Post on 12-Mar-2016
description
17 Dafoe Crescent Brampton | 647.717.9429 | jaspall.singh.gill@gmail.com
JASPALL GILL
ARCHITECTURE
PORTFOLIO
Curriculum Vitae Community Center 1Student Residence
1 Curriculum Vitae
Thesis
Beach Chair InstallationLookout TowerCommunity Center 2 Chinese Spa
Professional ExperienceEducation
Snyder Architects Inc. 8 Months, 2012-2013St.Mary Catholic Elementary School Assistant Construction Manager (9 Million) Responsible for contract administration, interior design, SI’s, CO’s, and coordination of shop drawings,
Milton 5 Catholic Elementary School Draftsman (14 Million)Responsible for detailing, annotating construction drawings, and Revit modeling Various Reno’s on Toronto Catholic SchoolsAssistant Construction Manager (Approx 1 Million each)Responsible for interior design, SI’s, coordination of shop drawings, and contract administration
Everstrong Construction Ltd. 4 Months, 2014Milton 7 Catholic Elementary School Project Coordinator (10 Million)Responsible for compiling information, issuing contracts and proposing change orders
Milton 5 Catholic Elementary School Project Coordinator (14 Million)Responsible for compiling information, directing contractors and occasional site visits (I worked on this project both on the architect’s and contractor’s side) Tiger Jeet Elementary School AdditionProject Coordinator (1 Million)Responsible for compiling information, issuing contracts and proposing change orders, gathering quotes`
Atelier Small Pte. Ltd. 4 Months, 2015ILight Marina Bay Festival DesignerResponsible creating design proposals, including drawings and renders.
Nathan Place CondoDesignerResponsible creating design proposals, including drawings and renders. Istanbul Community Market CompetitionDesignerResponsible creating design proposals, including drawings and renders.
Master of Architecture University of Waterloo 2016
Bachelor of Architectural ScienceRyerson University 2015 LEED Green AssociateCaGBC 2012
Fundamentals of University TeachingUniversity of Waterloo 2016
Abroad Study in ChinaSoochow University 2014
JASPALL GILLUniversity of Waterloo, Master of Architecture Ryerson University, Bachelor of Architectural ScienceLEED Green Associatejaspall.singh.gill@gmail.com
Specialties Skills Volunteer Work Aspiring Goals
Project ManagementMost of my experience takes place during the construction phase for most of the projects I have worked on. I have managed construction as both while employed by contractor and project manager
Institutional DesignI have a full year of experience dealing with K-12 public schools. For a school in Milton I was employed at an Architecture firm during the Design and CD phase and then sought employment at the GC company that managed its construction and worked on the project from conception to delivery.
Revit CollaborationDuring our third year in school our team was tasked with creating a full set of construction drawings. This included everything from schedules, details, wall sections and annotated plans to industry level standards for a commercial building. I lead the team in setting up the file and teaching the members how use annotations, and create advanced completely linked schedules
Residential DesignI have experience dealing with clients requesting custom home designs in Singapore.
Design VisualizationEvery render in this portfolio, including those done in a collaborative setting, have been done my me.
FabricationLaser Cutting3D Printing Wood CNC Routing
SoftwareRevitAutoCADAdvanced AcrobatPhotoshopInDesignIllustratorLumion (animations)Rhino + VRayGrasshopperSketchup
OtherSketchingHand DraftingLightingPhotographyPublic SpeakingClassroom DesignProduct ResearchArduino programming
325 Magazine Position: Sponsorship Coordinator. A volunteer club to promote Ryerson Architecture by producing a magazine featuring student work
CANstruction A charity competition to design a sculpture out of cans to be donated
AIAS RyersonPosition: Event Coordinator. A club meant to foster an architecture community within Ryerson in collaboration with the AIAS network in the states.
AIAS Mentorship ProgramA initiative to mentor first year students to help guild them.
Spec Writing I feel it gives you a new level of control and confidence in the design and cost management of the project.
Energy Modeling I feel this will be a very necessary skill with the environment increasingly driving economics
Real World Design With Digital FabricationI have a lot of knowledge on how to laser cut and CNC items but I don’t know how to efficiently implement it into any design.
Estimating Project Costs
NCARB Certificate
LEED AP
JASPALL GILL
.
FitnessPhotography Dancing
Project Coordina n
Revit Architecture Design
Ins tu al Design
Design
Industrial Design
4 2015 JUNIOR DESIGNERDesigning residen�al renova�ons, designing compe��on submissions, residen�al interior design, 3D visualisa�on, furniture design, and landscape design.
ATELIER | SMALL PTE. LTD. (Architecture Firm in Singapore)
4 2014 PROJECT COORDINATORCoordina�ng informa�on between sub trades and consultants, reviewing shop drawings, issuing purchase orders and resolving conflicts between various par�es.
EVERSTRONG CONSTRUCTION LTD. (Construc�on Company in Milton)
82013 & 2012 INTERNDra�ing Construc�on drawings, designing various building components, aiding in construc�on management, and construc�on administra�on.
