, Carlton. Surrounding Commercial Age Target Analysis

SURROUNDING BUILDINGS FACADE MATERIALITY.

SURROUNDING ENTERPRISES TARGET GROUP

site

bricks

concrete

site

children

youth

metals

glass

wood

adults

elderly

n/s

MASSING DIAGRAM

WORKSHOP RESIDENTS

COMMUNITY

1. EXISTING SITE

2. GIVE ACCESS

3. SPACES FOR COMMUNITY

5. CONNECTION

4. POPULATION

6. SUN + WATER COLLECTION

PROGRAM AXO

LEVEL 4M

LEVEL 4

LEVEL 3M

The configuration of the building uses the doble-height and the loft typology to create spaces of interaction. The common amenities including kitchen, living rooms, and gaming areas throughout the building are showcased in the southern façade, where the traffic is busier, inviting the local community to engage within the incubator and co-working. AREAS

BUILDING WITH CONTEXT LEVEL 3

Commercial

Green Areas

Living Units

Amenities

1 Bedroom 2 Bedroom

public/community communal residents private/ living units maintenance - Public/ Community

LEVEL 2M

- Communal - Habitants - Private - Living Units - Mantainance.

LEVEL 2

PUBLIC-PRIVATE BOUNDARIES

LEVEL 2

Public/ Community Communal - Habitants Private - Living Units Mantainance.

LEVEL 2

T. ELL S MW CRO

GROUND LAN GRID G

WATER COLLECTION

[23]

LEVEL - 1 E

Services

workshop view

common rooms view

Revit+ Sketchup + 3Ds Max + Vray + Photoshop

The ground plane plaza creates a new space of interaction for the neighbourhood and allows views of the basement workshops while attracting the public to the start-up retail spaces located in the podium.

SECTION N-S

PARTIAL SECTION E-W [24]

FLEXIBLE UNITS by using movable (sliding and pushable) walls, the living units allow to create different environments and accommodate different types of activities from the inside The materiality of the building respects the industrial and heritage character of the surrounding and celebrates the manufacturer character of the building.

1 BR M2: 22-25 CAPACITY: 1 PAX AMOUNT: 39 %: 76

Sleeping Sleeping Sleeping

Meeting Meeting Meeting

meeting

sleeping

Studio Studio Studio 21sqm sqm 21 21 sqm

Meeting Meeting Meeting

Working Working Working

working

Studio Studio Studio 21sqm sqm 21 21 sqm

Sleeping Sleeping Sleeping

Working Working Working

BR 222BR BR 48sqm sqm 48 48 sqm

2 BR M2: 40-50 CAPACITY: 2 PAX AMOUNT: 12 %: 24

Sleeping SleepingSleeping

Meeting MeetingMeeting

Studio Studio Studio sqm sqm 21 sqm 21 21

1. open plaza - 275 m2. 2.Fashion Workshop - 65 m2 3. B.O.H 4. Makers Workshop - 115 m2 4.1 Wood/Metal works 4.2 working area 4.3 robotics 4.4 painting 4.5 open workshop 5. administration / security 6. sub-station 7. workshop store - 62 m2 7. workshop store - 63 m2 8. W/C 9. Bycicle Parking 80 m2 10. Commercial - 60 m2

GROUNDPLANE [25]

Meeting MeetingMeeting

meeting

Working WorkingWorking

Studio Studio Studio sqm sqm 21 sqm 21 21

Sleeping SleepingSleeping

2 BR 2 BR 2 BR sqm sqm 48 sqm 48 48

sleeping

Working WorkingWorking

2 BR 2 BR 2 BR sqm sqm 48 sqm 48 48

working

2 BR 2 BR 2 BR sqm sqm 48 sqm 48 48

[27]

SITE ANALYSIS

The site is located at the northern fringe of the Hoddle Grid, just as the city transitions to the Carlton Grid. Our proposition exploits the interplay between the two; while the podium conforms to the axis of Exhibition St and Latrobe St to tease in the pedestrian traffic from nearby Melbourne Central and Parliament train stations flowing along them, the tower defiantly adheres to the Carlton grid, maximising views of the Carlton Gardens and Yarra Ranges to the north. To help serve this purpose our core falls away from the north first. The podium consists of a series of spaces separated by Laneways, inspired the vascular network of laneways that run throughout Melbourne. These spaces will be available for as retail and dining locations, reminiscent of the shopping lanes of QV. Where Exhibition and Latrobe meet, the core pulls away from the corner, opening a sightline of the Carlton Gardens. With nothing higher than a few storeys to the north, the site will experience the bulk of its wind loads from the north, which has been a major influence on the overall design and orientation of the proposition (as discussed below).

SITE ANALYSIS: SURROUNDING LAND USES

NICHOLSO

NE STREET

ST.

RATHDOW

DRUMMOND

N ST.

VICTORIA S T. VICTORIA S T.

land use

ST.

ION IBIT EXH

LIT

TLE

LON

SDALE

ST.

LL ST. SSE RU

SDALE LON

site

S T RO NG ES T WI ND

ST.

ING SPR

VI EWS F RO M PO DI UM LEVEL UPWA RDS I NC LUDI NG A C RO S S T HE YA RRA RA NG ES & MO UNT MA C EDO N

MO S T F REQ UENT &

BE TRO

E SIT BE TRO

. ST.

office

commercial

SDALE LON

. ST.

