Chao Yang Designer Master of Landscape Architecture Ball State University
RECOGNITIONS
MY SPECIALITIES
Graduate-Ball State Univeristy 2015 INASLA Annual Merit Award Planning & Analysis Category City Canvas 2014 INASLA Annual Merit Award Design Category Copper Farm Eco-Village Stormwater Management
cyang4@bsu.edu 765.212.9956 issuu.com/totoro1990
HOBBIES
Photography
Music
Eco-balance &Net-zero
Cuisine
Bike
Undergraduate-South China Agricultural University Outstanding Student Leader (Twice) Second Prize Scholarship
DESIGN SKILLS
WORK EXPERIENCE
Computer
Internship
Adobe Photoshop Adobe Illustrator Adobe Indesign AutoCad Sketchup Rhinoceros Revit for Site V-Ray Lumion 3D ArcGIS
Knowledge
Travel
Modeling &Rendering
Sustainable Design Site Design Community Design Regional Planning Planting Design Freehand Sketch 3D Model Animation Construction Document Engineering Green Infrastructure
Schmidt Associates, Indianapolis May to August, 2015
Graduate Assistant
Department of Landscape Architecture, Ball State University From 2014 to 2016
Internship
Qingdao Greenton Architecture Design Company Summer and Winter in 2012
LANGUAGE SKILLS
CHINESE Mother language
ENGLISH Advanced level
1
2014 INASLA ANNUAL MERIT AWARD COPPER FARM ECO-VILLAGE SITE DESIGN Team Member: Chao Yang and Jue Wang Instructor: Meg Calkins and Miran Jung Day Class: First year graduate studio Location: Muncie, Indiana Project introduction: This project aims to propose an eco-balanced environmental education campus on the Cooper Skinner Field Station property in Muncie Indiana. The goal is to develop a regional Environmental Education Center for the general public and for Ball State University faculty, researchers and students. All the water, food and energy resources required for the campus are balanced and regenerated on the site. The surplus resources and energy will be exported to produce economic value. The design demonstrates to residents and visitors an eco-balanced lifestyle and cultivates the awareness of self-sustain living.
SITE ANALYSIS Construction Suitability
LOCATION
Drainage Capability
Vegetation
Water
Circulation
SYSTEM CONCEPT The design is inspired by plant cell. Our Eco-village equals to a plant cell, each inner system equals to a cell organelle. Each system is well organized, they relate with each other while work independently. The operation of the cell is an excellent manmade model for ecobalanced living. It not only exchanges information in the cell but also communicates with the outside. Through the inter-exchange and outerexchange, our site frequently and efficiently producing and growing, from a small plant cell to a mature plant.
NET-ZERO SYSTEM
PLANING SKETCH
SITE PLANNING
Plan rendering by Jue Wang
CONCEPT DIAGRAM
Traditional Building Arragment
Separate for Different Function
Rearrageing building orientation to 15 Degree to meet sun angle and wind direction
Change Building Shape to Fair Shaped Form to not Block the Summer Wind for the Building located In the Middle.
CONCEPT SKETCH
PUBLIC AREA AND COMMUNITY AREA MASTER PLAN
To satisfy the demands of on-site researching and visiting, the design proposes a public area and community area. For the public area, to show visitors a eco-balanced lifestyle, varieties of demonstration programs are developed. Like green technology public education building, green demonstration house and green infrastructure which is used to manage stormwater. For the community area, it mainly focus on creating comfortable and sustainable living environment for faculty and students.
PASSIVE BUILDING:SCHOLAR HOUSE
PASSIVE BUILDING:LABORATORY & CLASSROOM
Green Roof Summer Wind Summer Wind
Scholar Housing Units
Community Garden Solar Distillation System
Parking
NET-ZREO COMMUNITY The community area provides 12 scholar housing units for faculty and students. To Rain Garden
Rain Garden Laboratory & Classroom Building
achieve net-zero, the passive buildings are designed to maximize performance of natural energy. The lab building harvests runoff from green roof and uses solar distillation system to purify it and provide potable water.
COMMUNITY AREA DETAIL PLAN Plan rendered by Jue Wang
Community gardens, green house, orchard Green Demonstration House and Garden Combined with Aquiculture
and livestock area are settled to satisfy residents’ daily food needs.
SCHOLAR HOUSE& COMMUNITY GARDEN SOLAR ENERGY
RAINFALL
WETLAND
ROOF TOP RUN-OFF
SOLAR PANEL
SOLAR HOT WATER STSTEM
I
RAIN GARDEN
ROAD RUN-OFF
BIOSWALE
ROAD RUN-OFF BLACK WATER
STORAGE
WASTE WATER
PARKING LOT RUN-OFF
BIODIGESTOR
WETLAND
Architecture Designed and rendered by Chao Yang landscape rendered by Jue Wang
NET-ZERO CALCULATION VISUALIZATION
TOTAL:31,921,440kwh/y
130,042kwh/y 141,500kwh/y 283,000kwh/y
TOTAL: 554,542kwh/y
BIOD IGES
2 44 700
K PAR
h/y
0kw
0,00
2 COW S 2 ACR ES
2cows 44chicken 700chicken
2acres 1acres 2acres ~2acres
S
HARD ORC ES 5 ACR
WET
C:> E BL