SNYDER ARCHITECTS INC. (Architecture Firm in Toronto)
WORK EXPERIENCE (months) SPECIALTIES
)
, Canada)cience
)
2014Soochow University (Suzhou, China Study Abroad in China
EDUCATION
2015 Ryerson University (Toronto Bachelor of Architectural S
2016 University of Waterloo (Waterloo, Canada Master of Architecture (Expected)
GrasshopperAdobe IllistratorAdobe Indesign
Public SpeakingClassroom Design
Research Autodesk AutoCAD
Adobe PhotoshopRhino 3D + Vray
SKILLS
HOBBIES
Seoul (1.5 weeks)
Suzhou (2.5 weeks)
Beijing (2 weeks)
Singapore (4 months)Kuala Lumpur (1 month)
Shanghai (2.5 weeks)Toronto (22 years)
Montreal (3 weeks)
Georgia (3 weeks)
Phoenix (2 weeks)
Chicago (3.5 weeks)
PAST TRAVEL EXPERIENCE JASPALL SINGH GILL
jaspall.singh.gill@gmail.com
jaspall.singh.gill@live.com
+1 647 717 942917 Dafoe CrescentBrampton, Ontario,
Canada L6Y2L1
M.Arch., B.Arch.Sc., LEED Green Assoc. Jaspall Gill is a Master of Architecture graduate from the University of Waterloo also holding an undergraduate degree in architecture from Ryerson University. He is a LEED Green Associate with over a year of experience in a series of construc�on/architecture firms.The majority of his experience lies in ins�tu�onal design and construc�on. His strongest skills are visualiza�on, construc�on management and building science.His current goal is to gain employment in a large firm and accumulate his hours to become a licensed architect.
ThesisIndividualThis thesis explores a design of a colony in outer space able to comfortably sustain a dense growing population of 1 million inhabitants. This visionary colony, will exist in the Moon-Earth Lagrange Point 1 and aims to take advantage of the unique physical, phenomenological, and technological aspects of space while providing a level of comfort on par with that of a first world city. This paper engages the practice of architecture by exploring past our current ability of habitation, enabled by being surrounded in an outer space context, ultimately trying to answer the question of ‘what sequence of events will allow for self-sustaining, expanding, city in space and what type of life may we lead within?’ The major axioms in this thesis will revolve primarily around four categories: the potential technology required, the abstract mechanics of how various systems would interact to support life, the timeline that would require a space colony to be built and the urban design that a city of the sky should enjoy. The goal is to synthesize these three areas and ultimately determine the schematic design approach of a space colony. To this end topics relating to, energy production, mining, ecological footprint, modern scenes of fantasy, mechanical and structural engineering, alternative housing, linear cities and political governing will be explored topics of study. The overarching goal of all of this is to discover how we can to build a habitat in orbital space based on our current and projected technology and to explore the emerging field of space urbanism.
.
FitnessPhotography Dancing
Project Coordina n
Revit Architecture Design
Ins tu al Design
Design
Industrial Design
4 2015 JUNIOR DESIGNERDesigning residen�al renova�ons, designing compe��on submissions, residen�al interior design, 3D visualisa�on, furniture design, and landscape design.
ATELIER | SMALL PTE. LTD. (Architecture Firm in Singapore)
4 2014 PROJECT COORDINATORCoordina�ng informa�on between sub trades and consultants, reviewing shop drawings, issuing purchase orders and resolving conflicts between various par�es.
EVERSTRONG CONSTRUCTION LTD. (Construc�on Company in Milton)
82013 & 2012 INTERNDra�ing Construc�on drawings, designing various building components, aiding in construc�on management, and construc�on administra�on.
SNYDER ARCHITECTS INC. (Architecture Firm in Toronto)
WORK EXPERIENCE (months) SPECIALTIES
)
, Canada)cience
)
2014Soochow University (Suzhou, China Study Abroad in China
EDUCATION
2015 Ryerson University (Toronto Bachelor of Architectural S
2016 University of Waterloo (Waterloo, Canada Master of Architecture (Expected)
GrasshopperAdobe IllistratorAdobe Indesign
Public SpeakingClassroom Design
Research Autodesk AutoCAD
Adobe PhotoshopRhino 3D + Vray
SKILLS
HOBBIES
Seoul (1.5 weeks)
Suzhou (2.5 weeks)
Beijing (2 weeks)
Singapore (4 months)Kuala Lumpur (1 month)
Shanghai (2.5 weeks)Toronto (22 years)
Montreal (3 weeks)
Georgia (3 weeks)
Phoenix (2 weeks)
Chicago (3.5 weeks)
PAST TRAVEL EXPERIENCE JASPALL SINGH GILL
jaspall.singh.gill@gmail.com
jaspall.singh.gill@live.com
+1 647 717 942917 Dafoe CrescentBrampton, Ontario,
Canada L6Y2L1
M.Arch., B.Arch.Sc., LEED Green Assoc. Jaspall Gill is a Master of Architecture graduate from the University of Waterloo also holding an undergraduate degree in architecture from Ryerson University. He is a LEED Green Associate with over a year of experience in a series of construc�on/architecture firms.The majority of his experience lies in ins�tu�onal design and construc�on. His strongest skills are visualiza�on, construc�on management and building science.His current goal is to gain employment in a large firm and accumulate his hours to become a licensed architect.
Initial habitation modules. This will grow into a double helix. The two modules need to be made in pairs in order to maintain complete balance.
This image illustrates how each module will grow continuously but never conflict with each other. The solid colour illustrates the habitation modules
and the clear illustrates the agricultural modules.
Initial habitation modules with the added modules for agriculture. The colony as a whole when the agriculture is added will grow as a quadruple helix to form a cylinder. The two agricultural modules also need to be made in pairs
in order to maintain complete balance. They do not need to match the mass of the habitation modules.