C A RLT O N G A RDENS & EXHI B I T I O N C ENT ER

recreational

residential

Commercial

Offices

LA TROBE ST. / EXHIBITION ST. , MELBOURNE VIC.

Q UEEN VI C T O RI A MA RKET

institutional

Site

Recreational

Residential

Institutional

SITE ANALYSIS: SURROUNDING BUILDINGS HEIGHTS

T RA M S T O P

NICHOLSO

NE STREET

ST.

RATHDOW

DRUMMOND

T RA M S T O P

N ST.

VICTORIA S T.

SITE

VICTORIA S T.

ST.

SITE

ST.

ING

BE TRO

SPR

MI D RI S E VI EWS

BE TRO

EXH ION IBIT

LIT

TLE

LON

SDALE

ST.

RU LL ST. SSE

PA RLI MENT S T A T I O N

SDALE LON

& T RA M S T O P SDALE LON

. ST.

building heights

MELB O URNE C ENT RA L S T A T I O N

VI EWS F RO M T HE UPPER LEVELS O NLY

SITE CONTEXT

LA TROBE ST. / EXHIBITION ST. , MELBOURNE VIC.

100+ m

30 - 100 m

8 - 30 m

0-8m

“The skyline of Melbourne is dominated by the ultimate, anti-iconic international box skyscraper: the square plan tower”

La Trobe St / Exhibition St, Melbourne CBD. Dr Giorgio Marfella

PL&N Tower

The entry of BHP House, an early outrigger style building that is Heritage listed. Picture: National Library of Australia/Wolfgang Sievers

The Melbourne skyline featuring some of the most iconic square plan buildings. Source: https://www. melbournecentraltower.com.au

Applied architectural technology Year: 2019 Typology: Office, Mixed Use , High Density WIND LOADING Software Used: Revit, AutoCAD Team : Ethan Laurie and Dylan Newell Tutor: Noel Tiegue Role: Architectural design and detailing of the crown

100+m

30-100 m

One of the newer style residential towers under constructioun near the site, Aurora Melbourne Source: www.heraldsun.com.au

8-30m

0-8 m

View of Carlton Gardens from the nearby Mantra Hotel , similar to what will be expirienced from the site. Source: www.mantrahotels. com.au

If one thing defines Melbourne’s skyline, it is the prevalence of square and rectilinear sky rises. The square plan building compliments the rigidity of the Hoddle Grid, and therefore we have elected to work with its simple efficiency, which we see at work no more potently than within BHP House, the structural façade of which we will strive to emulate in order to maximise net lettable area. We also take inspiration from Melbourne Central Tower´s radical deviation from the typical orientation of the city´s skyrises. As a skyrise with offices, retail and dining locations, and a publicly accessible viewing platform in its crown, our proposition will operate as a hyper-dense microcosm of the program of its CBD surrounds. Finally, the orientation of the tower and the angle of its crown all gesture toward the Carlton Gardens, mimicking the direction in which its occupants will be staring through its windows.

office skyscraper is located in the Melbourne CBD; consists 66 floors including ThisThis office skyscraper is located in ofthe Melcommercial use in the podium, offices through the tower, and an executive lounge in the crown. CBD; consists of 66 floors includbourne The brief of the project required to accommodate 100,000 M2 of Net lettable area, with 79% of efficiency. ing acommercial use in the podium, offices PLtower, and an executive lounge A102 through the &N Wind rose for Melbourne. Source: www.bom.vic. gov.au

Drag coefficants for basic geometric shapes. Source: www.wikipedia.com

Wind load modeling for 432 Park Avenue, New York. Source:www.theb1m.com

As the wind rose above shows, Melbourne experiences its strongest wind from the north. With no existing structure above a few floors high to the north of our site, design decisions must be made to mitigate the extreme wind loads the tower is likely to endure. As a final measure, the façade of each mechanical floor of the tower gives way to reveal inset circle structure to allow for wind to effectively pass through the building while also operating as part of the façade treatment, a technique inspired by 432 Park Avenue in New York. The building has also been rotated off the Hoddle Grid so as to point directly into the wind as a diamond shape, as this shape expiriences less vorticies, drag and down draft. tet autemodit aut dolorem sint iduntiis es duntotat.

ELEVATION

ABPL90118: APPLIED ARCHITECTURAL TECHNOLOGY ASSIGNMENT 1: SITE ANALYSIS & VERTICAL CONCEPT PL&N ARCHITECTURE: JUAN PLANELLS (935470), ETHAN LAURIE (640158) & DYLAN NEWELL (1065771)

PHYSICAL MODEL

[28]

SECTION DETAILS SCALE: 1:750 DATE: 12/06/2019

DWG#:

and different sizes of openings and different sizes of openings and different ofofopenings Melbournesizes School Design Melbourne School o and glazings. and glazings. and glazings. APPLIED CONSTRUCTION APPLIED CONSTR 2. First conceptual sketch about the Fig. 2. First conceptual sketch about theFig. facade Fig.facade 2. First conceptual sketch about the facade Author

CONCEPT DIAGRAM CONCEPT DIAGRAM CONCEPT DIAGRAM 1.3 ENVELOPE CONCEPT 1.3 ENVELOPE CONCEPT 1.3 ENVELOPE CONCEPT ENVELOPE CONCEPT DIAGRAM

m of façade function.