D
SH FI
10gal/day* 40 PEOPLE unknow
146,000gal/year
SO
S
LAR
DIS
TIL
TOTAL:996,800gal/y
K
l/y ga
996,800gal/y
EE
AD
T
70gal/day*40 PEOPLE
l/y
LO
TOTAL:>9,520,000gal/y
0ga
0 NG ,00 20 9,5
9,520,000gal/y unknow
,00
KI
P:
R PA
SURFACE RUN-OFF WETLAND
P
TOTAL:996,800gal/y
OF TO
854,537gal/y 142,263gal/y
CR
RO
RO 7gal/y P: 854,53 C: 854,537al/y
ROOF TOP RUN-OFF 34100sf *40.32inch SOLAR DISTILLATION- 142,263gal/y NON-POTABLE WATER
LAN
146
TA GE ES VE CR 2A
POTABLE WATER
TOILET FLUSHING IRRIGATION
5
,2
AR
PRODUCTION
POTABLE WATER NON-POTABLE WATER
T
18
P:
y
h/
kw
00
0 0,
,69 P:11
WATER SYSTEM
CONSUMPTION
W
B UR
SOL
2acres 5acres
600gal/y *40people 32.7lbs/y *40poeple 73.6lbs/y *40people 415lbs/y 16,616lbs/y
IN
74 2 A 4 CH CR IC ES KE N
P:14 YSTEM LATION 2 C:14 ,263ga l/ 2,26 3gal/ y y
PRODUCTION COW POULTRY eggs meat FISH VEGETABLE ORCHARD
E
IN
D
FOOD SYSTEM
CONSUMPTION MILK EGG CHICKEN VEGETABLE
TOR
CONSUMPTION SCHOLAR UNITS 356kwh/d PUBLIC BUILDING 28.3kwh/sf*5000sf CAMPUS BUILDING 28.3kwh/sf*10,000sf
11,690,000kwh/y 18,250,000kwh/y 292,000kwh/y 578,160kwh/y 1,121,280kwh/y
SOL AR
0.2kwh*200,000sf 500kwh*10 public building 5000sf campus building 9900sf scholar houses 19,200sf
PAN P:3 EL C:5 1,921,4 54, 542 40kwh /y kwh /y
ENERGY SYSTEM PRODUCTION SOLAR PARK WIND TURBINE SOLAR PANEL
TOTAL:>146,000gal/y
Diagram Designed by Jue Wang
GREEN DEMONSTRATION HOUSE COMBINE WITH AQUACULTURE ENERGY SYSTEM PRODUCTION SOLAR PARK WIND TURBINE SOLAR PANEL
0.2kwh*200,000sf 500kwh*10 public building 5000sf campus building 9900sf scholar houses 19,200sf
CONSUMPTION SCHOLAR UNITS 356kwh/d PUBLIC BUILDING 28.3kwh/sf*5000sf CAMPUS BUILDING 28.3kwh/sf*10,000sf
11,690,000kwh/y 18,250,000kwh/y 292,000kwh/y 578,160kwh/y 1,121,280kwh/y
TOTAL:31,921,440kwh/y
130,042kwh/y 141,500kwh/y 283,000kwh/y
TOTAL: 554,542kwh/y
FOOD SYSTEM PRODUCTION COW POULTRY eggs meat FISH VEGETABLE ORCHARD
CONSUMPTION MILK EGG CHICKEN VEGETABLE
2 44 700 2acres 5acres
600gal/y *40people 32.7lbs/y *40poeple 73.6lbs/y *40people 415lbs/y 16,616lbs/y
2cows 44chicken 700chicken
2acres 1acres 2acres ~2acres
WATER SYSTEM PRODUCTION POTABLE WATER
ROOF TOP RUN-OFF 34100sf *40.32inch SOLAR DISTILLATION- 142,263gal/y
854,537gal/y 142,263gal/y
TOTAL:996,800gal/y
SURFACE RUN-OFF WETLAND
9,520,000gal/y unknow
TOTAL:>9,520,000gal/y
NON-POTABLE WATER
CONSUMPTION POTABLE WATER NON-POTABLE WATER
TOILET FLUSHING IRRIGATION
70gal/day*40 PEOPLE
996,800gal/y
10gal/day* 40 PEOPLE unknow
146,000gal/year
TOTAL:996,800gal/y TOTAL:>146,000gal/y
2
2015 INASLA ANNUAL MERIT AWARD CITY CANVAS REGIONAL ANAYLSIS AND PLANNING Team Member: Chenhao wang, William stratton, Chao Yang Instructor: Miran Jung Day Class: Second year graduate studio Location: Indianapolis, Indiana Project introduction: In Marion County, over 74,000 young people live in poverty. As they mature into adulthood, disadvantaged youth (between10-18) are at the highest risk. Through vacant lot reclamation and an application of urban acupuncture principles and careful network planning, City Canvas proposes vacant lot intervention, bus routes, and bike routes which offer at-risk-youth opportunities for self-expression, trade skills-training, self-teaching, networking, entrepreneurship, and community service. By empowering at-risk-youth, City Canvas effectively elevates the resilience, integrity, and versatility of Indy's future leaders.
highest risk factor
In Indianapolis, that future looks bleak. Childhood poverty in Marion County increased by 106% since 2000, and the current childhood poverty rate of 32.8 places Marion County 46% higher than the Indiana state average. Over 74,000 youth under the age of 18 are living in poverty in Indianapolis. 22%
marion county, in. pop. 6.57 mill. 232,087 youth under 18 74,000 impoverished
high youth unemployment rate
obesity
under education
malnutrition
low civic responsibility
mental illness
teen pregnancy
limited food accessibility
access to entertainment
hunger
violence
weak sense of identity
physical/sexual abuse
delinquency
blight
welfare dependence
weak sense of community
limited job skill
hungry
births per 1000 teen women
48%
15,360 food insecure
DISADVANTAGED
21
not ďŹ nish high school 7.1%
4800 abuse and neglect cases
youth (16-19) unemployment rate obese 6.5%
4,356 juvenile delinquancy cases
33%
1,200 homeless
high socio-economic status + high educational attainment + clean and safe urban environments + high social accountability + high tax base + walkability
problem child, problems, child llike a ghost in the city place doesn’t leave you place is you. dreams are nothing-my dad in a cell passing by passed out passing I dissolved bloody nose, broken streets
THE PUNKS low socio-economic status
blighted neighborhoods high stress high crime rates hunger and health problems inherited social injustice low educational attainment -
THE PRIVILEGED you can step over a line. poverty is a barbed wire fence.