The completion stage, that includes the agricultural areas and the habitation areas. All the modules line up to form a cylinder
Thes
isMa
ster o
f Arc
hitec
ture
Population Density of the
agriculture mods
Service Population
Module Division 8
Population of all Agriculture
Modules
Population of all Service Modules
Population of all Agriculture
Modules per ring
Population of all Service Modules
per ring
Overall Population
Agriculture Space Population
Division 9
Space between ducts
Housing Stacks Required
Population Per Ring
Number of Rings For Agriculture 3
Housing Stacks Required Per
Module
Housing Stack Cluster Required
People per Housing Stack
Housing Stack Share 12
Housing Stack Space Required
Per Module
Housing Stack Cluster Required
per Module
Number of Modules 4
Housing Stacks in a Cluster 29
Open Area per Cluster
Housing Stack Cluster Required
per Ring
People Per Cluster
Total Area of Housing Stack
Cluster
Housing Stack Cluster Required
per Module
Housing Stack Space Required
Housing Stacks Required per
Ring
Total Space Required
Space left for other things
Area per Module
Land available
Land available
Space left for other things Per
Module
Space left for other things
Land available
Population Density of the service mods
Length of each Module 5
Linear Width of Colony 6
m2 per Tree
Length of each ring
Ducts running Widthwise
Ducts running lengthwise
Space between ducts
Ducts running Heightwise
Ducts running Widthwise
Ducts running lengthwise
Number of Ducts required
Height of Enclosure 7
Desired Duct Cross Section
Desired Air Speed (m/s)
Flow Rate (m3/s)
Force Created by the Fan
Desired Air Speed (km/h) 45
Energy use by the fan per day W
Energy use by the fan per day kWh
per mod
Total energy used per service
module per day
Amount of Helium 3 required per mod per day
Total energy used per Service
module Watts
Total energy used per Service mod
per year
kWh per day per service module
Energy Use Per Service Module
per day
Population of one Service Module
Energy Use Per Person per day
47
Food Generated Per Service Mod
Water Usage Per module per day
Oxygen Used Per mod
Water Usage Per Person per day
48
Water Usage Per Agricultural
module per day
kWh per day per agricultural
moduleWater USe per
day
Peanut Carbohydrate
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Land Use
Crop land needed
Crop land needed
Mass Needed
Total Land needed
Land Use
Land Use
Land Use
Land Use
Land Use
Mass Needed
Oats Carbohydrate
Total Amount required
Carbohydrate
Carbohydrates Mass Generated
Per Mod
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Consumption Age bracket 30 to
Population Density of the service mods
Total energy used per service
module per dayTotal Amount
required Carbohydrate
Soy bean Carbohydrate
Ground Beef Carbohydrate
Potato Carbohydrate
Brown Rice Carbohydrate
Peanut Carbohydrate
Flax Seed Carbohydrate
Coconut Oil Carbohydrate
Ground Chicken Carbohydrate
Mass Needed
Land Use
Mass Needed
Total Food Generated for the
Colony
Protein Mass Generated Per
mod
Fat Mass Generated Per
mod
Food Generated Per Agriculture
Mod
Number of Rings For People 2
Total Helium 3 Required for the
colony
Volume of the total habitation
space
Surface area of the Colony (capped)
Volume of the total Colony
Volume of a Ring
Volume of the total Agriculture
space
Volume of a Module
Radius of colony
Flow Rate
Flow Rate
Flow Rate (L/s)
Air changes per hour
Air changes per week 43
Flow Rate (m3/s)
Flow Rate (L/s)
Air changes per hour
Air changes per week 43
Number of Ducts required
Desired Duct Cross Section
Desired Air Speed (m/s)
Force Created by the Fan
Desired Air Speed (km/h) 45
Energy use by the fan per day W
Energy use by the fan per day kWh
per mod
Total energy used per Agricultural module per day
Amount of Helium 3 required per mod per day
Total energy used per Agricultural module Watts
Total energy used per Agricultural
mod per year
Energy Use Per Agricultural
Module per day
Amount of Helium 3 required per mod per year
Share of Energy Generated
Through Fusion
Helium 3 Fusion YeildArea of solar
panels needed per module
Total energy used per Service rings
per year
Share of Energy Generated
Through Solar
Efficiency of solar panels 50
Area of solar panels needed
per module
Desired Duct Diameter 44
Linear Velocity Required for 1g
Surface area of one module (not
capped)
Surface area due to Mirrors
Surface area of side always
pointing towards sun Total Radiation
gain from the sun
Energy output from the to the
average distance from the sun
(same distance as earth)
Total Radiation gain from the sun
in kWh
Surface area due to Mirrors
Total Radiation gain
Energy needed to be radiated out to
equalize temp
Radiation Conductivity 42
Energy lost through radiation per module per
day
Watts lost through radiation
per module
Average Temp
Temperature min (at night) 40
Surface area of one ring
Seconds Per Rotation
Rotations Per Min.
Amount of Helium 3 required per mod per year
Mass Needed
Mass Needed
Protein
Land Use
Ground Beef Protein
Total Amount required Protein
Soy bean Protein
Ground Chicken Protein
Potato Protein
Peanut Protein
Flax Seed Protein
Coconut Oil Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Live stock land needed Live stock land
needed
Land Use
Total Land needed
Increase in yeild
Levels of Land Required
Crop land needed
Ducts running Heightwise
Distance between levels
Mass Needed
Mass Needed
Mass Needed
Water USe per day
Peanut Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Ground Beef Fat
Potato Fat
Brown Rice Fat
Oats Fat
Flax Seed Fat
Coconut Oil Fat
Ground Chicken Fat
Soy bean Fat
Consumption Age bracket 80+
Age bracket 80+
Consumption Age bracket 70 to 79
Age bracket 70 to 79
Consumption Age bracket 60 to 69
Age bracket 60 to 69
Consumption Age bracket 50 to 59
Age bracket 50 to 59
Consumption Age bracket 40 to 49
Age bracket 40 to 49
Consumption Age bracket 30 to 39
Age bracket 30 to 39
Consumption Age bracket 20 to 29
Age bracket 20 to 29
Consumption Age bracket 10 to 19
Age bracket 10 to 19
Consumption Age bracket 0 to 9
Age bracket 0 to 9
Waste Per Food Eaten
Levels of Land Required
Live stock land needed
Distance between levels
kWh per litre 49
Minimum vegitation Required
Oxygen Used Per Person
Total Daily production of
Oxygen
Production per 1m2 of grass
Tree Production of oxygen per mod per day