Juan Carlos Planells

Coordinator: Giorg

Coordinator: Giorgio Marfella

Author

Student ID

Student AuthorID

Juan Carlos Planells

935470 PRODUCED BY A

935470 Juan Carlos Planells

PRODUCED PRODUCEDBY BY

5600.00 1

SCHEMATIC SECTION

10 12 10 12

4500

H I

4500 4500

5.3

4500

5.3

L 4500

4500 4500

5.3

Fig. 3. Model representation of expressed and representation hidden Fig. 3. Model representation of expressed and hidden Fig. 3. Model of expressed and hidden Fig. 1. Diagram of façade function. structure structure structure Conventional structure

pulling back beams

4500 4500

4500 4500 4500 4500 4500 4500 4500 4500

4500

VM ZINC CLADDED FIXED CASETTE SYSTEM 3D TRUSS PARAPET 2200.00 VM ZINC CLADDED VM ZINC CLADDED FIXED CASETTE SYSTEM FIXED CASETTE SYSTEM 3D TRUSS PARAPET 3D TRUSS PARAPET INTERIOR 3D TRUSS STEEL STRUCTURE

4500

F G

4500

4500 4500 4500 4500 4500 4500 4500 4500 4500 4500 4500 4500

4500

J L 4500

4500

2700.00

4500

C D

4500

A B

4500

4500 4500

4500

C D

4500

A B

4500

FIXED CASETTE SYSTEM VM ZINC 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 25 mm FIXED CASETTE SYSTEM FIXED CASETTE SYSTEM VM ZINC VM ZINC 25 mm 25 mm

4500

5.3

4500

5.3

4500

INTERIOR 3D TRUSS INTERIOR 3D TRUSS

4500

5.3

4500

4500 4500

5.3

STEEL STRUCTURE STEEL STRUCTURE SKYRISE FLOORPLAN SUSPENDING SKYRISE FLOORPLAN SUSPENDING VENTILATION SUPPO VENTILATION GRATE 1 1 : 750 1 1 : 750 PLATFORM PLATFORM COMPOSITE ZINC 01 5.3

02 5.3

CASETTE SYSTEM

SKYRISE FLOORPLAN CLADDED FLOORPLAN 11 1SKYRISE : 750 3DCOMPOSITE TRUSS COLUMN ZINC 1 : 750 COMPOSITE ZINC

SKYRISE FLOORPLAN FLOORPLAN 11 1SKYRISE : 750 1 : 750

glazing location

01 5.3

PL &N

PARAPET G

P &

CASETTE SYSTEM CASETTE SYSTEM CLADDED

PRODUCED BY AN AUTODESK STUDENT VERSION PRODUCED BYAN ANAUTODESK AUTODESK STUDENT VERSION PRODUCED BY STUDENT VERSION

STUDENT VERSION

SCHEMATIC ELEVATION

CLADDED APPLIED The to achieve ABPL90118: to APPLIED ARCHITECTURAL TECHNOLOG The tobuilding achieve thetechnique Thethe technique achieve the ABPL90118: 3D TRUSS COLUMN mmonly used in Melboure glazing that often hides the structural characer the project, our building façade aims to our azing curtainwalls, Contrasting that withoften thefullcommonly hides thecurtainwalls, used structural in Melboure characer full of glazing the project, curtainwalls, our building that façade oftenofhides aims the to structural characer of technique the project, façade aims to 3D TRUSS COLUMN ASSIGNMENT 4: CRO ASSIGNMENT 4: CROWN ADJUSTABLE JOINING ADJUSTABLE JOINING facade aesthetic without facade aesthetic facade aesthetic without d their The façade and creates an enriching composition in thesome exterior by showing and ithiding of by their edge, while it remains ates anelements. enriching express its composition structure in the their exterior elements. by showing The façade and creates hiding an enriching of their edge, composition while inremains the some exterior showing and hiding some of theirwithout edge, while it remains Melbour Melbourne School of Design PLATES 30mm PLATES 30mm PL&N ARCHITECTURE PL&N ARCHITECTURE: JUAN PLANELLS (935470) Fig. 2. First conceptual sketch about facade le and traditional from inhbitable the awaking the structure, interest the public into the the interest structure, in-between of compromising a brutalist 2.ofFirst conceptual about the facade Fig. 2.the First conceptual sketch about the de, awaking homogeneous, the interest of inside, the public and traditional into the from theofcreating inside, awaking an in-between of a brutalist of creating the public andan into the structure, creatingand an in-between acompromising brutalist structure, wasCONCRETE ADJUSTABLE JOINING its Fig. structure, was andsketchits compromising its structure, wasCONCRETE APPLIED ADJUSTABLE JOINING APPLIED CONSTRUCTION EDGE BEAMS EDGE BEAMS ADJUSTABLE JOINING ADJUSTABLE JOINING PLATES 30mm PLATES 30mm PLATES 30mm whilestandardize allowing usitstoglazing rationalize andThe standardize its panels. The façadeorits more than panels. beingitsanThe an than enclosure, its an PLATES 30mm and contemprorary building panels. while allowing façadeusmore to glazing rationalize than being and anstandardize ornament anglazing enclosure, anornament façade or more being an ornament or an enclosure, its an Coor Coordinator: Giorgio Marfella departing from a typicaldeparting from a typicaldeparting from a typical CONCRETE EDGE BEAMSStu CONCRETE EDGE BEAMSStudent antage of functionality the enviroment order to the add functionality toadd the functionality building; thisand is achieved using the beam-hiding spandrel er to add element that takes and in comfort advantage of the building; enviroment this and is achieved incomfort order toby using the beam-hiding comfort spandrel tobythe building; this is achieved by using the beam-hiding spandrel Author CONCRETE EDGE BEAMS Author ID CONCRETE EDGE BEAMS Author tube-on-tube column and beam ZINC column and beam tube-on-tube and beam ZINC COMPOSITE asenergy photovoltaic panels to generate energy from panels the eastern, northern and Furthermore, envision this tube-on-tube pixilation of thewe column COMPOSITE te areas fromofthe theeastern, curtain wall northern as photovoltaic and western façade. to generate Furthermore, energy wewestern from envision thefaçade. eastern, this pixilation northern of the andwe western façade. Furthermore, envision this pixilation of the CASETTE SYSTEM CASETTE SYSTEM 1.3 ENVELOPE CONCEPT 1.3 ENVELOPE 1.3 ENVELOPE CONCEPT system, while pulling Juan back CLADDING system, while pulling back system, while pulling back n opportunity towall open up theastechnical without breaking theand flowincrease ofCONCEPT thewithout façade composition and the functionality ofand these CLADDING hnical floors curtain without panels breaking the an flow opportunity offloors the façade to open composition up the technical floors the functionality breaking the of these flow increase of the façade composition increase the functionality of these Carlos Planells Juan Carlos Planells Juan Carlos Planells 25 mm93 ZINC COMPOSITE 25 mm935470 ZINC COMPOSITE ZINC COMPOSITE ZINC COMPOSITE CASETTE SYSTEM entrance of anatural using a cooling tower system. CASETTE SYSTEM ough using open floors coolingventilation totower allow system. thethrough entrance of natural ventilation through using a cooling tower system. specific CASETTE SYSTEM specific specific CASETTE SYSTEM CLADDING CLADDING

