Architecture Portfolio - Academic and Commercial Project - Prisca Winata by Prisca Winata

A R C H I T E C T U R E

PORTFOLIO

PRISCA WINATA 1

CONTENT Content Resume POSTGRADUATE PROJECTS Dalston Junction Childrenâ&#x20AC;&#x2122;s Activity Centre COMMERCIAL PROJECTS Kota Baru Parahyangan Town Centre Masterplan Morotai Special Economic Zone Masterplan Morotai Street Mall Morotai Resort Masterplan Crown Sekaba Sentul Masterplan UNDERGRADUATE PROJECTS The Beauty of Bacteria Gelora QU Tower Thamrin Aquatic Centre Kebagusan Playful Neighborhood Karang Pola Public Workspace Kinesthetic House Jigokugumi Shelter COMPETITION ENTRIES Zero Net Building - ASHRAE ISBD 2016 - International Healax House - WEX UGM 2015 - National

EDUCATION 2019 - Present

University College London (UCL)

MSc Health, Wellbeing and Sustainable Buildings (2019/2020)

2013 - 2017

Universitas Indonesia

2010 - 2013

SMAK 1 BPK Penabur Jakarta

Bachelor of Architecure

Senior High School

WORK EXPERIENCE

PRISCA WINATA

Jan 2018 - present Interior Design and Build (Freelance) STF Interior - @stf.interior

Jan 18 - Aug 2019

Assistant Architect

29 June 1995 priscawinata@gmail.com +44 7833 746364

Oct - Dec 2017

Research Analyst Intern

London, United Kingdom Jakarta, Indonesia

Feb - Dec 2017

Editorial Assistant (Part Time)

2014 - 2016

Teaching Assistant (Part Time)

2014 - 2016

Event Organizer(Part Time)

PTI Architects - www.pti-architects.com

Jones Lang LaSalle Indonesia - www.jll.co.id

Department of Architecture, Universitas Indonesia

@priscawinata Prisca Winata

Resume

WonderMac EO

ORGANIZATION & SOCIETY

ACHIEVEMENTS December 2018

LPDP Scholarship Awardee

September 2017

Finalist KTA National 2017 (Final Project Competition)

Ministry of Finance of The Republic of Indonesia

Institut Teknologi Sepuluh November, Surabaya

August 2017

Best Graduate Architecture Program

August 2017

Award for Excellence in Innovative Design

April 2017

Department of Architecture, Universitas Indonesia

Moderator on Forum Wedangan 11 “Mahasiswa Arsitektur dan Isu Penggusuran” Universitas Indonesia

March 2017

2 Selected Projects on Jakarta Design Week 2017 Indonesia Convention Exhibition, Tangerang

February 2016

April 2015

4 Selected Projects on Architecture Fair UI 2016

Jan 16 - Apr 2017

Ekskursi Arsitektur UI - Sabu Raijua

Jan - Dec 2015

Ikatan Mahasiswa Arsitektur FTUI (Student Council)

Head of Content Division

Vice Head of Academic Division

Jan - Dec 2015

ASHRAE Universitas Indonesia Student Branch Staff of External Division

Jan - Dec 2015

Ekskursi Arsitektur UI - Korowai

Jan - Dec 2015

Architecture and Design Competition Society UI (ADCS UI)

Steering Comimittee

Head of Administration

Jan - Dec 2014

Ikatan Mahasiswa Arsitektur FTUI (Student Council) Staff of Academic Division

National Gallery of Indonesia

Jan - Dec 2014

[IN] Arch International Conference 2014

2nd Prize Community Service Paper Olimpiade Ilmiah Mahasiswa FTUI

Jan - Dec 2014

Architecture Fair Universitas Indonesia (AFAIR UI)

Universitas Indonesia

April 2015

UCL SEAD (Society of Engineering and Architectural Design)

Member

Selected Project on Huni Komunal Exhibition and Discussion “Space Inception” Cilandak, Jakarta

April 2017

2019 - 2020

1st Prize Enterpreneurship Paper Olimpiade Ilmiah Mahasiswa FTUI Universitas Indonesia

Liaison Officer

Staff of Filed Event Division

Jan - Dec 2014

Ekskursi Arsitektur UI - Jambi Staff of Sponsorship Division

Resume

DELEGATION AND PUBLICATION April 2017

Sabu Raijua, Lontar, dan Arsitektur (Book)

Chief Editor and Contributor

September 2016

ARCASIA Student Jamboree on the 17th Asian Congress of Architects, Hongkong Indonesian Delegate

August 2016

International Joint Studio - Jakarta Workshop (JKTWS)

Student Delegate (Collaboration with University of Tokyo, Chiba University, and Keio University)

August 2016

International Symposium- Jakarta Workshop (JKTWS)

Student Delegate (Collaboration with University of Tokyo, Chiba University, and Keio University)

VOLUNTEER EXPERIENCE 2019 - 2020

Sustainable UCL

2019 - 2020

TEDx UCL Conference 2020

Feb - June 2017

Future Green Thumb Leader

Green Project Impact Assistant

Curator

Teaching Staff

Sept 15 - Jan 2016 Energy Consumption Survey at Kampong in Jakarta

UI Surveyor Team (Collaboration with FCL Singapore)