Production of oxygen per tree
per day
Trees per mod
Total energy used per Service Mod per year Watts
Desired Duct Diameter 44
Land Used
Land for water Ponds
Land Available
Land Left for Other things
Land Left for Other things
Land for water Ponds
Land for Offices
Land for Residential
Reduction of Land available due to
infrastructure 11
Land for Residential
Land for Offices
Housing Stack Space Required
Per ModuleTotal Space
Required Per Module
Office Space Required
Total Area of Office Cluster
Office Cluster Required
Office Cluster Required per
Module
Housing Stacks in a Cluster 36
Offices Required
Open Area per Cluster
People Per Cluster
Open Area to Office footprint
37
Office Footprint M2
Office Units Per Floor 34
Average Office Size 33
People Per Office Unit 32
People per Office
Floors Per Office 35
Total Height of Office
Height Per Floor 38
Population Density Per
Cluster (people/ m2)
Office Required Per Module
Office Share 39
Office Space Required Per
Module
Width of Pond from the edge 24
Land for Offices
Land Used per Module
Land in mod available for
farming
Total Space Required
Housing Stack Space Required
Total Space Required Per
Module
Housing Stacks Required Per
Module
Housing Stack Share 13
Population Density Per
Cluster (people/ m2)
Housing Stack Footprint M2
Housing Stack Units Per Floor
27
Average Housing Stack Size M2 26
Open Area to Housing Stack footprint 30
Floors Per Housing Stack
28
People Per Housing Stack
Unit 25
Total Height of Housing Stack
Height Per Floor 31
Population Density of the
agriculture mods
Service Population
Module Division 8
Population of all Agriculture
Modules
Population of all Service Modules
Population of all Agriculture
Modules per ring
Population of all Service Modules
per ring
Overall Population
Agriculture Space Population
Division 9
Space between ducts
Housing Stacks Required
Population Per Ring
Number of Rings For Agriculture 3
Housing Stacks Required Per
Module
Housing Stack Cluster Required
People per Housing Stack
Housing Stack Share 12
Housing Stack Space Required
Per Module
Housing Stack Cluster Required
per Module
Number of Modules 4
Housing Stacks in a Cluster 29
Open Area per Cluster
Housing Stack Cluster Required
per Ring
People Per Cluster
Total Area of Housing Stack
Cluster
Housing Stack Cluster Required
per Module
Housing Stack Space Required
Housing Stacks Required per
Ring
Total Space Required
Space left for other things
Area per Module
Land available
Land available
Space left for other things Per
Module
Space left for other things
Land available
Population Density of the service mods
Length of each Module 5
Linear Width of Colony 6
m2 per Tree
Length of each ring
Ducts running Widthwise
Ducts running lengthwise
Space between ducts
Ducts running Heightwise
Ducts running Widthwise
Ducts running lengthwise
Number of Ducts required
Height of Enclosure 7
Desired Duct Cross Section
Desired Air Speed (m/s)
Flow Rate (m3/s)
Force Created by the Fan
Desired Air Speed (km/h) 45
Energy use by the fan per day W
Energy use by the fan per day kWh
per mod
Total energy used per service
module per day
Amount of Helium 3 required per mod per day
Total energy used per Service
module Watts
Total energy used per Service mod
per year
kWh per day per service module
Energy Use Per Service Module
per day
Population of one Service Module
Energy Use Per Person per day
47
Food Generated Per Service Mod
Water Usage Per module per day
Oxygen Used Per mod
Water Usage Per Person per day
48
Water Usage Per Agricultural
module per day
kWh per day per agricultural
moduleWater USe per
day
Peanut Carbohydrate
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Water USe per day
Land Use
Crop land needed
Crop land needed
Mass Needed
Total Land needed
Land Use
Land Use
Land Use
Land Use
Land Use
Mass Needed
Oats Carbohydrate
Total Amount required
Carbohydrate
Carbohydrates Mass Generated
Per Mod
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Total Amount required
Carbohydrate
Consumption Age bracket 30 to
Population Density of the service mods
Total energy used per service
module per dayTotal Amount
required Carbohydrate
Soy bean Carbohydrate
Ground Beef Carbohydrate
Potato Carbohydrate
Brown Rice Carbohydrate
Peanut Carbohydrate
Flax Seed Carbohydrate
Coconut Oil Carbohydrate
Ground Chicken Carbohydrate
Mass Needed
Land Use
Mass Needed
Total Food Generated for the
Colony
Protein Mass Generated Per
mod
Fat Mass Generated Per
mod
Food Generated Per Agriculture
Mod
Number of Rings For People 2
Total Helium 3 Required for the
colony
Volume of the total habitation
space
Surface area of the Colony (capped)
Volume of the total Colony
Volume of a Ring
Volume of the total Agriculture
space
Volume of a Module
Radius of colony
Flow Rate
Flow Rate
Flow Rate (L/s)
Air changes per hour
Air changes per week 43
Flow Rate (m3/s)
Flow Rate (L/s)
Air changes per hour
Air changes per week 43
Number of Ducts required
Desired Duct Cross Section
Desired Air Speed (m/s)
Force Created by the Fan
Desired Air Speed (km/h) 45
Energy use by the fan per day W
Energy use by the fan per day kWh
per mod
Total energy used per Agricultural module per day
Amount of Helium 3 required per mod per day
Total energy used per Agricultural module Watts
Total energy used per Agricultural
mod per year
Energy Use Per Agricultural
Module per day
Amount of Helium 3 required per mod per year
Share of Energy Generated
Through Fusion
Helium 3 Fusion YeildArea of solar
panels needed per module
Total energy used per Service rings
per year
Share of Energy Generated
Through Solar
Efficiency of solar panels 50
Area of solar panels needed
per module
Desired Duct Diameter 44
Linear Velocity Required for 1g
Surface area of one module (not
capped)
Surface area due to Mirrors
Surface area of side always
pointing towards sun Total Radiation
gain from the sun
Energy output from the to the
average distance from the sun
(same distance as earth)
Total Radiation gain from the sun
in kWh
Surface area due to Mirrors
Total Radiation gain
Energy needed to be radiated out to
equalize temp
Radiation Conductivity 42
Energy lost through radiation per module per
day
Watts lost through radiation
per module
Average Temp
Temperature min (at night) 40
Surface area of one ring
Seconds Per Rotation
Rotations Per Min.