CLADDING CLADDING 25 mm 25 mm

25 mm 25 mm cre- at specific beams at specific levels,beams cre- at specific levels, beams levels, crenes theirPL&N building façade notdefines as exposed, but as façade expressed, mainly for the that it hasmainly beenzinc cladded by using composite zinc exposed, but asArchitecture expressed, mainly their for the building reason that it not hasas been exposed, cladded butreason byasusing expressed, a composite for the reason thataitating has been cladded using a composite zinc and shorterating ating taller glazing taller andbyshorter glazing taller and shorter glazing er to to protect their concrete structure, to make it relevant to most their surrounding most of the buildings have metallic ure, make cassette it relevant system, to intheir order surrounding to protect context, their concrete where structure, of thetobuildings makecontext, it relevant havewhere metallic to their claddings surrounding context, where mostcladdings of the buildings have metallic claddings sheet; sheet; sheet; EMBEDDED WINDOW e and highlight the expressed cassette in the building façade thought as building an alternative reduce installation ements.The and cassette to give more system volume inelements.The theand building highlight façade the expressed wassystem thought elements.The as an alternative cassette to was reduce system installation in the façadetowas thought as an alternative to reduce installation as shown in the diagrams. as shown in the diagrams. as shown HEAD in ALLUMINIUM theFRAME diagrams. rdization of thea elements pieces, most of the covered elements dimensions, andand a way to the easily find damages repair the find damages and repair the of the covered costs, form of as standardization has standard dimensions, of the pieces, andasahas most waystandard to of easily the covered find damages elements has repair standard dimensions, and and a way to easily

departing from a typical tube-on-tube system and while pulling back and pushing forward these elements on the ZINC COMPOSITE PANELS façade, creating a composition of different glazing panels ZINC +SEALED FC SHEET and a pixelated effect together with an 25 up-to-date façade mm system.

ZINC C ZINC +

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thepixilation crown the building follow the pixilation open up principle of the rest of building, opening big void for he Theofopen façade upcladding principle inofthe thecrown rest ofofthe the building, building this follow time theopening pixilation upthe open a big up void principle forthis thetime ofBuilding the rest ofup thea building, thisthe timeBuilding opening up a big void for the Building Suncool in is Pilkington Activ Suncool in nd voids alternating photovoltaic panels, voidsacompanniying and photovoltaic glazing sheets.The glass theSuncool main glass tower is Pilkington Activ Pilkington Activ in acompanniying ls, Maintenance and glazing System, sheets.The andglass alternating the panels, main tower voidsisacompanniying and glazing sheets.The the main tower

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SCHEMATIC PLAN

nt material on the cladding on of thethe tower connects all the of tower the together byparts allowing zinc metallic panelsbytoallowing populatezinc the metallic panels to populate the e tower pieces. connects This all predominant the parts material building on together the cladding by parts allowing on the zincbuilding metallic connects panels all theto populate of thethe building together conventional structure back glazingthe location a unified skyscraper with a big of elegance, and relevance to the timepulling and Down in to thethe podium, theplace. Down in the podium, hcreating a big sense crown of andelegance, the podium, slenderness creating and asense unified relevance skyscraper to theslenderness with timeaand big place. sense Down of elegance, in the podium, slenderness the place. andbeams relevance time and havesealed been replicated, time using sealed zinc backing, composite panels FC backing, repeating glassbacking, features,and in this case, the glass features, in this case, sing elements zinc composite of thethis façade panels have with been FC replicated, sheet this time and repeating usingwith sealed the sheet zinc glasscomposite features,and in panels this case, with FCthesheet repeating ger canopy asystem, space frame andthat mero glazing in afaçade way goes together with façade but alsowith functions frame and in asupported mero moreglazing openbyand biggerin canopy a way supported goes together by a system, space withframe the andthat mero concept glazing but also system, functions inthe a way thatconcept goes together the façade concept but also functions armth and for the podium. um. as aopen morearea welcoming, warmth and open area for the podium.