+ leadership roles + active, hands on job training + service learning opportunities + several modes of self expression + self-defined experience, high accountability
. City Canvas aims to use arts and service learning-focused after-school programming to reach youth at risk and make them creative and confident citizens and leaders.
look out. ts vibrant and blasts like a laugh ’m reeling ’m finding
more likely to volunteer + safe haven + space for activity + available food + trained staff
more confident + challenging + diverse learning opportunities + arts engagement + accountability, responsibility
more cooperative less likely to repeat criminal offenses more likely to vote less likely to suffer from depression better grades
AR TIS T S
CITIZENS
looking exploring finding, me I’m you we’re everything
say it [ punk ] this is mine, this city I found me, I have (am) power. follow me
more likely to succeed in science and math more likely to graduate high school more likely to attend college less likely to be victimized improved school attendance
why arts programs
juvenile detention costs $125 per day, per youth. arts programs cost $6.40.
impoverished youth who participate in arts are...
population density ages 10 - 18 (>3%)
minorities and youth (>82.5%)
City Canvas aims to identify priority city blocks where populations of at-risk-youth are most dense and where poverty is most severe.the following maps display indicators of poverty including public income assistance, minorities, crime, single parent households, and food stamp use.
ďŹ nal target block selection
90th percentile census blocks, 2013 census
0
1
2
upper 10% (by percentage of total population) of 90th percentile youth blocks, 2013 census
single parents and youth (>42%)
high crime and youth (>379 crimes)
upper 10% (by percentage of total households) of 90th percentile youth blocks, 2013 census
upper 10% census tracts (by total reported crimes) of 90th percentile youth blocks, 2013 Crime Index
food stamps and youth (>42%)
income assistance and youth (>9%)
upper 10% (by percentage of total households) of 90th percentile youth blocks, 2013 census
upper 10% (by percentage of total households) of 90th percentile youth blocks, 2013 census
N
4 miles
indicators were layered at 70% transperency. blocks containing at least two overlapping indicators were identiďŹ ed as target blocks.
highest value I-69
I-465
I-65 ima
I-74
indianapolis civic theatre
indianapolis opera childrens’ museum I-70
indy indie artist colony
DOWNTOWN
music, dance, and artists’ studios where kids can learn to new and explore new talents.
inspiring
herron galleries
indianapolis urban theatre and dance co. art bank
learn and play
BROAD RIPPLE
most inspiring
indianapolis art center
the best contemporary art galleries, art ‘hot spots’ and some of the higest-ranked cultural features of indy.
murphy arts center
FOUNTAIN SQUARE
smaller and more personalart galleries, sometimes isolated and sometimes within cultural hubs.
I-74
0
1
2
4 miles
shopping and entertainment amenities where kids can experience popular culture and relax.
entertaining
I-65
In order to inspire youth and provide them with equitable access to cultural amenities, City Canvas planners mapped existing cultural hubs and nodes within Indianapolis. The cultural amenities were ranked based on their perceived cultural value-- after community charettes, this system could more accurately define what at-risk-youth consider valuable cultural amenities.
a night out
I-70
shopping areas with a low sense of place and little cultural value.
N
cultural amenities best art galleries
a night out
most inspiring
entertaining
bus routes
learn and play
target blocks
big roads
inspiring
culture hub
water
marion county
lowest value
highest value I-69
GEIST RESERVOIR
nature parks and community gardens
MONON TRAIL
EAGLE CREEK RESERVOIR
holliday park I-465
fort harrison state park
eagle creek park
the biggest natural parks oer access to wild landscapes and rich recreational experiences like hiking and canoeing. Community gardens provide healthy food and learning opportunities.
I-65
indy urban acres
brookside park INDY CULTURAL TRAIL white river state park
Neighborhood parks are only as valuable if they are safe and well-maintained. Many Indianapolis parks provide trails and educational programming.
Farmers markets provide healthier and fresher food choices than grocery stores, usually oering a better value.
grocer y stores
I-70
farmers markets
riverside park
Recreational facilities and community centers provide safe facilities where youth at risk can play sports and games.
neighborhood parks
washington park
recreation facilities
WHITE RIVER GREENWAY I-74
Grocery stores are an essential amenity for any resident.
garfield park WHITE RIVER
I-74 I-70
Active and healthy living is essential for a high quality of life. Youth at risk often lack access to recreational amenities because walkability within their blighted, crime-ridden neighborhoods is poor. City Canvas seeks to increase access to existing parks, trails and greenways, community centers, farms and community gardens.
I-65
0
1
2
4 miles
N
recreational amenities community centers
idnr land
marion county
parks
target blocks
bus routes
grocery stores
trails
big roads
farms and gardens
water
lowest value
Prototypes
challenges
Punk Pocket
Groove Garden
Funk Forest
Soul Patch 2
Soul Patch 1
ty i vi ct
tte Be
ca ra
mic de
com out
es
iv Show c
ic-minded behavior
Long-
term c
are er o utc om e
Pr om ot
e
he
th al
it nd co
ualification
Promote food accessibili ty
Increase
comm
unit ys
afe ty
curity inse ood te f mo Pro
En ri
ch
ion
aft er sc ho ol a
program
bq ove jo Impr
10 c
10 c
Fos ter soc ial gr
10 c
Trade skill development
Community gardens
Community Service
Art and expression
cia So
ow th
ent em ag ng e l
10 c
Pr o
Environment advocacy and eduction
10 c
Entrepreneurship
m
e ot
ls na rs o pe
l kil
lr socia elop Dev
Kee ibility espons
Increase in c
ome
pm on ey in c o m m un ity
COUNT
BROAD RIPPLE
DOWNTOWN
FOUNTAIN SQUARE
A primary goal of City Canvas is to connect existing cultural and recreational amenities to youth at risk. In order to effectively and equitably supply youth access to these urban destinations, City Canvas will propose a new free-for-youth bus route, called the Love Train. This map shows potential destinations for the Love Train and their geographic relationship to the identified target blocks.
no chance I’m empty I’m a can of paint (city canvas) Values are valuable, streets and blocks you coming?
0
1
2
4 miles
N
target connections target culture nodes
idnr land
target parks
target blocks
target culture hubs
existing trails
existing bus routes
water
proposed love train
soul patch 1 12 > acreage > .8 [within commercial area] focus on art programming. building contains studio and gallery space, cafe or coee shop. outdoor space contains a small garden and art installation area.
G
G
lawrence community S1 S2 S 2
S1
S1
P
P P P
P
S2
G P P P
G
S2 P P P
F
P P P
S2
S2
PP P P PS1G
Marion County boundary
P P
P
P
PP P
S1
25 > acreage > 5 [on or near brownďŹ eld site] focus on trade skills and craft like carpentry and metalwork. indoor and outdoor workshop space and a heavy service-learning program. mission to improve blighted conditions.