Amount of Helium 3 required per mod per year
Mass Needed
Mass Needed
Protein
Land Use
Ground Beef Protein
Total Amount required Protein
Soy bean Protein
Ground Chicken Protein
Potato Protein
Peanut Protein
Flax Seed Protein
Coconut Oil Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Total Amount required Protein
Live stock land needed Live stock land
needed
Land Use
Total Land needed
Increase in yeild
Levels of Land Required
Crop land needed
Ducts running Heightwise
Distance between levels
Mass Needed
Mass Needed
Mass Needed
Water USe per day
Peanut Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Total Amount required Fat
Ground Beef Fat
Potato Fat
Brown Rice Fat
Oats Fat
Flax Seed Fat
Coconut Oil Fat
Ground Chicken Fat
Soy bean Fat
Consumption Age bracket 80+
Age bracket 80+
Consumption Age bracket 70 to 79
Age bracket 70 to 79
Consumption Age bracket 60 to 69
Age bracket 60 to 69
Consumption Age bracket 50 to 59
Age bracket 50 to 59
Consumption Age bracket 40 to 49
Age bracket 40 to 49
Consumption Age bracket 30 to 39
Age bracket 30 to 39
Consumption Age bracket 20 to 29
Age bracket 20 to 29
Consumption Age bracket 10 to 19
Age bracket 10 to 19
Consumption Age bracket 0 to 9
Age bracket 0 to 9
Waste Per Food Eaten
Levels of Land Required
Live stock land needed
Distance between levels
kWh per litre 49
Minimum vegitation Required
Oxygen Used Per Person
Total Daily production of
Oxygen
Production per 1m2 of grass
Tree Production of oxygen per mod per day
Production of oxygen per tree
per day
Trees per mod
Total energy used per Service Mod per year Watts
Desired Duct Diameter 44
Land Used
Land for water Ponds
Land Available
Land Left for Other things
Land Left for Other things
Land for water Ponds
Land for Offices
Land for Residential
Reduction of Land available due to
infrastructure 11
Land for Residential
Land for Offices
Housing Stack Space Required
Per ModuleTotal Space
Required Per Module
Office Space Required
Total Area of Office Cluster
Office Cluster Required
Office Cluster Required per
Module
Housing Stacks in a Cluster 36
Offices Required
Open Area per Cluster
People Per Cluster
Open Area to Office footprint
37
Office Footprint M2
Office Units Per Floor 34
Average Office Size 33
People Per Office Unit 32
People per Office
Floors Per Office 35
Total Height of Office
Height Per Floor 38
Population Density Per
Cluster (people/ m2)
Office Required Per Module
Office Share 39
Office Space Required Per
Module
Width of Pond from the edge 24
Land for Offices
Land Used per Module
Land in mod available for
farming
Total Space Required
Housing Stack Space Required
Total Space Required Per
Module
Housing Stacks Required Per
Module
Housing Stack Share 13
Population Density Per
Cluster (people/ m2)
Housing Stack Footprint M2
Housing Stack Units Per Floor
27
Average Housing Stack Size M2 26
Open Area to Housing Stack footprint 30
Floors Per Housing Stack
28
People Per Housing Stack
Unit 25
Total Height of Housing Stack
Height Per Floor 31
FULL HUMAN
MODULE INTERIOR
Coriolis e� ect 0%Population Density +167%Energy Required -55%Radiation Exposure -65%Population Di� erence per mod +8418
INTERIORMODULE
HUMANFULLCoriolis e� ect -29%Population Density -50%Energy Required +113%Radiation Exposure +117%Population Di� erence per mod 0
FULL HUMAN
MODULE INTERIOR
Coriolis e� ect -43%Population Density +120%Energy Required -19%Radiation Exposure -35%Population Di� erence per mod +4261
FULL HUMAN
MODULE INTERIOR
Iteration One
Visualization Of A Parametric Energy Model Built From Scratch in Excel
Iteration Two Iteration Three Final Design
Thes
isMa
ster o
f Arc
hitec
ture
Tensile Members act like bike spokes to support the floor of the colony. Tensile Members also support a tension Mesh. High density housing blocks are supported on the tension ring. Buildings appear to
float.
The structure of the individual units will be 3D printed out of concrete and steel. They can be customized to any degree so long as there is a central structural member going through its center of gravity. Housing modules are transported via train to the tensile building structure. Housing modules are hoisted up via a mechanical pulley to be attached to tensile ring. Multiple
modules are built one under another to form a grape vine of housing.
Earth Orbit 365 Days
Moon Orbit 27 Days
MoonLagrange Point 1
Earth
Concept art of the interior
Location Exploded Massing
Thes
isMa
ster o
f Arc
hitec
ture
Concept art of the interior
Concept art of the interiorConcept art of the interior
Mixed Use Student Residence IndividualStanding as a multi-unit student residential project featuring office space down below, this intervention strives to introduce Ryerson’s Digital Media initiatives to the rest of the university by using a bridge to connect the public areas to the private office space. The ground floor lobby features several gathering spaces that look down on to the Digital Media Zone’s new. This idea of the bridge is also taken up to the residential floors with west end of every other floor featuring an open to below section allowing for visual communication for the student residents between floors.
Given the property on Younge Street directly adjacent to the new student learning center.