EMBEDDED WINDOW HEAD ALLUMINIUM FRAME EMBEDDED WINDOW EMBEDDED WINDOW EMBEDDED WINDOW EMBEDDED WINDOW ALLUMINIUM PILKINGTONHEAD ACTIV SUNCOOL ALLUMINIUM PILKINGTONHEAD ACTIV SUNCOOL HEAD ALLUMINIUM HEAD ALLUMINIUM FRAME DOUBLE GLAZING FRAME DOUBLE GLAZING FRAME FRAME CURTAIN WALL PRODUCED BY AN AUTODESK STUDE CURTAIN WALL 45 mm PILKINGTON ACTIV SUNCOOL 45 mm PILKINGTON ACTIV SUNCOOL PILKINGTON ACTIV SUNCOOL PILKINGTON ACTIV SUNCOOL DOUBLE GLAZING The architectural concept DOUBLE GLAZINGconsists of expressing structural DOUBLE GLAZING DOUBLE GLAZING CURTAIN WALL WALL CURTAIN WALL elements,CURTAIN such as beams, columns, and slab edges, CURTAIN WALL 45 mm 45 mm 45 mm 45 mm

This concept contrasts the existing and predominant glazing curtain wall trend in Melbourne CBD while celebrating the openness and the greenery of the city through open mechanical floors. ZINC CLADDED 4500

structure

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VOID VOID FOR BMU UNIT FOR BMU UNIT INTERIOR 3D TRUSS STEEL STRUCTURE

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structure

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Fig. 1. Diagram of façade function. Fig. 1. Diagram of façade function. Fig. 1. Diagram of façade function. structure

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osenitsbecause cost-efficiency, its self-cleaning andits opportunity toin have with a low reflectivity, order to give ncy, self-cleaning Neutral,ofit its hasproperties been chosen and the because opportunity of its cost-efficiency, toproperties have it with athe low self-cleaning reflectivity,properties orderittoand give the opportunity to in have it with a low reflectivity, in order to give ing community, buildings and as well inside as to reduce the lighting inside the building; single glazing sheets in vers, asrespect well asto tothe reduce surrounding the drivers, lighting community, needs buildings the building; and drivers, by using asneeds well single as to glazing reduce sheets the lighting inby theusing needs inside the building; bythe using single glazing sheets in the glazing the tower, for the energy and noise we a noise building that looks one unity but that looks as one unity but er,and fordouble the crown energy and efficience thein podium andand noise double reduction, glazingefficience we in ensure the tower, a building for thereduction, that energy looks efficience as ensure one and unity but reduction, weas ensure a building Fig. 3. Model and representation of 3D3. expressed and hidden of e3 tt kind ofaccommodates activities in theirdifferent differentkind parts. Fig. 3. Modelglazing representation of expressed hidden Fig. Model representation parts. of activities in their different parts. TRUSS PARAPET conventional structure pulling back beams location

Contrasting the commonly used inwith Melboure glazing curtainwalls, that often hides theproject, structural characer of the structural project, buildingoffaçade Contrasting with the commonly used inwith Melboure fullContrasting glazing curtainwalls, the commonly that used hides inthe Melboure structural fullcharacer glazing curtainwalls, of the that ouroften building hides façade the aims toour characer the pr [2full 9] often SKYRISE SKYRISE FLOORPLAN SKYRISE express its structure and their elements. The façade creates composition inanthe exterior byofshowing and hiding some their edge, while FLO itso express its structure and their elements. The façade creates express anitsenriching structure composition and their elements. inan theenriching exterior The façade by showing createsand hiding enriching some composition their edge, in the while exterior itFLOORPLAN remains by of showing and hiding 4500

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5.3

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Level 73 - 74

12200

1 : 750

45700

FLOOR PLANS

1600

45706

5550

2900

2950

5550

2983 6317

SECTION 6

2950

Crown 350000

45900

20700

6 A102

A102

45900

6000

HIGH RISE FLOORS: 20 GFA: 2082M2 NLA: 1718M2 EFF: 83% TOTAL GFA: 3123M2 PURPOSE: LEASABLE OFFICE SPACE

20700

KY RISE LOORS: 1.5 GFA: 2082M2 NLA: 1815M2 FF: 87% OTAL GFA: 3123M2 URPOSE: SKYDECK ESTURANT AND GALLERY/ PUBLIC PACE

12200

6900

20700

Level 75 335000 Level 74 Level 73 Level 72 Level 71

12200 20700

45706

Level 68

3098

2900

Level 67

14917

Level 66

2950

Level 65 Level 64 Level 63 Level 62

6030

6 A102

Level 61

High rise Floors: 20 GFA: 2082m2 NLA: 1718m2 eff: 83% total GFA: 3123m2 purpose: leasable office space