Feb - Sept 2015

Wooden Postnatal Healthcare Palsigunung, Depok Design Team - Community Project

Resume

SOFTWARE SKILLS Microsoft Office Adobe Photoshop SketchUp AutoCAD Adobe InDesign Design Builder Rhinoceros ArchiCAD Adobe Illustrator Autodesk Revit

PERSONAL SKILLS Communication Time management Teamwork Critical thinking Project management Problem solving Organization Creativity

LANGUAGE Mother tongue : Indonesian Other language : English IELTS - Overall Score : 7.5 - Listening : 8.5 - Reading : 8.0 - Writing : 6.0 - Speaking : 6.5

Curriculum Vitae

Postgraduate - 2019 : Integrated Building Design for Health, Comfort and Wellbeing

Dalston Junction Childrenâ&#x20AC;&#x2122;s Activity Centre Hackney, London - United Kingdom

Dalston Junction Children’s Activity Centre London, United Kingdom

Team: Prisca Winata (Architect) Ni Yixue (Architect) Lei Siduo (Civil Engineer) Li Haitao (Electrical Engineer) Dalston Junction Children’s Activity Centre Dalston, London Borough of Hackney is one of the most populated area. The children population in Dalston is 100-200 children per hectare. There are enough primary and secondary schools in Hackney. However, the children age 0-5 population is outnumbered the number of daycare. This project aim is to facilitate educational centre for children age 0-5.

PROGRAMMING

courtyard / outdoor playing area

common playroom

toilet, kitchen

toilet, storage, pantry

cafe

play room 3

play room 2

TARGET OCCUPANTS:

main focus corridor

play room 1

Aim/Objective - Design an educational and playing space for children age 0-5 which enhance children creativity, physical activity, and cognitive. - Design a communal space for occasional workshops for children age 6-12. - Create an integrated passive building design to achieve the best building performance and minimizing the building’s energy consumption and carbon emissions

reception teacher office

Dalston Junction Children’s Activity Centre

age 0-2

age 3-5

age 6-12

parents & teacher

cafe customers & workers

site analysis

Sun Path

During Summer, the sun goes from the south east to south west. This condition create more overshadow on winter than on summer.

13.00 21 December

13.00 21 June

The design should allow maximum daylight on the south side, and creating a distance from the buildings on the west and east can also allow daylight to the room.

Noise and Air Pollution

Wind Rose

Traffic at Dalston Junction is bad and result in noise and air pollution South openings should be decreased to prevent noise and air pollution to the building.

The wind mostly comes from the west.

3 January - 11.3 miles/h 3 August - 9.6 miles/h 5 April to 13 October average - 11 miles/h

Altough the surrounding buildings effect the wind direction and speed, openings on the south west side is needed to allow maximum cross ventilation.

Noise Level - Day

Noise Level - Night

Average : 75dB

Average : 65dB

Dalston Junction Childrenâ&#x20AC;&#x2122;s Activity Centre

SITE PLAN

environmental strategies Dalston Children Centre building main facade facing south and north according to sun path to maximize solar gains and daylight. Shadings and overhangs are used to tackle the effect of different angle of sun during summer and winter. This children centre promotes active design and wellness of the children, playground and water features are provided outdoor as well as sufficient natural daylight and large windows on north facade allowing view to natural environment.

GROUND FLOOR: 1. RECEPTION 2. CAEF 3. TEACHER OFFICE 4. COMMON PLAYROOM 5. STORE & CLOCKROOM 6. TOILET 7. KITCHEN 8. TOILET OF CAFE

Dalston Lane

upper limit

THERMAL COMFORT

Thermal comfort based on ASHRAE 55 standard

lower limit Winter Temperature: 2-9℃

1F PLAN

Summer Temperature: 12-23℃

Winter Humidity: 60-90 %

FIRST FLOOR:

Thermal Comfort 40-70% (CIBSE Guide A)

9. TOILET 10. CORRIDOR 11. CAFE 12. PLAYROOM 1 13. PLAYROOM 2 14. PLAYROOM 3

Dalston Lane

Dalston Junction Children’s Activity Centre

Summer Humidity: 55.90℃

Based on TRY data collected during 1961-1990 from Islington London. The design strategy must allow the indoor temperature to reach the thermal comfort range (19-21℃ in winter and 21-25℃ in summer). Therefore, passive heating strategy is our focus.

HEALTH AND WELLBEING Playground

Children Centre

trees

Cafe

L ton

Playground

summer noon highest altitude 61.89o

winter noon highest altitude 15o S

lst

water features

ENVIRONMENTAL STRATEGIES - CAFE

Dalston Junction Childrenâ&#x20AC;&#x2122;s Activity Centre

ENVIRONMENTAL STRATEGIES - PLAYROOM

Thermal Comfort from Adaptive Comfort Standards (ASHRAE Standard 55)

upper limit

lower limit

The majority of temperature in occupied period are within comfort zone defined by ASHRAE Standard 55. The building has a high enough air change rate throughout the year, which ensures that the CO2 concentration level is in an acceptable level.

The heat loss of the building is mainly due to ventilation (internal and external), it is a trade-off between temperature (heat loss) and CO2 level (ventilation).