Perforations were made in the ground floor to connect the offices with the lobby. This served to create dedicated congregation zones with the remaining floor space on the lobby. The vast degree of the floor space removed also visually connects the two spaces advertising for the Digital Media Zone and providing for views to the users
The program calls for one floor to be dedicated office space to the Digital Media Zone, another for the lobby and a the remaining upper floors for student residents
On the residential side, to maximize the amount of sunlight that can enter the building ‘gills’ were extruded from the side.
The office for the Digital Media Zone was dedicated to basement floor
The Younge street facade became fully glazed to allow the residents of each atrium to have a full view of the street.
Stud
ent R
eside
nce
2nd Y
ear A
rchit
ectur
e
Younge St.
Victoria St.
Gould St.
Younge St.
Victoria St.
Gould St.
Younge St.
Victoria St.
Gould St.
Younge St.
Victoria St.
Gould St.
Younge St.
Victoria St.
Gould St.
Younge St.
Victoria St.
Gould St.
Younge Street Entrance3rd Space LoungeGould Street EntranceLoadingWashroomTriple UnitDouble UnitSingle UnitMarried UnitMeeting RoomLobby Digital Media Zone
01.02.03.04.05.06.07.08.09.10.11.12.
UP
DN
UP
DN
DN
Loadingzone
First Floor Plan
First Floor
01.02.
03.
04.
05.
12.11.
UP DN
DN
UP
DN
Group Study
Third And Fifth Floor Plan
06.
07.08. 08.
09.
10.
Stud
ent R
eside
nce
2nd Y
ear A
rchit
ectur
e
First Floor
Stud
ent R
eside
nce
2nd Y
ear A
rchit
ectur
e
Soffit Detail
Media Zone Floor Plan
Perspective Section
Stud
ent R
eside
nce
2nd Y
ear A
rchit
ectur
e
Community Center 1IndividualCurrently the sounding context is sandwiched between the entertainment district to the north and a quickly developing high rise condominium area to the south. On paper the area is well served with many amenities that are included in the high rise condominiums, but these areas are tend to be exclusive and often included as an afterthought for marketing purposes. The solution, build a community center with a marvel to compete with the sounding urban context. The idea came from a desire to combine the organic aspects two parks directly adjacent with the linear and more rigid form that most of the city assumes, what results is a faceted organic form. The spacial organization was then modeled around a tree, again as tribute to the parks with each of the programs being the branches that all stem from the trunk that is the atrium.
Beginning with a large site on Wellington between two parks
Incorporate an atrium that will draw the users into a central location and have each program feed off it.
Add a hierarchy that makes each higher floor incorporating increasing activity. This allows for users to be more comfortable, grouped with people of a similar physical strength.
Bring the overall aesthetic of the tree into the building by incorporating it into the structure. Add more prominence to the atrium by allowing it to be the central circulatory corridor on 2nd floor by adding a bridge.
Derive an aesthetic based on the combination of the natural and organic with the man made and linear to arrive at a faceted organic form.
Apply the faceted form the both the exterior and interior of the building to create an intervention stands out in its environment.
WELLINGTON ST W DRAP
ER ST
FRONT ST W
23m
AT
RIU
M
GY
MN
AS
IUM
TE
NN
IS C
OU
RT
SQUASH
DA
NCE
YO
GA
BO
WLIN
G
SWIMMING
Increasing Intensity of
activity
Accesable from the atrium
SWIMMINGDANCE
SQUASHATR
IUM TEN
NIS
BASKETBALLYOG
ABOWLING
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
SWIMMING
DANCE
SQUASH TENN
IS
BASKETBALLYOGABOWLIN
G
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
23m
AT
RIU
M
GY
MN
AS
IUM
TE
NN
IS C
OU
RT
SQUASH
DA
NCE
YO
GA
BO
WLIN
G
SWIMMING
Increasing Intensity of
activity
Accesable from the atrium
SWIMMINGDANCE
SQUASHATR
IUM TEN
NIS
BASKETBALLYOG
ABOWLING
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
SWIMMING
DANCE
SQUASH TENN
IS
BASKETBALLYOGABOWLIN
G
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
23m
AT
RIU
M
GY
MN
AS
IUM
TE
NN
IS C
OU
RT
SQUASH
DA
NCE
YO
GA
BO
WLIN
G
SWIMMING
Increasing Intensity of
activity
Accesable from the atrium
SWIMMINGDANCE
SQUASHATR
IUM TEN
NIS
BASKETBALLYOG
ABOWLING
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
SWIMMING
DANCE
SQUASH TENN
IS
BASKETBALLYOGABOWLIN
G
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
23m
AT
RIU
M
GY
MN
AS
IUM
TE
NN
IS C
OU
RT
SQUASH
DA
NCE
YO
GA
BO
WLIN
G
SWIMMING
Increasing Intensity of
activity
Accesable from the atrium
SWIMMINGDANCE
SQUASHATR
IUM TEN
NIS
BASKETBALLYOG
ABOWLING
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
SWIMMING
DANCE
SQUASH TENN
IS
BASKETBALLYOGABOWLIN
G
GYMNASIUM
Comm
unity
Cente
r 13r
d Yea
r Arc
hitec
ture
WELLINGTON ST W DRAP
ER ST
FRONT ST W
23m
AT
RIU
M
GY
MN
AS
IUM
TE
NN
IS C
OU
RT
SQUASH
DA
NCE
YO
GA
BO
WLIN
G
SWIMMING
Increasing Intensity of
activity
Accesable from the atrium
SWIMMINGDANCE
SQUASHATR
IUM TEN
NIS
BASKETBALLYOG
ABOWLING
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
SWIMMING
DANCE
SQUASH TENN
IS
BASKETBALLYOGABOWLIN
G
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
23m
AT
RIU
M
GY
MN
AS
IUM
TE
NN
IS C
OU
RT
SQUASH
DA
NCE
YO
GA
BO
WLIN
G
SWIMMING
Increasing Intensity of
activity
Accesable from the atrium
SWIMMINGDANCE
SQUASHATR
IUM TEN
NIS
BASKETBALLYOG
ABOWLING
GYMNASIUM
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
WELLINGTON ST W DRAP
ER ST
FRONT ST W
SWIMMING
DANCE
SQUASH TENN
IS
BASKETBALLYOGABOWLIN
G
GYMNASIUM
Steel Truss with OWSJ Across
Custom Steel HSS
Concrete Columns
Cast in place Concrete Floor
Cast in place Concrete Walls
Concrete Columns
Retaining Wall With FootingsFirst Floor Entrance
AtriumPoolBowling AlleyLibraryRestaurantsSquashGymnasiumTennis CourtMixed UseStorageClassroomTrack CardioWorkout Area
01.02.03.04.05.06.07.08.09.10.11.12.13.14.