45900

20700

A102

Level 69

1 : 750

MID RISE FLOORS: 20 GFA: 2082M2 NLA: 1677M2 Sky rise EFF: 81% floors: 1.5 GFA: 2082m2 NLA: 1815m2 TOTAL GFA: 3123M2 eff: 87% total GFA: 3123m2 PURPOSE: LEASABLE purpose: skydeck resturant and gallery/ public space OFFICE SPACE

Level 70 312500

20700

5550

2983 6317

IGH RISE LOORS: 20 GFA: 2082M2 NLA: 1718M2 FF: 83% OTAL GFA: 3123M2 URPOSE: LEASABLE OFFICE SPACE

Level 51 - 70

20900

2900

1600

14900

1 : 750

6900

45900

Level 73 - 74

Level 60 Level 59 Level 58 Level 57 Level 56 Level 55

Level 51 - 70

20700

1 : 750 3098

2900

Level 29 - 48

20915

Level 54

45700

1 : 750

Level 53

45900

14917

Level 52

21300

Level 51 227000 Level 50

Level 47

A102

45900

Level 46

21300

20900

Level 48

Level 45 Level 44 Level 43 Level 42

Level 29 - 48

20915 45700

1 : 750

Level 41

Level 7 - 26

Level 40

20700

1 : 750

TR Low rise OB floors: 20 GFA: 2107m2 E NLA: 1647m2 eff: 78% total GFA: 3123m2 purpose: leasable LINE OF ROOF ABOVE

Level 36

ST RE E

Level 35 Level 34

Level 33 Level 32 Level 31

T TR EE NS

A102

RETAIL SPACE AT GROUND LEVEL AND FIRST LEVEL, LEASABLE PROFFESIONAL OFFICE SPACE 2 - 4

Level 37

21300

Mid rise PODIUM floors: 20 GFA: 2082m2 NLA: 1677m2 FLOORS: 5 eff: 81% total GFA: 3123m2 PURPOSE: LEASABLE purpose: leasable office space

Level 39 Level 38

45900

OW RISE LOORS: 20 GFA: 2107M2 NLA: 1647M2 FF: 78% OTAL GFA: 3123M2 URPOSE: LEASABLE OFFICE SPACE

Level 49 218000

45900

6030

A102

21300

6 14900

MID RISE LOORS: 20 GFA: 2082M2 NLA: 1677M2 FF: 81% OTAL GFA: 3123M2 URPOSE: LEASABLE OFFICE SPACE

LOW RISE FLOORS: 20 GFA: 2107M2 NLA: 1647M2 EFF: 78% TOTAL GFA: 3123M2 PURPOSE: LEASABLE OFFICE SPACE

Level 30

[30]

Level 29 128000 Level 28 Level 27

CROWN AND BUILDING MAINTENANCE UNIT ISOMETRIC

PRODUCED BY AN AUTODESK STUDENT VERSION 1 2

CROWN levels 66-70 executive lounge conference room technical floor max. height 350 m

CROWN LEVELS 66-70 EXECUTIVE LOUNGE CONFERENCE ROOM TECHNICAL FLOOR MAX. HEIGHT 350 m

Building mantainance Unit

A4.3

Silver sunshade glass Panels

A4.3

LEVEL 66

1 : 750

Photovoltaic panels

Voids

A4.3

LEVEL 67

1 : 750

4500

F G A4.3

4500

A4.3

4500

SKYRISE FLOORPLAN

1 : 750

4500

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CROWN LOCATION

4500

A4.3

PRODUCED BY AN AUTODESK STUDENT VERSION

N.T.S

CENTRAL CUSTOMMADE BUILDING MANTAINANCE UNIT

RETRACTABLE MAXIMUM SPAN : 25 M

COUNTER WEIGHT

D01

RETRACTABLE

VOID IN ROOF STRUCTURE FOR BUILDING MANTAINANCE UNIT

BMU NON-USING POSITION

9000

COUNTER WEIGHT

5600.00

CONCRETE SLAB SHATTERED IN-SITU 600mm INCLINATION : 4% CONCRETE BOX

2700.00

VENTILATION SHAFTS

2200.00

SUSPENDING PLATFORM

CONCRETE SLAB SHATTERED IN-SITU 600mm

SUPPORT TRUSS

PRODUCED BY AN AUTODESK STUDENT VERSION

PL &N

VENTILATION GRATE

ABPL90118: APPLIED ARCHITECTURAL TECHNOLOGY ASSIGNMENT 4: CROWN PL&N ARCHITECTURE: JUAN PLANELLS (935470)

SECTION DETAIL SCALE: 1:100 @ A2 DATE: 14/06/2019

CROWN SECTION 1 : 100

DWG#:

A4.3

Isometric explaining the functioning of the building maintenance unit and the parapet

[31]

CONFERENCE ROOM TECHNICAL FLOOR MAX. HEIGHT 350 m

LEVEL 66

1 : 750

CROWN SECTION

A4.3

LEVEL 67

1 : 750

4500

F G A4.3

4500

A4.3

4500

SKYRISE

1 : 750

4500

J L 4500

CROWN LOCATION

4500

A4.3

PRODUCED BY AN AUTODESK STUDENT VERSION

N.T.S

RETRACTAB LE MAXIMUM SPA N : 25 M

D01

RETRACTABLE

V I S F M U

BMU NON-USING POSITION

9000 5600.00

C S S

INCLINATION : 4%

2700.00

2200.00

SUSPENDING PLATFORM

[32]