Dalston Junction Childrenâ&#x20AC;&#x2122;s Activity Centre

PTI Architects (2019) - Concept Design

Kota Baru Parahyangan Town Centre Masterplan Bandung, Jawa Barat - Indonesia

PTI ARCHITECTS

Jl. Kebong Kacang Raya no 3C-3D. Jakarta 10240 INDONESIA www.pti-architects.com

Kota Baru Parahyangan Town Centre Masterplan Bandung, West Java, Indonesia

Architects: Doddy A. Tjahjadi Aditya W. Fitrianto Siswanto Assistant Architects: Cindy Nabila R. Prisca Winata Kota Baru Parahyangan Town Center area covering 62 hectares consists of several functions, including mixed-use, apartment, university/education hub, commercial, commercial arcade, and high street. The kavlings on the main road are intended for mixed-use functions such as commercial retail, malls, offices, hotels, etc. which will become the main face of this town center. In contrast, the west side has steep geographical contour and will become a residential area and university which utilize the contour as a green space and public space for residents. The main feature of mixed-use land use is on the opposite of IKEA (lot T2), which is an open-air mall or referred to as a lifestyle mall. This mall connects IKEA and the water theme park to the north. Besides, there are also smaller lots, i.e. area of 2000-6000 m2 to accommodate other offices or retails. The commercial area of 5.1 Ha is explicitly intended for IKEA and the modern market which facilitates the residents of housing nearby and the community around Bandung. Highstreet is a city park concept surrounded by retail and F&B buildings. Highstreet with a width of 40 m and a length of about 300 m also serves as a link between traditional markets and malls for pedestrians. Activities that take place here can be very diverse and suitable for family recreation such as a childrenâ&#x20AC;&#x2122;s playground light sports facilities, up to adequate seating for the elderly.

N 0

100

150

200 M

TOTAL AREA : 62 Ha PROPOSAL:

- Apartment (1) : 5.64 - Apartment (2) : 4.83 - University and Education Hub : 6.41 - Mixed Use (1) : 1.42 - Mixed Use (2) : 2.33 - Mixed Use (3) / Lifestyle Mall 3 : 2.96 - Mixed Use (4) : 1.73

Ha Ha Ha Ha Ha Ha Ha

- Mixed Use (6) - Mixed Use (7) - Mixed Use (8) - Lifestyle Mall (1) - Lifestyle Mall (2) - Ikea - Modern Market - Ruko / Commercial Arcade - Highstreet / Park - Infrastructure

: 0.97 : 1.46 : 1.96 : 6.17 : 2.05 : 4.48 : 0.94 : 3.23 : 1.02

Ha Ha Ha Ha Ha Ha Ha Ha Ha

: 14.41 Ha

Kota Baru Parahyangan Town Centre Masterplan

Green open space & pedestrian link

Structure plan ROW 32 ROW 25 ROW 20

PLAZA LAKESIDE PARK THEMEPARK pedestrian link waterfront promenade green walk

Kota Baru Parahyangan Town Centre Masterplan

PTI ARCHITECTS

LIFESTYLE MALL - CONCEPT DESIGN

Schedule of Area; LIFESTYLE MALL - KOTA BARU PARAHYANGAN Level Anchor Phase 1 15.723,00 Phase 2 11.517,00 Phase 3 7.110,00 Total 34.350,00 Site Area : Nett Site Area : NLA : GFA : Efficiency : Parking requirement :

Kota Baru Parahyangan Town Centre Masterplan

Shops Circulation Services 19.737,00 21.933,00 1.500,00 14.640,00 10.161,00 750,00 22.956,00 9.402,00 750,00 57.333,00 41.496,00 3.000,00 110.679,00 m2 90.706,00 m2 91.683,00 m2 136.179,00 m2 67% 68.089,50 m2

Total 58.893,00 37.068,00 40.218,00 136.179,00

Waterfront Promenade

Drop Off

Mall Phase 1 - Semi Outdoor

+13.0

+9.0 +5.0 0.0

-4.0

Basement Parking

SECTION 1 88 m

Hotel

25 m

50 m

River

Mall Phase 3

+77.0

Mall Phase 2

Cinema / Anchor

Main Atrium Multifunction Hall Anchor

+25.0 +17.0 +13.0 +9.0 +5.0 0.0 -4.0 -8.0 -12.0

Drop Off

Basement Parking 120 m

SECTION 2

River 140 m

Mall Phase 3

Mall Phase 1 - Semi Outdoor

Anchor

Outdoor Plaza

Multifunction Hall

+17.0 +13.0 +9.0 +5.0 0.0 -4.0

Basement Parking

SECTION 3

230 m

48 m

Basement Parking 110 m

Kota Baru Parahyangan Town Centre Masterplan

PTI Architects (2018) - Concept Design

Morotai Special Economic Zone Masterplan Morotai Island, North Maluku - Indonesia

PTI ARCHITECTS

Jl. Kebong Kacang Raya no 3C-3D. Jakarta 10240 INDONESIA www.pti-architects.com

Morotai Special Economic Zone Masterplan Morotai Island, North Maluku - Indonesia