F
S1
G
S1G
soul patch 2
F
S2
funk forest acreage > 20 [within 2 miles target blocks] managed forest sites with trails and art installations. environmental education and ecological science learning areas. service learning through ecological restoration projects, river clean-ups, and outreach.
groove garden acreage > .5 [highest density urban areas] large community gardens and public event and market space. possible music venue, splashes of installation art, intense food production and urban farming training.
G
S2 F G
F
0
1
2
4 miles
N
soul patch potential existing vacant lots target blocks existing interstates
love train water
punk pocket .5 > acreage [within target blocks] small pocket gardens, art installations, or markets. intent to improve blighted conditions and provide outdoor gathering space and raise public involvement.
Bike network
Pedestrain network
Service range
Pedestrain friendly street
Bus route
10 min 5 min
S1 10 min 5 min
5 min
S2
P
P
S2
20
mi
n
G
5 min
P
F
5 min 5 min 10 min
5 min
10 min
5 min 10 min
Bus route Highway Target communities
Pocket Garden
Backyard
Walkable Street
Backyard
Community Park
5 min walking
soul patch 2
Railway
soul patch 1
Bike lane
Schools
10 min biking
funk forest groove garden
Wakable street
Context buildings
20 min biking
punk pocket
Pedstrain friendly steet spaces
Pedestrain Friendly Street
Backyard
Backyard
Studio
Studio
Community Market
Community market
Art Garden
Vistor Center
Woodland
Coffee shop Art Garden Urban Farm
Soul Patch 1
Art Garden Urban Farm
S1
Soul Patch 2
Community Market
S2
Sport Field
Gathering Space
Training Program
Punk Pocket
Gathering Space
P
Art Garden
G
Groove Garden
Bike Lane
Bus Pedestrain Lane
Pedestrain Lane
Pedestrain Lane
F
Funk Forest
Community Garden
Art Garden
Bike Lane
Trail
TraďŹƒc Lane
inspiration at the art museum
Day start
Biking
harvest the punk pocket
Ride bus meet and ride
inspiration at the art gallery inspired? build it at soul patch 2
Bus groove garden community
Walking
Walking prodece art: soul patch 1
time to relax? movies. bowling. feet up.
Biking
wind down in funk forest
Biking
hit the dance studio punk pocket concept
S1
10 c
trade skill development
10 c
outdoor cafe functions as an extension of the first floor gallery space. the cafe seating activates the street, promoting safety, civic engagement, and sociability.
entrepreneurship
community service
art and expression
community gardens
second floor studio space. artists are free to pursue personal projects; guest instructors offer skills development classes. some work is sold for the artists’ benefit; other work is donated to local businesses to improve the aesthetic value of the community. 10 c
first floor gallery and cafe. student workers sell produce and learn culinary skills from invited professionals.work from the second floor studio covers the walls and is available for purchase.
sculpture garden farmers market
flexible activities hardscape cafe
public plaza space community garden space proposed bus stop
Trade skill development Entrepreneurship
outdoor patio
S2
outdoor space functions as extended workspace for moveable tools and tables and large projects involving pre-fabrication. space is available for large trucks to move built work to urban locations where it will be installed and utilized.
10 c
Community Service Art and expression Community gardens
indoor workshop
the workshop contains numerous donated and bought tools available for interested youth participants. projects have a heavy service-learning focus. participants learn metalwork, carpentary, and other trade skills from professional instructors.
proposed bus stop reclaimed warehouse
public plaza space farmers market
flexible activities hardscape community garden space (raised bed) sculpture garden
G entrepreneurship 10 c
market space allows youth participants to sell art, food, and crafts and engage the local community.
community service service-learning opportunities allow youth to learn farming skills and pass their knowledge on to local elementary school-aged children.
trade skill development volunteer and hired instructors provide classes where youth learn farming and business skills.
community gardens the community garden effectively fills a community need for fresh and healthy food, mitigating hunger, obesity, and malnourishment among at risk young people.
art and expression all spaces in and around the garden flexibly accomodate artists. youth simply present their ideas and collectively decide how to engage urban spaces with dynamic and site specific art intervention.
3
OSPREY REFUGE PARK REGIONAL DESIGN
Individual work Instructor: Miran Jung Day Class: Second year graduate studio Location: Morgan County, Indiana Project introduction: Due to pesticides poison and human hunting, Osprey numbers crashed in the early 1950s to 1970s and become endangered species. Moreover, urbanization has destroyed a large number of natural habitat, which leads to habitat fragmentation. The design proposes an osprey refuge park to provide a health habitat for osprey to nesting and reproduce. It also proposes educational and recreational program for public. It is a place where osprey and people could share resource and have harmonious relationship.
Endangered Reason Nest in natural and artiďŹ cial structures including at the top of dead trees, hydro poles, duck blinds, microwave towers and navigation light towers.
1950s to 1970s Numbers crashed due to the use of persistent pesticides
Maximum hunting distance is about 12mile of the nest.
1972
Length: 1.5--1.7 m
DDT ban, Ospreys populations rebounded Present Human activities become main factors
Weight: 1.2--2 KG
Live near rivers, estuaries, salt marshes, lakes, reservoirs, and other large bodies of water. Prefer water surrounded by forested habitat.
Highly specialized for eating ďŹ sh about 5-16 inch in size
WATERSHED ANALYSIS
Lake Ditch
Site
Lieber State Recreation Area
Snake Creek Mill Creek Site Lieber State Recreation Area Site
Eel watershed
MillCreek Watershed
Lake Ditch Watershed Flow direction
The site is located at the edge of each hierarchy of watershed. It is in the high point of the watersheds. It is the first and second order in this drainage network. Therefore, the water in the site is the resource of higher order stream. What is more important, it does not carry contamination like other higher order stream. The water in site is clear for ospery.