1 2 3 5
B
C
E
F
A
D
4
Pool
Atrium
Rest
arau
nt
Rest
arau
nt
Rest
arau
nt
Library
BowlingAlley
AdminOffice
LunchRoom
Storage
BoysChangeRoom
BowlingOffice
Storage
Life GaurdOffice
GirlsChangeRoom
01.02.
03.
10.
10.
04.
05.
Comm
unity
Cente
r 13r
d Yea
r Arc
hitec
ture
Second Floor Bridge
Comm
unity
Cente
r 13r
d Yea
r Arc
hitec
ture
Gymnasium
Classroom Storage
Mixed UseMixed Use
Classroom
Stor
age
Squash Squash Squash
Storage
Boys
WR
Girl
s W
R
TennisCourt
Storage
Mixed Use
Atrium
Open ToBelow
Open ToBelow
Open ToBelow
Open ToBelow
Open ToBelow
01.
06.
07. 08.
09. 09.09.
10.
11.11.
AtriumPoolBowling AlleyLibraryRestaurantsSquashGymnasiumTennis CourtMixed UseStorageClassroomTrack CardioWorkout Area
01.02.03.04.05.06.07.08.09.10.11.12.13.14.
Multi-Use Rooms
Pool
01.
12.
13.14.
AtriumPoolBowling AlleyLibraryRestaurantsSquashGymnasiumTennis CourtMixed UseStorageClassroomTrack CardioWorkout Area
01.02.03.04.05.06.07.08.09.10.11.12.13.14.
Comm
unity
Cente
r 13r
d Yea
r Arc
hitec
ture
Comm
unity
Cente
r 13r
d Yea
r Arc
hitec
ture
Community Center 2In collaboration with Charles Bennett.This community center is centered around the desire to connect the busyness of King Street with the quite cove of Wellington Street in tandem with creating a center to the parks to the north, east and west. This is done by reinforcing a lane-way connection between the two streets by landscaping and including all of the main entryways on the path. The building is centered around verticality ordered by increasing privacy as the user ascends using vertical wood fins in varying density to block and allow sightliness. The mass is separated into five volumes with each space forming an atrium where all the vertical circulation occurs. This also forms a chimney effect allowing for the building to naturally ventilate itself.
BUILDABLE ENVELOPE MATCH HEIGHTS EXPAND LANEWAY SERVICE ENTERANCE
PERPENDICULAR CIRCULATION LANEWAY
OPEN TO LANEWAY
PERPENDICULAR CIRCULATION PARK
SOLID STRUCTURES
CREATE VOIDS
VOID STRUCTURE
PUSH TO REVEAL ENTERANCE
MERGE STRUCTURES
Comm
unity
Cente
r 23r
d Yea
r Arc
hitec
ture
Gymnasium Court.
Entrance
DN
UP
DN
UP UP
UP
DN
DN
Second Floor Plan
07.
03.
13.
UP
UP
DN
UP
UP
UP
First Floor Plan
01.
02.
03.04.
05.
CafeGalleryLobbyGymBike StorageArt StudioClass RoomYouth RoomMixed UseWeight LiftingLibraryDance
01.02.03.04.05.06.07.08.09.10.11.12.
Comm
unity
Cente
r 23r
d Yea
r Arc
hitec
ture
Ground Floor
Lobby
DN
UP
DN
DN
UP
UP
DN
Third Floor Plan
07.08.09.
10.
DN
DN
UP
Fourth Floor Plan
11.11.12.09.CafeGalleryLobbyGymBike StorageArt StudioClass RoomYouth RoomMixed UseWeight LiftingLibraryDance
01.02.03.04.05.06.07.08.09.10.11.12.
Comm
unity
Cente
r 23r
d Yea
r Arc
hitec
ture
EXPERIENTIAL SECTION
Sectional Perspective
WATER RETENTION SYSTEM
SOLAR CHIMNEYS + STACK EFFECT
VEGETATIVE ROOF
LIGHT WELLS CONTROLED LIGHTING
NATURAL VENTALATION
Comm
unity
Cente
r 23r
d Yea
r Arc
hitec
ture
Solar Chimney Diagram
Plan Section Interior
Looking to Skyline
Lookout TowerIndividualThe design engages the site through submersion, hiding among the foliage, with its staircase shaft cloaked in 2 way mirrored glass. The resultant is a floating box, eying the Toronto skyline allowing for users to admire its beauty in a calming natural setting. This is further reinforced by its reliance on the sun for lighting, including openings in the roof to create rays of light that move with the sun. The tower accommodates the communal aspect of the island providing spaces that can be engaged in a shared manner by both able bodied and disabled users. The plan is primarily a raised open terrace with seating available including a view directed towards the city and back towards the park.
