PATRICK ANGKIRIWANG FALL 2020 SELECTED WORKS ARCHITECTURAL ENGINEERING
University of Waterloo Architectural Engineering // Selected Works Fall 2020
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Patrick Angkiriwang // Selected Works
TABLE OF CONTENTS 04-05
CURRICULUM VITAE
06-11
TROUBLE BUBBLES Airport of the Future
12-17
DOPPLER VISION Re-clad of existing enclosure
18-21
COLUMBIA LAKE BUNKEE AirBnB cabin for long-haul hikers
22-23
A JOURNEY THROUGH TIME Playground proposal
24-27
IBI GROUP Architectural Co-op Student
Patrick Angkiriwang // Selected Works
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Hello. Bonjour. Apa kabar? My name is Patrick Angkiriwang and I am currently a third-year architectural engineering student from the University of Waterloo. I believe in humanity, in the idea that we can come together to achieve greater goals. The architectural discipline embodies this. As the world changes and evolves, so too will the challenges we face. The increasingly complex problems we encounter will need solving, not only by individuals, rather by intensive collaboration. It is this architectural and engineering design process that I hope to become a part of.
Patrick Angkiriwang (778) 316-3691 paangkiriwang@uwaterloo.ca
As the shift towards sustainability increases, so too will the need for interdisciplinary building design. As an architectural engineering student, my skills lay beyond simply strictly architecture, or engineering. I understand both their thought processes, allowing for a unique perspective into this field. It is this perspective I hope to showcase. Hope you enjoy!
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Patrick Angkiriwang // Selected Works
CURRICULUM VITAE EDUCATION UNIVERSITY OF WATERLOO Sept. 2018 — Apr. 2023
- Candidate for Bachelor of Applied Science, Honours Architectural Engineering - Relevant Courses: Building Envelope Studio, Structural Graphics Studio
EXPIERENCE UNIVERSITY OF WATERLOO Research Assistant Waterloo, Ontario Oct. 2019 — Apr. 2020
- Independently designed several versatile, cost-effective measurement system options that the industry partner can use to measure displacement to the 1/1000 millimeter - Examinined cost and specifications of different instrumentation to reduce the system’s upfront cost by $4100 - Devised various experiments to analyse, calibrate the measurement system, and assess its accuracy and precision - Developed mounting device designs for installion of linear potentiometers and dataloggers onto aluminum bridge - Inquired about compatibilities and capabilities of DAQs and sensors by phoning and emailing sales representatives
IBI GROUP Architectural Co-op Vancouver, British Columbia Jan. 2019 — May 2019
- Co-ordinated between various floor plans, drawings, sketches to create accurate rendering model for development permit application using SketchUp, V-Ray, & Enscape - Related topographic site plans with elevations using AutoCAD to produce accurate streetscapes included within development permit application - Produced sun-shade studies for spring equinox and summer solstice included within development permit application
SKILLS - Revit
- AutoCAD
- Microsoft Office Suite
- SketchUp
- THERM
- Adobe InDesign
- Rhinoceros 3D
- Climate Consultant 6.0
Illustrator
- V-Ray
- Physical model making
Photoshop
- Enscape
- Architectural sketching and drafting
ACHIEVEMENTS CAMPUS CONNEXT AWARD FINALIST
B.C. ACHIEVEMENT SCHOLARSHIP
IBI Group
BC Ministry of Education
2020
E.Z. SCHOOL PLAYGROUND FINALIST
PRESIDENT’S SCHOLARSHIP
AE125 In-Class Competition
University of Waterloo
2019
2018 2018
PEOPLE’S CHOICE AWARD Architectural Eng. Design Days
2018
Patrick Angkiriwang // Selected Works
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TROUBLE BUBBLES Natural disaster mitigation through integrated design
LOCATION Jakarta, Indonesia COLLABORATORS Janna Kholodova Carrie Zhu PROJECT 2020 Airport of the Future SUPERVISED BY Andrea Atkins
Soekarno-Hatta International Airport is the gateway into Indonesia’s capital. As such, the proposed project, Trouble Bubbles, should address future issues that concern the nation. Indonesia rests on the “Ring of Fire”, an area around the Pacific Ocean where earthquakes and volcanoes are highly prevalent due to active tectonic plate movement. Additionally, major flooding concerns in Jakarta are growing due to rising sea levels, and the city sinking up to 10 inches a year. Future buildings must be adapted for these future and current concerns due to climate change. Trouble Bubbles aims to address these critical concerns by creating a haven, in the form of earthquake-resistant domes and a buoyant-foundation dome, where members of the public can gather whenever these disasters occur. Weathered steel allows the domes to match the bright colours provided by the terra cotta tiles traditionally used and seen in the city of Jakarta. Using steel, as well as wood, allows for long term sustainability since the materials used in this project can be reused or recycled after the lifecycle of the buildings. The design of Trouble Bubbles is highly adaptable for varying uses, and future expansion. Lots of open space allows it to evolve with new passenger experiences and technologies. Satellite gates create an intuitive user experience, and allows for easy terminal expansion.