ENVIRONMENTAL COMPONENT ANALYSIS
Millcreek watershed
Lake Ditch watershed
Millcreek watershed
s
ile
6M
12 Miles
Lake Ditch watershed
Site
s
ile
6M
12 Miles
Site
14%
28%
WATER
IMPAIRED WATER
FOOD RESOURCE
FOOD RESOURCE THREATEN
ENVIRONMENTAL COMPONENT ANALYSIS
s
ile
6M
12 Miles
Site
44% AGRICULTURE FERTILIZER AND PESTICIDE CONTAMINATION
s
ile
6M Site
12 Miles
WATER FLOW ANALYSIS
SOIL TYPE ANALYSIS
53%
FOREST POTENTIAL HABITAT
3.8%
FOREST FAR AWARY CONTAMINATION
Wetland construction potential
Legend Watersheds Flowline Site bround Crops
Group B/D soil Group B soil
Group B/D soil is good for wetland construction. However, the B/D soil is limited on site. So the project will employs group B soil area and add sand in it to make it suitable for wetland construction.
CURRENT CONDITION
SUITABLE HABITAT FOR OSPREY
GOALS AND OBJECTIVES
REGIONAL PLAN
Food · Improve water quality to create health aquatic
ecosystem to enhance fish population. od · Stabilize condition to ecoprevent soil prove water quality riparian to create health aquatic stem to erosion. enhance fish population abilize riparian condition prevent soiltoerosion · Restore aquatictovegetation reinforce whole store aquatic vegetation to reinforce whole food food chain for osprey. ain for osprey · Create wetland to clean water.
Secondary Entrance
Agriculture Area
Bird Watch
eate wetland to clean water
Nest est · Reduce fragmentation of existing forest and duce fragmentation of existing forest and provide provide more potential area for osprey to nest. ore potential area for osprey to nest · Setaround up buffers around protected t up buffers protected lands to intensify lands to intensify edgy condition. gy condition.
Visitor Center Flooting Wetland
Low Impact Fishing
· Establish manmade osprey tablish manmade osprey nest mixed intonest forestmixed into forest
Riparian Stabilization
ucation and Recreation aximize education opportunity Educationand andrecreation Recreation ovide educational and observation toweropportunity to · Maximizetrials education and recreation t close to osprey · Provide educational trials and observation ffer low impacted fishing such as canoe and kayak tower toget close to osprey. uild education center to provide guide tour about · Offer low impacted fishing such as canoe and prey kayak.
· Build education center to provide guide tour about osprey.
Agriculture Area
Scale 1:36,000
RIPARIAN STABILIZATION --LIVESTABILIZATION BANK BANK
LIVE LOG
LIVE MACHINE
Live log is a cylindrical structure composed of coconut husk fibers bound together with twine woven from coconut fiber.
Live machine refers to constructed wetland. By restoring Canoe fishing wetland along riparian, aquatic vegetation functions as
It can function as a breakwater along a calm shallow
a living machine to clean and buffer water runoff from
lakeshore. In addition to reducing wave energy, it can help
upstream.
contain substrate and encourage development of wetland communities.
LIVE JOINT PLANTING
LIVE CRIBWALL
Joint planting disguises riprap and may provide habitat.
A live cribwall is used to rebuild a bank in a nearly vertical setting.
The plant roots help hold soil together under the rocks.
The structure is filled with rock at the bottom and soil beginning
It involves tamping live stakes into joints or open spaces
at the ordinary high-water mark or bankfull level. Once the live
between existing rocks or when rock is being placed on the
cuttings root and become established, vegetation gradually
slope face.
takesover the structural functions of the wood members.
EDUCATION AND RECREATION The design is not only to establish a refuge park for osprey but also to create a place for people to know this species and protect them. While it promotes education opportunity about osprey protection, the design also aim to provide recreation program for public.
Kayak Fishing
Bird Wathcing Tower
Guide Tour
Guide Tour
Bank fishing
Kayak fishing
4
NOAH'S ARK EVOLO SKYSCRAPER COMPETITION
Individual work Instructor: Jody Rosenblatt-Naderi Class: Third year graduate studio Location: Future Coast Project introduction: Global warming puts thousands of coastal cities at risk of being claimed by the ocean. The extreme weather and natural disasters also pose huge threaten for human living environment. The design proposed a floating ecologic sustainable city which functions as living units that meet people’s basic living demand when people evacuate from the receding coastline.
PROBLEM INTRODUCTION Scientific research indicates global warming puts thousands of coastal cities at risk of being claimed by the ocean. Moreover, extreme weather become more and more often than historical record. Hurricane, Earthquake, Tsurrami and Tornadoes all have huge impact on our living environment. Evacuation will be more and more necessary as people choose to live on the receding coastline.
SOLUTION The design proposed a floating ecologic sustainable city which functions as living units that meet people’s basic living demand. Along the coast that is continuously receding, the floating city uses the proactive defense mechanism against impact of extreme weather event, which is able to predict extreme weather and move to safe zone in advance. During pre-impact phases of disaster, the floating city will utilize bridge to connect with mainland fortress to transport people and supplies. The proactive system will predict the disaster coming and disconnect bridge. The bridge will retract into If all ice melted, see level will rise over 200
fortress. The floating city will float to a safe area. During post impact phase, the
feet.
floating city will come back and reconnect with mainland fortress.
Image source from: National Geographic
NOAH FOR WILDLIFE Due to the flooding and extreme weather, lots of natural landscape has been significantly damaged or changed. And land is limited and so precious and people want to honor the nature.
STORMWATER SYSTEM The roof level also function as a living system to collect, detain, clean and storage the stormwater and reuse for the city.
TRANSPORTATION SYSTEM Inside rail transit transfer people through the whole system. Outside rail transit connect the system with mianland. Rail Transit transit Elevated Greenway transit
POWER SYSTEM
Transfer to uplevel
The system converts ocean current into zero carbon emission renewable electric energy. It uses the force of moving water to turn the turbine foils that powers a serious underwater generator attached to the turbines.
Transportation System
Inside rail transit transfer pe
system. Outside rail transit c mianland. Paddle wheel
Underwater Generator Propeller Power System
eople through the whole
connect the system with
5
NEW ANTHONY APARTMENT COMMUNITY DESIGN WITH PLANTING DETAILS
Individual work Instructor: Carla Corbin and Susan Tomizawa Class: First year graduate studio + Planting Design class Location: Ball State University, Muncie, Indiana Project introduction: The Ball State University plans to rebuild the Anthony apartment. In the new Anthony, to suffice different ages of people’s living style, the design proposes three building groups and different activity apace for three different user groups, which are single students, couples, and family with children. The planting design focuses on creating different sense of space and addressing the aesthetic perception of design.