Siding Axonometric
Steel Bracket
Concealed Steel Splice
2x10 Wood Stud
Hidden Steel Angle
Wood Cant
2x10 Roof Stud
CLT Floor Slab
4x4 Wood Stud
Steel Spider Connection
Glass With 2-Way Mirror Film
CLT to Stud Spider Connection Detail
2x10 Wood Stud
Steel Bracket
CLT Floor Slab
Interior View of 2-Way Mirrored Glass
Look
out T
ower
4th Ye
ar Ar
chite
cture
Concealed Steel Plate
Wood Beam
Parasol Membrane
Parasol Canopy Structure
Parasol Wood Column
Wood Chair
Life Guard Stand
Wood Anchor System
1/2” plywood for Seating
Wood Column
Wood 2x4
Concealed Splice Bracket
Concealed Splice DetailParasol Anchor DetailParasol Attachment Detail
Exploded Axonometric`
Exterior View
Beach Chair InstallationIn collaboration with Kenan ElsässerThe design process started with the question of what we expect to see at the beach in summer and how to incorporate those familiar elements in winter.The beach chair and umbrella was determined to be the most iconic representation.The theme of humour was selected and this was done through a simple play of the scale. The result would intrigue and shock the viewer by providing a very unorthodox form that they could interact with.
Concealed Steel Plate
Wood Beam
Transparency
Child Play
Seating
Wind Mitigation
Steel Cap
Column Bracket
Wood 2x4
SectionParasol Detail Program Axonometric
Play of Scale DiagramLooking out from the Chair
Beach
Chair
Insta
llation
4th Ye
ar Ar
chite
cture
Chinese SpaBuilding designed Individually. Site designed in collaboration with Ting Ting, Mahan Navabi, Jiapei Li, and Jin Sun. A need displayed by the lack of recreational buildings, an abundance of hotels, and an up and coming community for young professionals this Spa designed in the new style aims to provide revenue for the park, create an magnet attracting people to the site and provide a series of much needed facilities.
A spa, needing an entrance, a pool, a hot tub, massage area and relaxation area
Fitting in with the wandering theme of the rest of the park, there was to be no directed experiential route by providing a central circulation space where everything could originate from the center
A form of spacial organization was loosely derived from the Chinese concept of elements. The belief is that all matter was composed of various amounts of wind, water fire and earth and when they come together they form energy.
Various forms were explored keeping in mind how this would fit in with the Hefei context. The new Hui style was researched and their additive style of building was incorporated into the design in the form of overlaps
The central circulatory area needed its own theme was to represent the energy and to set itself aside from the programing areas. A meeting space with its own contrasting geometry was employed
The building was also developed in section to highlight this area. The roofs sloped down towards the main circulation path.
This was done in tandem with the knowledge of the Hefei region, which itself is surrounded by mountains.
The resultant form needed to have an exterior that relayed the notation of the strong, towering, wall. The design sought to reflect this by minimizing the amount of windows on each facade and taking a very monolithic approach.
These overlaps allowed for new spaces with different identities to be explored. Areas that came together could now have a new theme born as a result of the combination of the two themes.
Chine
se Sp
a4th
Year
Arch
itectu
re
Entrance
Massage - Earth
Deep End PoolOfficeLounge AreaSteam BathTea Hot BathSaunaBody MassageFoot MassageMud Bath Shallow End PoolMain Entrance Pool UndersideChange RoomMechanical Room
01.02.03.04.05.06.07.08.09.10.11.12.13.14.
01.
02.
04.
03.
First Floor Plan
05.
06.
07.
08.
09.
10.
11.
Chine
se Sp
a4th
Year
Arch
itectu
re
CAP SHEETBASE SHEET13mm FIBER BOARDVAPOR RETARDER200mm CAST IN PLACE CONCRETE75mm RIGID INSULATION25mm AIR SPACE70mm PRECAST CONCRETE PANEL
CANT
13mm PLYWOOD
ALUMINUM PARAPET CAP
STEEL ANCHOR BOLT
BALLASTROOF MEMBRANE
13mm FIBER BOARD100mm RIGID INSULATION
VAPOR RETARDER13mm PLYWOOD
CAST IN PLACE CONCRETE
WOOD BLOCKING
13mm PLYWOOD
WOOD BLOCKING
Water - Pool
Tea Baths - Fire
Chine
se Sp
a4th
Year
Arch
itectu
re
METAL FLASHING
WOOD NAILER
ALUMINUM BENT PLATE
SEALANT AND DUALBACKER ROD
VAPOR RETARDER TIEDINTO WINDOW
SPRAY INSULATION CANT
100mm SALVAGED BRICK MASONRY200mm CAST IN PLACE CONCRETEVAPOR RETARDER75mm RIGID INSULATION25mm AIR SPACE70mm CONCRETE PANEL
CAP SHEETBASE SHEET13mm FIBER BOARDVAPOR RETARDER200mm CAST IN PLACE CONCRETE75mm RIGID INSULATION25mm AIR SPACE70mm PRECAST CONCRETE PANEL
CANT
13mm PLYWOOD
ALUMINUM PARAPET CAP
STEEL ANCHOR BOLT
BALLASTROOF MEMBRANE
13mm FIBER BOARD100mm RIGID INSULATION
VAPOR RETARDER13mm PLYWOOD
CAST IN PLACE CONCRETE
WOOD BLOCKING
13mm PLYWOOD
WOOD BLOCKING
100mm SALVAGED BRICK200mm CAST IN PLACE CONCRETEVAPOR RETARDER75mm RIGID INSULATION25mm AIR SPACE70mm CONCRETE PANEL
SEALANT AND DUAL BACKER ROD
STEEL DOWEL
METAL FLASHING @3PANEL O.C.
SPRAY INSULATION
STEELCOMPRESSIONFASTENERSTEELFACADEPANELFASTENER
STEEL LINTEL
SEALANT ANDDUAL BACKER
ROD
METAL FLASHING
WEEP HOLES @ 900mm O.C.
SEALANT AND BACKER ROD
Wind - Lounge
Front Elevation Side Elevation
Chine
se Sp
a4th
Year
Arch
itectu
re
Site Plan
Chine
se Sp
a4th
Year
Arch
itectu
re