Architects: Doddy A. Tjahjadi Aditya W. Fitrianto Assistant Architects: Prisca Winata Morotai SEZ is located in the north of Daruba City, 6 km from Pitu Airport. The area is surrounded by the existing main road that connects Dehegila Village, Falila Village, to Pilowo Village, which is a very strategic location for a Special Economic Zone. It is expected that with a development of this 1101.76 hectares SEZ, access to these villages become closer and convenient. Also, the economic and industrial demand in Morotai will be fulfilled. The Morotai Special Economy Zone has three main functions, namely industrial estate, residential, and commercial. These three functions are mutually sustainable. Morotai SEZ has a commercial area of 200 hectares which is distributed to three points, namely at 2 main access points on the north and south side, as well as the city center that connects east and west access. The residential area of 260.8 hectares lies on the north side divided into several housing clusters that have different types of houses. There is a private resort on the hill and a golf course adjacent to some residential clusters. The 224 hectares industrial estate is located on the south side to make it closer to port and airport. The concept is to divide Industrial Estate into several clusters so that traffic is under control and facilitate the distribution of industrial segments. The mixed commercial area as the new city center of Morotai has an area of 200 hectares, located in the middle of the Special Economic Zone. It

ZONING

Morotai Special Economic Zone Masterplan

DEVELOPMENT STAGING

LANDSCAPE PLAN

CIRCULATION

Morotai Special Economic Zone Masterplan

RESIDENTIAL MASTERPLAN

GOLF COURSE MASTERPLAN

RESIDENTIAL SITE PLAN

The residential area is divided into two, namely the northern cluster and the southern cluster. The northern cluster consists of 13 complexes with a smaller lot size and type of house than the southern cluster. The southern cluster is a golf view cluster where several housing complexes which house directly facing the golf course. In addition, the size of plots in this cluster is larger than the north side.

Morotai Special Economic Zone Masterplan

CITY CENTRE

The mixed commercial area as the new city center of Morotai has an area of 200 hectares, located in the middle of the Special Economic Zone. It also acts as an intermediate area or a separator of two different functions, industrial and residential. The city center is divided into two; the north side which is the development of phase 1, more occupancy and lodging functions, while in the south side, there are shopping areas, sports facilities, education, places of worship, government office buildings, and security facilities.

PTI Architects (2018) - Concept Design

Morotai Street Mall

Morotai Island, North Maluku - Indonesia

PTI ARCHITECTS

Jl. Kebong Kacang Raya no 3C-3D. Jakarta 10240 INDONESIA www.pti-architects.com

Morotai Street Mall Morotai Island, North Maluku - Indonesia

Architects: Doddy A. Tjahjadi Aditya W. Fitrianto Ahmad Grenaldi Assistant Architects: Prisca Winata The street mall is a commercial facility that was built first as a shopping center and sports facilities. Located along the main route of the city center and bordering the government office in phase 1. On the opposite of this street mall is a row of shophouses while the rear side is a semi-outdoor mall. There are two main halls on the east and west sides that can be used as indoor soccer, volleyball and badminton courts. The concept of street mall is very suitable to be applied in areas such as Morotai where people like to gather and do joint activities. Sports become a unifying arena from all corners of the island.

C1 - 2.6 Ha

CITY CENTRE

STREET MALL LOCATION

LEVEL 1

GROUND FLOOR

Morotai Sreet Mall

2.5

SECTION A

SECTION B

2.5

SECTION C

Morotai Street Mall

2.5

PTI Architects (2018) - Concept Design

Morotai Resort Masterplan Morotai Island, North Maluku - Indonesia

PTI ARCHITECTS

Jl. Kebong Kacang Raya no 3C-3D. Jakarta 10240 INDONESIA www.pti-architects.com

Morotai Resort Masterplan Morotai Island, North Maluku - Indonesia

Architects: Doddy A. Tjahjadi Aditya W. Fitrianto Ahmad Grenaldi Assistant Architects: Prisca Winata An International Standards Resorts Development helps Morotai accelerates its economic growth. This resort area will benefit each other from accelerating the pace of the economy in Morotai Special Economic Zone as well. Morotai Resort is located at the southern end of Morotai Island, 4 km from Pitu Airport and also close to the Daruba City The long-shaped headland has great potential as a tourism area because it has a long coastline in the east and west. Morotai Resort is the best to provide a beautiful natural seaside atmosphere. 640 hectares Morotai Resort is divided into two main functions, public facilities, and private resorts. Some of the existing facilities are Dâ&#x20AC;&#x2122;aloha Resort, some power plant owned by the government, Aqua Culture owned by the Ministry of Marine and Fisheries, and several locations belonging to the local government. This condition affects the division of land functions around it.

TOTAL AREA 640 HA INFRASTRUCTURE PUBLIC FACILITIES RESORT RESIDENTIAL EXISTING BUILDING

128 ha 52 ha 299 ha 16 ha 145 ha

20 % 80 %

52 hectares of land are dedicated to public facilities such as restaurant, retail, shop, residential, and other facilities which are spread into three locations, the main commercial area is located in the middle of the headland while other commercial areas are in the east and west so that people can enjoy sunrise and sunset on the public beach. Public facilities such as retail, shop houses, and shopping centers are directed to have a semi-outdoor atmosphere with lots of green spaces between shops. At the tip of the headland, there is a resort above the sea that forms the symbol of the Garuda Bird as an icon of Morotai Resort.