SITE ANALYSIS
LOCATION
Muncie
BSU
ANTHONY DEVELOPMENT PART APARTMENT
CONCEPT Family with Children
Single
DESIGN RESPOND
Community Center
Couples
Day Care
Respond to Demand
Respond to Site
In terms of the organization and form, new Anthony adopts townhouse form with balcony and front door parking. It uses irregular building organization, which breaks from traditional straight way. Those buildings forms a loop around the community center and central plaza. Besides, to respond this loop, a drive way and pedestrian path form another two loop to connect people to different space.
Respond to Form Out-Compus Community
WB
eth
SITE PLAN
el A
ve
D.Sport Area
H. Plaza for family
C.Tree Alle B. Grass Strip
G.Psammophytes Graden
E. Central Sculpture
Three Storeys Apartment
SURVEY Target: on-campus students
F.Children's Playground
A. BBQ Area
A. BBQ Area
B. Grass Strip C.Tree Alle D.Sport Area E. Central Sculpture F.Children's Playground G.Psammophytes Graden H. Plaza for family
Sport Field
CIRCULATION
A
C A
B
B Pedestrian Vehicle
A. Pathway between apartment building and community center Stone bench and strip vegetation provide an enclosure place for students. B. Central plaza Scattering stone around the central sculpture offers students a delighting place to sit and enjoy the Sunday afternoon.
C. Tree Alle The tree alle with small garden under it can provide shade for users to enjoy during the summer time.
C
SEASONAL INTEREST
PLANTING DESIGN
SP SP
London Plane Tree
Red Oak
SU
FA
FA
FA
Red Maple
Honey Locust
Sweetbay Magnolia
FA
FA
SU
Saucer Magnolia
Flowering Dogwood
Black Pine
SP
SP
WI
Norway Spruce
Plumbago
Rhododendron
WI
SU
SP
Korean Boxwood
Chinese Juniper
Japanese Spruge
WI
WI
SP
Liriope Muscari
Stonecrop
American Beakgrass
FU
SP
SP
Ginkgo
FA WI
PLANTING SCHEDULE
6
VISITOR CENTER FOR NATURE CONSERVANCY OF INDIANA SITE CONSTRUCTION DOCUMENT Individual work Instructor: Christopher Marlow and Peter Ellery Class: Engineering class Location: Indiana Project introduction: The Nature Conservancy of Indiana has acquired approximately 11.70 acres of land on which their new visitor center and office building will be constructed for its 30 employees and daily visitors. The design is responsible for all site planning and design, from concept to construction documentation, including initial conceptual building foot print design. The design site a two floor building and surrounding context which refers to circulation, parking, grading, drainage, and stormwater management. The overarching goal of the site design is to demonstrate exemplary and functional sustainable development practices so that visitors can learn from the site and building design.
SITE LAYOUT PLAN
25
ST A.
0
55
°E 50
'
0
52
PC
00
.93
CURB
CURVE #1 (C1) DATA I=38° T=33.595' R=97.5083' L=64.7067' C=63.5233' D=58.7599' 39" Carya ovata Elev. 849.75
TA. 2 +04.1 5
SIDEWALK CURB
RAIN GARDEN
PT S
PC STA. 1+63.6533
op St s
CURB
3 50
Bu
No Curb
3 25
CB#2 Rim 752.58
CURVE #2 (C2) DATA I=18° T=20.4083' R=132.3867' L=40.4975' C=41.2317' D=43.2791'
3 00
48" Quercus alba Elev. 851.35
°E
233'
SIDEWALK
CB#1 Rim 752.52
S 76
158.5
2 75
2 50
C2
2 25
44.0125'
2 00
1 75
N 87° E
1 50
1 25
1 00
0 7 5
C1
PT STA. 1+19.6408
0+ 54 .93 42
0
S 54
PROJECT LIMITS
RAIN GARDEN CURB
RETAINING WALL
CURB
NO CURB
NO CURB
40" Quercus rubra Elev. 847.45
CURB
SIDEWALK
CURB NO CURB PARKING
PARKING
B1 RETAINING WALL
43" Quercus velutina Elev. 845.70
BICYCLE PARKING SHELTER
RETAINING WALL
NO CURB
A1
PROJECT LIMITS
Curb
RETAINING WALL
RAIN GARDEN
SIDEWALK
RETAINING WALL
PROJECT LIMITS
VISITOR CENTER BUILDING
FIRST FLOOR PLAZA
RAMP
B
A
RETAINING WALL
BEGINNING OF REED HOLLOW WILDLIFE CORRIDOR (2 MI. LENGTH)
0 PROJECT LIMITS
25
50
100
150
FEET
EROSION CONTROL PLAN
SF
Layout Legend
PROJECT LIMITS
SF
CONS
SF
TRUC
TION
LIMIT
LINE
SF
INLET 845.30
39" Carya ovata Elev. 849.75
SF
SF
850 SF
SF
SF
OUTLET 844.60
845
SF
48" Quercus alba Elev. 851.35
CB#1 Rim 752.52
SF
CB#2 Rim 752.58
ST-1 RIM 845.8 INV=844.34
OUTLET =844.2
840
SF
Topsoil stockpile area
40" Quercus rubra Elev. 847.45
SF
835
SF
850
43" Quercus velutina Elev. 845.70
PROJECT LIMITS
SF
ST-2 RIM 843.9 INV 843.1
5
INE TR U
CT ION
CONSTRUCT
LIM
IT L
OUTLET =841.84
0
NS
84 0
84
CO
845 PROJECT LIMITS
SF
ION LIMIT
LINE
84
83
5
SF
5
83
830 SF
SF
0
83
SF
SF
SF
0
SF
SF
PROJECT LIMITS
25
50
100
150
FEET
2015/12/12
Layout Legend
2 of 9
158.5
233'
3 50
Erosion Control Plan
°E
3 25
Muncie Visitor Center
S 76
3 00
CURVE #2 (C2) DATA I=18° T=20.4083' R=132.3867' L=40.4975' C=41.2317' D=43.2791'
2 75
40
2 50
10 20
C2
2 25
0
2 00
44.0125'
N PLAN SCALE 1"=60'
1 75
N 87° E
1 50
1 25
1 00
0 7 5
C1
04.15
50
'
TA. 2 +
0
52
PT S
0+ 54 °E
CURVE #1 (C1) DATA I=38° T=33.595' R=97.5083' L=64.7067' C=63.5233' D=58.7599'
PC STA. 1+63.6533
25 .93
ST A.