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Fentress Global Chalenge // Competition Work
N LEGEND
(1) Earthquake resistant dome (2) Buoyant Foundation dome (3)Potential terminal expansion (4) Outdoor park (5) Gates (6) Check-in/arrival (7) Security (8) Transit Hub (9) Tarmac
Above Key plan of existing airport Left Site plan of proposal Below Exterior render of earthquake domes, and flood resistant domes
Fentress Global Chalenge // Competition Work
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Right South West elevation of proposal
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100’
200’
300’
400’
Below Interior perspective of flood-resistant dome
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Fentress Global Chalenge // Competition Work
500’
Top Flood-resistant dome prior to flooding contains a variety of ammenities including market stalls and food vendors. Ethylene Tetrafluorethlene (ETFE) pillows allow diffused light into the atrium space while keeping dead loads to a minimum. The use of steel and wood also reduce dead loads. Middle Flood-resistant dome during flooding floats due to buoyant raft slab foundation (filled with concrete and foam). It rises along elevator cores that are anchored to the ground Bottom After flood waters subside, floodresistant dome then returns to its original position where it is able to provide disaster relief.
Fentress Global Chalenge // Competition Work
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Top Earthquake-resistant dome prior to earthquake contains various ammenities including market stalls, food ventors, and a “Sky Garden” (an accessible floating garden held in place with hydraulic cylinders). Middle During an earthquake, the floating garden acts as a damper that transfers forces to the exterior dome via hydraulic rams. Additionally, the raft slab foundation distributes and lessens the force on the building. Bottom After an earthquake, the “Sky Garden” is no longer safe, however the main building is intact and can act as a coordination space for disaster relief.
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Fentress Global Chalenge // Competition Work
MEMBER SSTEEL REBM EM LEETS
RSTEEL OTCCONNECTOR ENNOC LEETS S3”TBOLTS LOB ”3
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’1
1’
3’
6’
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Above Outer face of typical steel connections for earthquakeresistant domes Left Inner face and profile of the steel connections for the earthquakeresistant domes. The ball-joint allows the hydraulic cylinders to pivot freely without creating stress at the connection itself. Below Interior perspective of accessible “Sky Garden” pre-earthquake
Fentress Global Chalenge // Competition Work
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DOPPLER VISION High performance re-clad of existing building envelope
LOCATION Waterloo, Canada COLLABORATORS Michael Hioe Project 2A Enclosure Design Studio SUPERVISED BY Andrea Atkins Jonathan Enns
There were three main priorities outlined in the terms of reference for this project: express the innovation done at the University of Waterloo, be made of long-lasting and sustainable materials, and enhance the building’s thermal and energy performance. These objectives are fulfilled with the use of sleek aluminum panels that are wrapped by continuous OLED displays. The panels are curved at the displays and windows to provide a swelling effect, an effect that is enhanced by vertical, silvery aluminum strips. This effect illudes to the accumulation of ideas and innovations that have been and will continue to be built within the university’s first building. Additionally, the added insulation significantly increases the building’s R-Value from R-4.6 to R-46.