RESORT

FALILA

COMMERCIAL

PILOWO

MO ± 1 ROT .10 AI 1,7 KEK 6h a

DEHEGILA

RESIDENTIAL EXISTING VILLAGE

6 km

KOTA DARUBA PITU AIRPORT

4 km DESA WAMAMA

DESA JUANGA

MO ± 6 ROT 40 AI ha RES O

DESA PANDANGA

Morotai Resort is located at the southern end of Morotai Island, 4 km from Pitu Airport. The long-shaped headland has great potential as a tourism area because it has a long coastline in the east and west, so it is possible to see both sunrise and sunset in this Morotai Resort area.

Morotai Resort Masterplan

RESORT - 263 Ha COMMERCIAL - 87 Ha RESIDENTIAL - 15.3 Ha DESA PANDANGA

ANGKATAN LAUT RI

DESA JUANGA Dâ&#x20AC;&#x2122;ALOHA RESORT LOKASI MPR LOKASI RKIH / PEMDA

PLTS PLTMG AQUA CULTURE KPP

ROW 24 ROW 18 ROW 10

LOKASI PEMDA 0

Morotai Resort Masterplan

500

1000

1500

2000

PTI Architects (2018) - Concept Design

Crown Sekaba Sentul Masterplan Bogor, West Java - Indonesia

PTI ARCHITECTS

Jl. Kebong Kacang Raya no 3C-3D. Jakarta 10240 INDONESIA www.pti-architects.com

to Sentul Circuit Toll Gate (ROW 20 M)

SIC C

FROM JAKA RTA

to Sentul Circuit Toll Gate (ROW 20 M)

Crown Sekaba Sentul Masterplan Bogor, West Java - Indonesia

1A. Sentul Selatan 2 Toll Gate 3A. Sentul Barat Toll Gate

Architects: Doddy A. Tjahjadi Aditya W. Fitrianto Siswanto

1A 2A. Sentul Selatan 1 Toll Gate

20 H A L IPPO 2A MIX ED USE

3A FROM BOGOR OUTER RING ROAD

BEL

Assistant Architects: Prisca Winata

FROM

LAN

1A. Entrance From Bogor / Puncak 2A. Entrance From Jakarta 3A. Entrance From Toll BORR (Bogor Outer Ring Road)

OVA

SENT

UL CI

FULL PHASE SITE AREA : 100.660 m2 GFA : 768.160 m2 KLB : 7.63 KDB : 44 %

FROM BOGOR / PUNCAK

Total Site Area 100.660 m2

APARTMENT : - 7 towers (1215 m2) + 10 towers (1000 m2) - 32 floors - total area 592.160 m2

RETAIL : - 3 floors above ground - 1 flloor basement retail - Floor plate 44.000 m2 - total area 176.000 m2

Phase 2 Area: 50.452 m2

BASEMENT : - 2 floors - floor plate 44.000 m2 - total area 88.000 m2

Phase 1 Area: 50.208 m2

50 PROPOSED LRT STATION

Crown Sekaba Sentul is a commercial area consists of apartment, offices, and malls. The total area of 100.660 m2 is divided to two phase.

175 m

Crown Sekaba Sentul Masterplan

160 m

PHASE 1 - SITE PLAN SITE AREA : 50.208 m2 GFA : 352.160 m2 KLB : 7.01 KDB : 39.83 % APARTMENT : - 7 towers. floor plate 1215 m2 - 32 floors - total area 272.160 m2

Crown Sekaba Sentul Masterplan

160 m

PHASE 2 - SITE PLAN RETAIL : - 3 floors above ground - 1 basement retail - Floor plate 20.000 m2 - total area 80.000 m2

SITE AREA : 50.452 m2 GFA : 416.000 m2 KLB : 8.24 KDB : 48.09 %

PARKING : - 2 floors basement - floor plate 20.000 m2 - total area 40.000 m2

APARTMENT : - 10 towers. floor plate 1000 m2 - 32 floors - total area 320.000 m2

RETAIL : - 3 floors above ground - 1 floor basement retail - Floor plate 24.000 m2 - total area 96.000m2 PARKING : - 2 floors - floor plate 24.000 m2 - total area 48.000 m2

Crown Sekaba Sentul Masterplan

Undergraduate Final Project - 2017 : The Story of Architecture

The Beauty of Bacteria

Living Bacteria Mechanism on Architecture of Microbiology Research and Learning Centre

The Beauty of Bacteria Living Bacteria Mechanism on Architecture of Microbiology Research and Learning Centre Everyday life can never be separated from the cleaning process. People unconsciously have a hygiene instinct that makes them do everything possible to remove dirt in their environment because of the potential pathogens to the human body. On the other hand, not all microbes are harmful to human health and in fact, people can not survive without microbes. This final project aims to awaken the public to the other side of microbes, especially bacteria. Using the mechanism of bacterial life from cell shape to forming colonies as the basis for creating an architectural program in a microbiology research and learning center which shows the beauty of bacteria and gives insight to society about bacteria by inviting people to experience life on a microscopic scale.

FORM DEVELOPMENT

The form was developed by the space program which consists of five main function hall to represent five selected living bacteria mechanism that wanted to be presented in a sequence. By using some keyword from bacteria movement such as shorten, remove, and slide, the form continues to develop flowing through the topography.