55
0 54
PC
00
S
PT STA. 1+19.6408
.93
42
Sheet NO.
Name
Totoro studio
0
200 N Mann Ave Muncie,Indiana
Date
SF
Project location
Totoro
ROAD ALIGNMENT
L=40.4975'(HORIZ.CURVE#1) PC STA. 1+63.6533 PT STA. 2+04.15
L=64.7067' (HORIZ.CURVE#1) PC STA. 0+54.9342 PT STA. 1+19.6408 855 +2.22% 850
-4.47% +1.36%
PLAN VERTICAL SCALE 1"=12' (5X VERTICAL EXAGGERATION) HORIZONTAL SCALE 1"=60'
3+50 849.37
3+25 849.01
3+00 848.69
2+75 848.36
2+50 848.01
EVC 2+25 847.68
2+00 847.53 LP 2+01.6724 847.52
PVI 1+75 847.72
1+50 848.30
BVC 1+25 849.23
1+00 850.35
0+75 851.47
0+50 852.58
0+25 853.70
BOS 0+00 854.26 BOP 0+16 853.95
Christopher Marlow Peter Ellery
Instructor
Course
LA311
845
GRADING PLAN
PROJECT LIMITS
SHP 853.3
INLET 845.30 TW 847.60 BW 847.50
4.47%
39" Carya ovata Elev. 849.75
SHP 853.3
1%
SHP 849.3
850 TW 847.80 BW 847.70
P 847.86
1.36%
OUTLET 844.60
48" Quercus alba Elev. 851.35
CB#1 Rim 752.52
1%
TC 848.45 P 847.95
1%
TC 850.02 P849.52 849.40
845
SHP 849.3
1%
TC 848.12 P 847.62
849.28
TC 848.36 P 847.86
846.2
1%
ST-1 RIM 845.8 INV=844.34
1%
OUTLET =844.2
LP 845.5
1%
CB#2 Rim 752.58
1%
848.34
1%
TC 848.65 P 848.15
2.5%
LP 844.5
1% LP 841.5
847.65
TC 848.43 P 847.93
1% 2.5%
TC 848.39 P 847.89
TC 847.88 P 847.38
847.37
TC 848.00 BC 846.75
846.58
TC 848.39 P 847.89
840
TC 847.32 P 846.82
844.2
1%
1%
40" Quercus rubra Elev. 847.45
1%
2.5%
1%
1% 845.4
845.58
TC 847.00 BC 845.55
2.5%
TC 846.16 P 845.64 TC 845.66 P 845.16
LP 844.6
845.35
844.56
844.76
1%
846.8
2%
2%
TC 846.18 P 845.68
850
TC 846.38 P 845.88
845.24
845.16
2%
TC 843.89 P 843.39
TC 846.55 P 846.05
2% 1%
2%
847.2
845.16
ST-2 845.64 RIM 843.9 INV 843.1
TC 846.57 P 846.07
846.95
842.55
2%
845.24
845.77
TW 842.37 BW 839.37 TW 839.19 BW 836.19
2%
835.7
845
844.76
A1
847.2
43" Quercus velutina Elev. 845.70
845.24
845.64
1%
4.5%
TW 840.65 BW 837.65 TW 837.35 BW 835.35
844.76
TC 846.48 P 845.98 844.76
840.92
843.4
2%
845.16 844.76
845.92 1%
TC 843.65 P 843.15
LP 832.5
846.8
B1 1%
840.68
TC 845.30 P 844.80
TC 846.14 P 845.64
5
84
TC 846.30 P 845.80
TC 846.75 P 846.25
OUTLET =841.84
847.7
PROJECT LIMITS
PROJECT LIMITS
1%
835
845.16
844.76
LP 840.5
FFE= 847.7 847.2 835.7
846.76
847.2
84
0
3% 834.6
P 846.82 847.2 B 842.50
83
5
2%
BASEMENT E= 836.2
B
LP 828.5
847.2 847.04
844.42 839.82
TW844.42 BW841.42
844.42 844.32 2%
844.42 844.32
839.58 TW842.82 BW839.82
839.82 841.92
A
831.5
0
84
846.82
836.2
835.7 835.5
830
TW842.82 BW839.82
836.82 836.92 836.82 836.92
5
83
841.92
841.82 8%
841.82
839.32 839.42
839.32
839.42
0
83
0 PROJECT LIMITS
25
50
100
150
FEET
DRAINAGE PLAN
PROJECT LIMITS
D1 INLET 845.30
39" Carya ovata Elev. 849.75
850
D4 845
OUTLET 844.60
48" Quercus alba Elev. 851.35
CB#1 Rim 752.52
D2
CB#2 Rim 752.58
ST-1 RIM 845.8 INV=844.34
OUTLET =844.2
D3 840
40" Quercus rubra Elev. 847.45
D8 835
D5 D7
D6
ST-2 RIM 843.9 INV 843.1
PROJECT LIMITS
850
43" Quercus velutina Elev. 845.70
D10
5
84
PROJECT LIMITS
845
D9
OUTLET =841.84
0
83
5
84 0
84
5
83
830
0
83
0 PROJECT LIMITS
25
50
100
150
FEET
NATIONAL METHOD
C(undev) D1 D2 D3 D4 D5 D6 D7 D8 D9 D10
0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3 0.3
0.7 0.362
Basin1: D1,D2,D3,D5,D6 Basin2: D4,D7,D8,D9,D10
PIPE PROFILE
C(dev) 0.3 0.435 0.462 0.3 0.3 0.505 0.743 0.55
0.3
tcUndev (Min) 33.5 33.5 33.5 36 33.5 33.5 36 36 36 36 On site Total discharge Q1(total)=10.08 Q2(total)=6.44
A,Aac
Paved(Area)
paved%
0.60 0.48 0.77 0.24 2.5 0.22 0.62 0.26
0.00 0.13 0.28 0 0 0.09 0.55 0.13
0.00 0.270833333 0.363636364 0 0 0.409090909 0.887096774 0.5
0.31 0.21
0.248 0.024
0.8 0.114285714
SITE SECTION
7
STORMWATER DEMONSTRATION PERGOLA CONSTRUCTION DETAIL
Team Member: Chenhao wang, Chao Yang Instructor: Meg Calkins and David Ferguson Class: Engineering class Location: Ball State University, Muncie, Indiana Project introduction: This project explores conceptual design, design development and construction detailing for a stormwater demonstration pergola. It is in the quad outside the Architecture Building of Ball State University. This multifunctional structure is a place for human occupation and movement, a sculptural landscape element, and a structure to collect stormwater for demonstration.