CO SH IN 60

SUPPORT TRUSS

ABPL90118: APPLIED ARCHITECTURAL TECHNOLOGY ASSIGNMENT 4: CROWN PL&N ARCHITECTURE: JUAN PLANELLS (935470) PRODUCED BY AN AUTODESK STUDENT VERSION

PL &N

VENTILATION GRATE

SECTION DETAIL SCALE: 1:100 @ A2 DATE: 14/06/2019

CROWN 1 : 100

0.3

0.5 (m)

SECTION DETAIL - CROWN

ISOMETRIC- SLOPED GLAZED ROOF [33]

[35]

Root Connection

Recognizing the multiculturalism of Box Hill, the lack of green and pedestrian infrastructure, and the absence of interaction between the community, Our team focused on bringing people in Box hill together and promoting cultural exchange through shared community gardens while connecting the suburb through green corridors, activating commerce, interaction, safety, and food security.

Results: First Place Duration: 3 weeks (including mandatory workshops and submissions) Brief: Create a design proposal for a sustainable project addressing the challenges of Box Hill, Victoria. The Scale of the project is up to the students if they meet the evaluation criteria: addressing UN Sustainable Development Goals (SDGs) and Water Sensitive principles. Team: Juan Planells, Shiqi Chen, Aeri Lee, Carolina Wong Role: project conceptualisation, visualisation, graphics and presentation.

CONTEXT

Our Future Cities 2020 Student Competition

POPULATION

CULTURAL DIVERSITY

The 2020 population is 16,832 and is expected to increase to 28,913 by 2041. From 2020 to 2041, the population is estimated to grow by 71.77%

The site effectively serves two dominant mono-cultures (Caucasian and Asian). Not necessarily inviting for all cultures despite of multiculturalism is a key part of Box Hill’s identity.

Box Hill Gardens

“A sustainable community harvesting culture”

OBJECTIVES & VALUES

Whitehorse road green corridor

North Farming Garden

Main Street Corridor Train Line

South Farming Garden

Project 3D location map - Box Hill, VIC. [36]

SITE ANALYSIS

MASTER PLAN PUBLIC AREAS Existing green spaces Empty lots Parkings (private) Parkings (public) development areas

TRANSPORT Metro Lines

Belgrave - Melbourne Cbd Lilydale - Melbourne Cbd

Tram 109 Box Hill Central - Port Melbourne

Bus Routes

201 Box Hill - Deakin University 270 Box Hill - Mitcham Station 271 Box Hill - Ringwood 279 Box Hill - Templestove 281 Templestowe – Deakin University 284 Box Hill - Doncaster Park 293 Box Hill - Greensborough 302 Box Hill - Melbourne Cbd 612 Box Hill - Chadstone 732 Box Hill - Upper Ferntree Gully 733 Box Hill - Oakleigh 735 Box Hill - Nunawading 765 Box Hill - Mitcham 766 Box Hill - Burwood 767 Box Hill - Southland 768 Box Hill - Deakin University 903 Altona – Mordialloc 966 Box Hill - Melbourne Cbd (Night)

Bike Routes

On And Off Streets

Pedestrian Paths

1. Box Hill Garden 2. Whitehorse Road Green Corridor 3. North Community Garden 4. South Community Garden 5. Train Station 6. Station Road Green Corridor 7. Town Hall

The project is focused on -SDG 10.2 (empower and promote the social - economic and political inclusion for all). -SDG 11.2 (provide access to sustainable transport – improve road safety with special attention to vulnerable groups). -The Water Sensitive principle of Urban heat (improving thermally comfortable urban environments) - The Water Sensitive principle of Outdoor communal Spaces (provide quality communal spaces that are functional and accessible to all residents).

[37]

illustration of community garden, bruce street.

Hand-sketch + Photoshop

Station Street Community Garden

Bruce Street Community Garden

The Community gardens: utilizes aquaponic, hydroponic and urban farming techniques to promote cultural farming techniques, engage people and food security

FLOOR-PLAN

FLOOR-PLAN [38]

illustration of green corridor, Whitehorse Road.

Hand-sketch + Photoshop

GREEN CORRIDOR ELEMENTS

sketch section, not to scale.

Green Corridors: act as a connection path between the main attractions in Box Hill, increasing security, activating the commercial areas, and collecting rainwater and green pits to tackle urban heat island and water sensitive principles.

RAINGARDENS

[39]

sketch section, not to scale.

TREE PITS

[41]

The Chamber of Secrets Smoke and Mirrors Year: 2019 Typology: Model-making Software Used: Rhinoceros and Laser-cutting Team : Richo Wirawan, Sara Tan, Mengli Pi, Ying Ruey Lee Tutors: Michael Mack, Janet Le, Mond Qu, Denis Vlieghe Role: General Conseptualisation, model making and storytelling The two-week intensive subject at MSD was based on the Harry Potter movies, Challenging the students to re-imagine and create physical model scenes, distant from the original movie sets, utilizing the laser-cut techniques.