The Beauty of Bacteria

Bacteria living mechanism is implemented into the architecture according to the bacterial living process which starts from bacteria as a cell, the process of multiplying bacteria into colonies, until the mechanism of living bacteria as colonies.

Bacteria as a cell

Bacteria cells change shape and movements to achieve nutrients and to avoid enemies. The spatial keywords used to describe the movement of bacteria that can be further developed are floating and sedimenting. This keyword is applied in architecture in exhibition hall A with the theme “How Bacteria Eat?”. Exploration of models with floating and sinking qualities when applied to architectural elements. The keyword of the mechanism of bacterial movement to be applied to the exhibition hall B “How Bacteria Move” is swimming, swarming, and sliding. These three keywords can represent the movement of the majority of bacteria as a cell. The bacteria will move in any direction opposite to the predator or move toward the food source.

Multipication of Bacteria

From living processes as cells, bacteria survive by multiplying. This exponential cleavage makes the bacteria grow rapidly into a colony. The exploration of the model with the keyword polar differentiation produces a model that can be applied to the barrier and limiting elements. The architectural elements in the exhibition hall C are also overgrown with bacteria covered with glass to keep the spores from flying in the air.

Bacteria as Colonies

After multiplying into colonies, the bacteria can be seen by the human eye. Therefore in the exhibition hall D, the bacteria are allowed to grow on the walls and floors and form their morphology so that visitors can know the morphological types of bacterial colonies by looking at them directly. In this exhibition hall, the influence of incoming sunlight and the laying of trees or shading outdoors greatly affects the number of living bacteria. Visitors can see the pattern of bacteria colonies as a learning material that sunlight inhibits the process of bacterial growth.

The Beauty of Bacteria

Undergraduate Architectural Design 5 - 2017 : Transit Oriented Development

GELORA

Shopping Centre & Apartment

Gelora Shopping Centre & Apartment

Palmerah is one of the areas in DKI Jakarta that has the potential to be developed as a transit-oriented development area. Currently, Palmerah area, especially around Palmerah Station is very strategic because it is a transit point of several modes of transportation namely Commuter Line, Transjakarta Bus, Public Bus, and online transportation. Therefore, Palmerah Station connects the people of Jakarta, especially Jakarta and Tangerang because the commuter line that passes through this area is the Jakarta - Tangerang line. The area is also close to the Office Center along Sudirman road, Gatot Subroto, to the shopping center in Tanah Abang. The area is also surrounded by settlements and close to the sports center in Senayan, adding to the factors that affect the number of transit communities in the region to move to other locations. Gelora Shopping Center and Apartment aim to develop the transit area by reducing the distance between the shelter/office with transit location, improving the accessibility of residential and office locations from transit sites, and increasing the use of transit locations by injecting other functions, such as residential, office, commercial, etc.

Gelora

Undergraduate Architectural Design 4 - 2016 : Iconic Building : Highrise Building

QU Tower

Office and Apartment

QU Tower Office and Apartment

Thamrin area is one of the central business area in Central Jakarta filled with highrise buildings such as offices, hotels, malls, and apartments. Civic space is needed to accommodate people’s activities in this region in the next few years. The selected land has great potential as a ‘civic space’ because it is a 15,000 m2 land surrounded by offices, state administrative buildings, malls, hotels, close to Kebon Kacang settlements, and has adequate public transport access. QU Tower consists of two functions, namely as an office (30%) and residential or apartment (70%). The target occupants of the apartment at QU Tower is the upper-middle class with an average apartment area of more than 180 m2. The office itself uses a multi-tenant system consists of two to four tenants each floor. The idea of the shape of the building is inspired by the shape of the coral and the symbol of ‘infinity’ symbolizing the corals and oceans of Indonesia as the largest archipelagic country in the world. Each floor has a cantilever two meters away from the perimeter column. This is used as a ‘shading’ to the sun. It also serves as a windbreaker to keep the glass panels less impacted by wind loads. A cantilever is also useful for building maintenance in order to clean the glass more efficiently and does not require a gondola. The cantilever also serves as a rainwater container that will be used for flushing toilets and fire-fighting sprinklers. The main structure of this building is the structure of beam and core columns with sliding walls and perimeter columns as support. The columns are tied to cores with pre-stressed beams that have a longer stretch than conventional blocks.

ICONIC BUILDING

SITE ANALYSIS The site has high potential factors to be built a civic space, such as: - very large area (15.000 m2) - surrounded by offices, administrative building, malls, hotels, and also near kebon kacang neighborhood - accessible (MRT, Transjakarta, Taxi, Commuterline) - facing the main road

The sun rays go along from east to west at the site, but the direct sun ray comes only at midday because the tower is surrounded by another buildings and the shadow of buildings at the eastern and western of the site will cover The Tower and reduce the cooling load inside The Tower in the morning and the afternoon.