7'
1 3
FOOTING 1 TYP.
1 5
STORMWATER PLANTING TANK
7'
C
C
"I" BEAM CONNECTION 2 42 "I" BEAM CURVE CONNECTION
B
2 3
FOOTING 2 A
A
9'
9'
9'
2 4
"I" BEAM CONNECTION 2
5 4
WOOD AND "I" BEAM CONNECTION
"I" BEAM CONNECTION 1 TYP. GLASS FRAMEWORK DETAIL
18'
18'
2
1
3
2
3
CANOPY PLAN 1"=1'
PLAN 1"=1'
"I" BEAM
R=4'
CUSTOMED "I" BEAM BOLT, TYP "I" BEAM
9'
1
GUTTER DETAIL
7'
7'
B
1 4 4 4 3 4
FOOTING
9'
1
9'
2
ELEVATION 1"=1'
3
8" X 8" CUSTOM "I" STEEL ALUMINUM STRUCTURE 3/4" x 2.8" ANCHER, TYP. CUSTOMIZED GUTTER GUTTER TRACKER GUTTER OUTLET
8" X 8" CUSTOM "I" STEEL 3/4" x 2.8" ANCHER, TYP. 2" X 6" CEDAR WOOD " L" STEEL FISHFLATE STEEL FLAT 8" x 8" BEAM STEEL
8" x 8" BEAM STEEL WELDED TO STEEL PLATE TO CONCRETE FOOTING 3/4" x 8" ANCHOR, TYP.
1
5 2
2" 2"
1'-8" x 1'-8" STEEL PLATE BRICK PAVEMENT
GUTTER DETAIL 2"=1' 8" X 8" CUSTOM "I" STEEL 8" X 8" CUSTOM "I" STEEL 3/4" x 2.8" ANCHER, TYP.
1'
TO CONCRETE FOOTING 3/4" x 8" ANCHOR, TYP.
3'-0"
8" x 8" "I" BEAM STEEL
" L" STEEL FISHFLATE STEEL FLAT 8" x 8" BEAM STEEL
1'-8" x 1'-8" STEEL PLATE CONCRETE FOOTING
CONCRETE FOOTING
1 2
FOOTING 1 TYP. 1/4"=1'
3 2
70% COMPACTED SOIL
FOOTING SECTION 1"=3' 6 2
"I" BEAM CONNECTION 2 2"=1' 8" X 8" CUSTOM "I" STEEL 8" X 8" CUSTOM "I" STEEL 3/4" x 2.8" ANCHER, TYP. " L" STEEL FISHFLATE STEEL FLAT 8" x 8" BEAM STEEL
8" x 8" BEAM STEEL WELDED TO STEEL PLATE TO CONCRETE FOOTING, TYP.
7 2
"I" BEAM CONNECTION 1 TYP. 2"=1'
8" X 8" CUSTOM "I" STEEL 3/4" x 2.8" ANCHER, TYP. 2" X 6" CEDAR WOOD
1'
2"
1'-8" x 1'-8" STEEL PLATE BRICK PAVEMENT
" L" STEEL FISHFLATE STEEL FLAT 8" x 8" BEAM STEEL
6'
CONCRETE FOOTING 8 2
70% COMPACTED SOIL
WOOD AND "I" BEAM CONNECTION 2"=1' 5" x 5" STEEL TUBE ALUMINUM STRUCTURE
4"
4"
RUBBER SPACER TO CONCRETE FOOTING, TYP.
RUBBER SPACER
JOINT COMPOUND AT "I" BEAM/ PLATE INTERSACTION 8" x 8" "I" BEAM STEEL
TO STEEL TUBE 0.3" x 1.4" ANCHOR,TYP.
1'-8" x 1'-8" STEEL PLATE
WELDED TO "I" BEAM STEEL
CONCRETE FOOTING
8" x 8" "I" BEAM STEEL
1'-4.00"
2 2
FOOTING 2 1/4"=1'
4 2
FOOTING SECTION 1"=3'
GLASS 0.3" x 8" BOLT ALUMINUM STRIP RUBBER SPACER
9 2
GLASS FRAMEWORK DETAIL 2"=1'
2" x 2" ALUMINUM TUBE
TO CONCRETE FOOTING 3/4" x 8" ANCHOR, TYP. 1'-8" x 1'-8" STEEL PLATE CONCRETE FOOTING
3'
3'-6.00"
3 3
FOOTING SECTION 2"=1'
3/4" x 7" ANCHER, TYP.
2" X 6" CEDAR WOOD
2" X 6" CEDAR WOOD
3/4" x 7" ANCHER, TYP.
3/4" x 7" ANCHER, TYP.
STEEL PLATE SANDWICH WOOD
2'
4" x 10" STEEL PLATE, TYP.
3
3 5
BRICK PAVEMENT
1'
2'-0.90"
2"
2" 2"
2'
2 CONCRETE FOOTING 3
CONCRETE FOOTING 70% COMPACTED SOIL
1 3
STORMWATER STRUCTURE SECTION 1"=3'
2 3
STORMWATER STRUCTURE FOOTING DETAIL 1"=3'
8
THE LANDSCAPE IN MY EYES PHOTOGRAPHY AND HAND SKETCHING
TRAVEL
DAWN
DUSK
JUMP
FOG
TIME
LANDFORM
SPRING
BLOSSOM
THANK YOU