Diagram

ncept

trationRE-IMAGINING

THE PASSAGE The Enty

The key

Spaces and Movement MODEL CONCEPTUALISATION

[6]

The Secret

“It was the gloomiest, most depressing bathroom Harry had ever set foot in. Under a large, cracked Concept and spotted mirror were a row of chipped, stone sinks. The floor was damp and reflected the dull light Guidelines given off by the stubs of a few candles, burning low in their holders, the wooden doors to the cubicles Theflaking Key and scratched and one of then was dangling off its hinges.” were Depicts the moment when the sink sinks, as the key for opening the secret entrance.

DIAGRAMATIC CONFIGURATION [9]

The Entry

Group #

[ 10 ]

To enter the chamber, the opening has to be reveled. This moment is where the whole wall Secret splits open, recreating a grand entrance. Chamber

of Pipes

The Secret

Upon entry, as the secret reveals, one would not expect what they would see. With the Material Exploration chaos behind the wall, is another secret for one to find their way in the pipe maze.

Interior Wall Plan: close

Plan: Close

Prototyping

[ 10 ]

1. Bathroom

Plan: Open

1.2.Bathroom Moving Wall 3. Chamber 2. Moving Wall 3. Chamber

Plan: Open

Secret Wall Door

an ee on an lls gli

Interior Wall

Stone Wall

Prototyping [9]

Group #

* stills and excerpt from harry potter and the chamber of secrets original movie

Atmosphere

1:10

Moment

Magic

“gloomiest, most depressing bathroom”

“row of chipped, stone, skinks”

“hidden”

Atmosphere “flaking and scratched”

Moment “tap glowed”

“leaving a large pipe Magic expode”

“dirty, old” “gloomiest, most depressing bathroom”

“sink began to move” “row of chipped, stone sinks“

“flaking and scratched”

“tap glowed“

“leaving a large pipe exposed“

“dirty, old“

“sink began to move”

“wide enough“

The Entry to the Secret Chmaber

MATERIAL TESTING

“wide enough” “hidden“

Window Trace Paper

Interior Wall

Material Exploration Stone Wall

Prototyping

The key

The Enty

The Key

The Entry

Window Trace Paper

Sink

The Key

[9]

Group #

The Secret The Secret

Material Exploration

Depicts the moment when the sink sinks, as the key for opening the secret entrance. Toilet tiles Prototyping

The Entry

To enter the chamber, the opening has to be reveled. This moment is where the whole wall splits open, recreating a grand entrance. Side wall prototype

imagining the moment when the Chamber is revealed, we wanted something more d and glorified as compared to the actual scene in the movie. Instead of having just large pipe hole revealed as the sink sinks, the scene that we reimagined celebrates rand entrance to the Chamber. Thus, having the whole bathroom wall open to reveal haos behind helps to convey the awe factor that we want to achieve in this scene.

INSPIRATION FROM PASSAGE

Wall, Floor, Window Textures

The Secret

Upon entry, as the secret reveals, one would not expect what they would see. With the Toilet tiles chaos behind the wall, is another secret for one to find their way in the pipe maze.

Side wall prototype

[43]

Various

rendering + interior design

Project: EP Home Theater Studio Q Projects Role: Visualisation + interior design Software: 3Ds Max + Vray Date: 2014

Project: MSD SuperCity Studio Midsemester Date: 2020 Role: Architectural design + visualisation Software: Rhinoceros + Grasshopper + Vray

Project: TL Home Office Studio Q Projects Role: Visualisation + interior Design Software: 3Ds Max + Vray Date: 2015

[45]

Project Home Theatre Date: 2015 Role: Interior design + visualisation Software: Sketchup + Vray

Project: MSD Studio 11 Nobel Skin- Mid-semester Date: 2018 Role: Visualisation + architectural design Software: Rhinoceros + Grasshopper +Vray

Project: TL Bedroom Studio Q Projects Role: Visualisation + Interior Design Software: 3Ds Max + Vray Date: 2015

Project: Home Theather Studio: Q Projects Role: Visualisation + interior Design Software: 3Ds Max + Vray Date 2015

Project: Cobogo House Company: Studio Q Projects Role: Visualisation + interior design Software: 3Ds Max + Vray Date 2015

[46]

Project: Bike Lane- Las Tablas AGP Projects Date: 2016 Role: Visualisation Software: 3Ds Max + Vray

Project: Sunset Place AGP Projects Date: 2018 Role: Façade design + visualisation Software: Revit + 3Ds Max + Vray

THE NODE The node is a co-working project with a biomimetic approach, located at grattan and cardigan ST,Carlton. The addition to the existing car-park building looks at the symbiotic relationship between flora and fauna, mimicking the plant pollination and seed dispersal processes as neural networks at a local and global level respectively this principle, the project aims to create a relationship between the e and the building, not only "dispersing the seeds"through the showf ideas on their pods by the humans, but also responding to the oment on their kinetic facade.

Project: TL Bedroom Studio Q Projects Role: Visualisation + Interior Design Software: 3Ds Max + Vray Date: 2015

the program starts by having short-term accomodation on the existing car park building, while in the superior part utilizes pods with specific disciplines, mixing them [4all 7] together in a non-conventional arrangement, with

Rhinoceros + Illustrator.

Project: MSD Studio 11 Nobel Skin- Final Date: 2018 Role: Visualisation + architectural design Software: Rhinoceros+ Grasshopper + Vray

Juanqui@planells.com

+61 402922062

209 Dryburgh Street, North Melbourne, VIC., Australia.