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University of Waterloo // Academic Work
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Reclad Design Proposal
Above Location of re-clad focus on floor plan of DWE Building Left Photograph of existing enclosure of DWE taken from Google Maps Below Perspective of North face of DWE enclosure after re-clad retrofit
University of Waterloo // Academic Work
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Above Elevation of re-cladded enclosure with associated section drawing Right Facade to OLED screen detail Below THERM diagram of wall assembly annotated with outdoor to indoor temperatures in degrees Farenheit
LEGEND
(1) 1/2” Aluminum panel (2) 2” Air gap (3) 4” ISO rigid insulation (4) Existing CMU (5) Existing mortar (6) Existing face tile
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University of Waterloo // Academic Work
University of Waterloo // Academic Work
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Right North West corner at twilight
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University of Waterloo // Academic Work
University of Waterloo // Academic Work
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COLUMBIA LAKE BUNKEE AirBnB cabin design for long haul hikers
LOCATION Waterloo, Canada COLLABORATORS Tristan Kovacs Serena Kam Herry Chen PROJECT 1A Concepts Studio SUPERVISED BY John Straube Jonathan Enns
The purpose of our bunkee is to provide a place of overnight shelter for bikers and hikers who may be traveling on the Trans Canada Trail near Columbia Lake, Waterloo. The bunkee will be a short term installment on the Columbia Lake, and will provide a storage space various needs. The shelter will be accessible via a dock and deck, allowing scenic visibility of the beautiful trail and surrounding Columbia lake. An overhead, wall to wall skylight will provide much of the light needed for the bunkee, allowing for it be off the grid, as well as provide a view of a starry night for those inside.
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University of Waterloo // Academic Work
Left Position of cabin at intersection of trail along Columbia Lake Below East and North elevations; Westward and Northward sections
University of Waterloo // Academic Work
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Right Exterior render of two people sitting at the edge of surround dock Below Interior view from entry way
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University of Waterloo // Academic Work
Left Photographs of physical white model showing roof framing and interior furniture
University of Waterloo // Academic Work
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A JOURNEY THROUGH TIME Playground proposal for Elizabeth Zieglar Elementary School
LOCATION Waterloo, Canada COLLABORATORS Susannah Coons Robert Purcell Daniel Choi PROJECT 1B Structural Graphics Studio SUPERVISED BY Cory Zurell Fiona Lim Tung AWARDS Finalist for class competition
With an existing playground too small to fufill the needs of older grades, Elizabeth Ziegler Elementary School needed a new playground. After consultation with students grades K-6, our team concluded the clients wished for a physically challenging obstacle course similar to their favourite shows. A time travelling theme came from common factors in their suggestions, and led to the hour glass and figure eight shaped layout. In addition to respecting the playground’s theme, the figure eight layout provides the students with choice as to how it can be used. After going through a panel of school representatives, as well as student voting, this project became a finalist for the competition.
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University of Waterloo // Academic Work
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Above Artistic interpretation of proposed playground site plan Left Site plan of existing playground alongside proposed addition Below East elevation
University of Waterloo // Academic Work
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IBI GROUP
Architectural co-op student, High-Rise Residential Team
LOCATION Vancouver, Canada PROJECT MANAGER Jeff Christianson TEAM Pascal Jean-Mairet Khanh Tran
Parcel D is located at the northeastern corner of the Cambie Gardens rezoning site. This project, alongside the proposed Canada Line subway station, marks the block as a major gateway to the site. Led by Jeff Christianson, our team sought to create an architectural language that justifies the buildings’ prominent positions while adhering to the site and project conditions. A diagonal pathway cuts through the two buildings’ retail podiums connecting the proposed station with Pearson Plaza. An organic expression produced by the balcony outlines sculpt the massing of D2 & D3 (the two South towers) while the North façade of D1 (the North tower) expresses a unique interconnected grid with strong horizontal elements. Dominant balcony outlines define the North East corner of D2, creating a striking element along Cambie St.
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IBI Group // Professional Work
Top row Sun shading study of March 20th at 10AM, 12PM, and 2PM Middle row Sun shading study of June 20th at 10AM, 12PM, and 2PM Bottom row Sun shading study of September 20th at 10AM, 12PM, and 2PM
IBI Group // Professional Work
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Top Proposed Cambie St. streetscape (East elevation) Middle Proposed Paulson St. streetscape (West elevation) Bottom Proposed 57th Avenue streetscape (North elevation)
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IBI Group // Professional Work
IBI Group // Professional Work
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Thank you. Merci. Terima kasih.
Patrick Angkiriwang (778) 316-3691 paangkiriwang@uwaterloo.ca