QU Tower

PERDA DKI JAKARTA NO 1 TAHUN 2014 Rencana Detail Tata Ruang dan Peraturan Zonasi (Detailed spatial plans and zoning regulations) land use : office spaces, trades, and services area : 7513 m2 floor : 22 floors

area : 1659 m2 floor : 24 floors

area : 3099 m2 floor : 17 floors

QU Tower

Undergraduate Architectural Design 4 - 2016 : Civic Space (Wide-span Building)

Thamrin Aquatic Centre

Thamrin Aquatic Centre Jakarta, Indonesia Thamrin Aquatic Center is designed in order to facilitate the 18th Asian Games which is going to be held in Indonesia (Jakarta and Palembang). This Aquatic Center only facilitate the diving and short course swimming competition. Located in the central business district in Jakarta, this Aquatic Center also provides retails, restaurants, and large parks so that people could gather around after works.

CIVIC SPACE Civic spaces are an extension of the community. When they work well, they serve as a stage for our public lives. If they function in their true civic role, they can be the settings where celebrations are held, where social and economic exchanges take place, where friends run into each other, and where cultures mix. They are the “front porches” of our public institutions – post offices, courthouses, federal office buildings – where we can interact with each other and with the government. When cities and neighborhoods have thriving civic spaces, residents have a strong sense of community; conversely, when such spaces are lacking, people may feel less connected to each other. Great civic spaces are really great public places. They are recognized and valued in their cities and towns as places with their own special flavor that relate to and nurture the larger community and bring the public together http://www.pps.org/reference/benefits_public_spaces/

Thamrin is one of the busiest business centre district in Jakarta. It is located in the central of Jakarta and surrounded by highrise office buildings, mega malls, residences, and hotels. The site has high potential factors to be built a civic space, such as: - very large area (15.000 m2) - surrounded by offices, administrative building, malls, hotels, and also near kebon kacang neighborhood - accessible (MRT, Transjakarta, Taxi, Commuterline) - near protocol road The sun rays goes along from east to west at the site, but the direct sun ray comes only at midday because the Aquatic Centre is surrounded by high rise buildings and the shadow of buildings at the eastern and western of the site will cover the Aquatic Centre and reduce the cooling load inside the Aquatic Centre in the morning and the afternoon. Annual wind rose (frequency distribution) analysis data shows that the wind blows majorly from the south-west.

Thamrin Aquatic Centre

Undergraduate Architectural Design 3 - 2015 : Urban Entities

Kebagusan Playhood Neighborhood Shifting Territory from Domestic to Public

Kebagusan Playful Neighborhood Jakarta, Indonesia Kebagusan is a dense residential area in South jakarta. Roads in the settlements also tend to be narrow and the distance between houses is very narrow and even close together. With these circumstances, citizens tend to take the road as their personal territory to carry out their familyâ&#x20AC;&#x2122;s domestic activities. This condition of course causes a change of territory (shifting territory) from what was once a public area, into a domestic area. Obviously there will be interventions in the public area resulting in interaction between the two areas. Interactions that occur are not always negative or disturbing but rather positive interactions. With the departure of the shifting territory issue, the project aims to create new domestic spaces without disturbing the public space or here more to the circulation space (street). AFFORDANCE Perceptible Affordance Actions where information on actions that are afforded are perceptible to the user Hidden Affordance Actions that are possible but may not visible but may be inferred False Affordance Happen when users percieve an environment affords actions that are not possible Correct Rejection Neither affordance nor the misperception of its existence Each activity may be categorized into more than one type of affordance, because human perception is different and all activities must have some association with other activities because they have hidden interaction and hidden potential inside it Gaver, William W. (1991) Norman, D. (1999). Affordance and Design

Kebagusan Playful Neighborhood

Undergraduate Architectural Design 3 - 2015 : Typology Study

Karang Pola Public Workspace Community Workspace

Karang Pola Public Workspace Community Workspace Karang Pola neighborhood consists of three area differentiated by economy situation. The middle-low economy class area is the most crowded area. 80% of men there don’t have particular jobs and the women and children also spend most of their time at home. This situation affect the number of energy consumption and the productivity of the neighborhood. This project attempt to create a public workspace that accommodate people in Karang Pola neighborhood to increase their productivity and economy. This workspace is also used as a community centre where all ages can gather to do activities together so that the energy consumption can be reduced and the goal is achieved. Using typology as a design method, “Continuous Path” is chosen as a keyword of all exploration in the design process.

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Karang Pola Public Workspace

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Karang Pola Public Workspace

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Undergraduate Architectural Design 2 - 2014 : Dwelling

Kinesthetic House A Dwelling for a family

Kinesthetic House A dwelling for a family with unique characteristics based on everyday living aspects. The design should contain the spatial implications not only for the present but also for further years. It should demonstrate an integration of programmatic, tectonic, and atmospheric approaches into a whole design scheme. A house that accommodate auntâ&#x20AC;&#x2122;s stability needs and motherâ&#x20AC;&#x2122;s hobby (moving objects to change the atmosphere for some time by using tactile as navigation and create different atmosphere in different rooms. The tectonic idea is levelling and intersections. Through model explorations, the initial form of the house is decided. Based on the program (tactile as navigation), some walls will be made of different material and lead the aunt as she walks also create different atmosphere in every room. The plain wall will be remained for the mother to do her hobby.

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Kinesthetic House

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Kinesthetic House

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Wooden Tectonic Studies - 2015

Jigokugumi Shelter

Jigokugumi Shelter Wooden Tectonic Studies Inspired by the wooden construction of jigo-ku-gumi which was developed by Japanese Architect, Kengo Kuma, this installation is made by adapting the construction in a simpler and easier to be applied in Indonesia. The method used in the design process of this installation is the bottom up method, which is by designing the first timber connection system which eventually composed into a more massive form. Beginning with a rod module in connection without the use of nails or bolts, this installation can stand firly by relying on the precision level of the joints that are clamped together. This installation is made by utilizing scrap wood from the demolition of the building for all its parts so it is expected to be the beginning of the utilization of timber used creativly with the quality equivalent to new timber.

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Jigokugumi Shelter

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Competition Entry : ASHRAE ISBD 2016

Zero Net Energy Building Indonesian Representative

Zero Net Energy Building Indonesian Representative on ASHRAE ISBD 2016 TEAM: Mechanical Engineers: Dicky Alamsyah Dylan Jeremy Ericsson Sintong

Architects: Lissa Christie Lopes Surya Izazi Mulya Putra Prisca Winata

ASHRAE ISBD Student Design Competition 2016 expected us to schematically design an energy-efficient, sustainable project approaching a â&#x20AC;&#x153;Zero Net Energyâ&#x20AC;? building with minimized energy demand for HVAC and all other technical systems that could be satisfied with locally available and/ or building installed renewable energy source. The project is to build a new 2-story office and administration building in Beijing, China. The building facilitates functions that accommodate government operations of the administrative staff. The project was conducted as a design/bid/build project with a design team, a general contractor and an independent commissioning authority. Our team consists of three mechanical engineering students and three architecture students. The team worked to integrate site location, building redesign, orientation, envelope components, and mechanical systems to achieve a building approaching net-zero energy. The guidance of the design was the OPR, ASHRAE Standards 90.1 and 189.1, LEED standards, and a budget cap of $200 per square foot.

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The team worked together as an integrated team to do solar analysis, mechanical systems selection, site selection, energy modelling, and building layout redesign, orientation, and envelope analysis. Analysis of climate was performed by Climate Consultant using IWEA data, the result guided us to select low-energy mechanical systems. Beijing climate was categorized in zone 4, which dominated with Hot Degree Day (HDD). The building site is chosen based on Beijingâ&#x20AC;&#x2122;s masterplan, public transportation, and availability of solar gain during a year. Once the site selected, the building layout was redesigned to only have three facades, that are north, west, and south-east. The south-eastern facade is intended to maximize solar gain for highly occupied room around noon-time. The western facade was designated for 24 hours occupied rooms and night-occupied room. Medium SHGC windows were selected for the south-east ern and western walls to gain solar heat during heating-time and reduce solar gain during cooling-time, while still providing adequate daylight. The building was also shaded for those two facades. Recyclable materials were selected to give a positive impact on the environment and to reduce construction cost while still providing acceptable thermal performance. Energy modelling is generated using Autodesk Revit. To reduce water consumption, greywater recycling plant and composting toilets were used. To minimized energy consumption for HVAC, VRV combined with efficient heat pump was used to satisfied thermal comfort. Also supported with thermal energy storage for shifting electrical use for cooling load at peak time. DOAS was selected to control humidity efficiently. For lighting, mirror ducting, light shelf, and skylight were used to support the efficient artificial lighting devices. To maximize electricity production approaching â&#x20AC;&#x153;Zero Net Energyâ&#x20AC;? building, PV modules were to be installed within the roof mounted. Finally, the total life cycle cost of the building was 50% lower than the baseline.

Zero Net Energy Building

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Competition Entry: WEX UGM 2015 “Share House”

Healax House

Healax House (Healing - Relaxing House) Competition Entry WEX UGM 2015 TEAM: Architects: Prisca Winata Sesilia G. Marsella

Civil Engineers: Christopher Kevinly Alexander Kevin Utomo

Departing from the fact that in the capital there are 4,712,836 workers and 14.09 percent of the amount must go through a long-distance and long travel time to reach the place of work (BPS, 2014). This certainly adds to the level of physical and emotional saturation and fatigue for workers, which in turn will have an impact on their productivity. The need for a place to live close to the workplace as well as entertainment venues to relax is increasing as the traffic in the capital closes. For that, it takes occupancy that can provide a comfortable space for workers to be able to relax and at the same time full of entertainment without having to travel out of the house. However, the increasingly high population density in large cities requires the establishment of efficient dwelling in terms of land area. The city of Jakarta, one of the most densely populated cities in the world, is home to 15,015 people per square kilometer city. The availability of energy and clean water also becomes a limitation in the development of a suitable dwelling to support the needs of the workers who occupy the dwelling. An efficient solution is needed so that the dwellings designed to accommodate the needs of the workers can be built with land and the consumption of electrical energy and water is minimal. To accommodate the need for high quality housing and high population density, it is proposed that the concept of a share house as a type of future dwelling. Share house itself is a residential concept where in a home-based building can accommodate a relatively large number of residents in a limited area of land. With a share house located close to the workplace, workers can minimize the time and effort they need to go where they are. The issues of comfort and the meanings they need are as much as possible available to the share house, whether they need rest or recreation.

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Healax House

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priscawinata@gmail.com +44 7833 746364