JIN XING PORTFOLIO
Ball State University Master of Landscape Architecture 2017
CONTACT INFORMATION JIN XING 765-760-2620 XINGJIN315@GMAIL.COM 4040 PRESIDENTIAL BLVD, #2412, PHILADELPHIA, PA 19131 UNITED STATES
ACADEMIC WORKS 01 INDIANAPOLIS "FARM TO TABLE" PROJECT Urban Agriculture
02 ECO-VILLAGE Gilbert-McKinley Neighborhood Transformation
03 RIVERSIDE COMMUNITY Gilbert-McKinley Neighborhood Planting Design
04 JIN'S RESIDENTIAL Residential Grading Plan
05 EMERALD HILLS NATURE CENTER Site Construction Document
01 INDIANAPOLIS "FARM TO TABLE" PROJECT Urban Agriculture
Individual Work Instructor: John Motloch, Les Smith, Ann Hildner Class: Comprehensive Project LA 606 Location: Indianapolis, IN Time: 2017 Spring Introduction: With increasing urbanization of Indianapolis, agriculture has gradually disappeared in the city, especially in the downtown area. It led to several negative influences on local people and food system development, including limited fresh nutritious food availability, the loss food-healthy literacy and memory of farming, lacking awareness of signification of the local sustainable food system. To explore the possibility of urban agriculture on solving these problems stated above, this project revitalized a 2.60-acre urban underused site into a vibrate, productive, educational landscape on the northeast side of downtown Indianapolis, Indiana. The design included an intensive commercial farm, a restaurant, and a retail store, educational facilities like raised planting beds, and recreational public gathering places. It aimed to INCREASE FOOD ACCESSIBILITY, ENHANCE LOCAL SUSTAINABLE FOOD SYSTEM, and EDUCATE PEOPLE ABOUT HEALTH EATING AND URBAN AGRICULTURE LANDSCAPE in downtown Indianapolis. This project designed an urban farm also as an example to DEMONSTRATE THE POTENTIAL DEVELOPMENT OF UNDERUSED SPACES IN URBAN AREAS.
LOW PRODUCTION
83%
Almost of Indiana's land is devoted to farms & forests.
Indianapolis is faced with many FOOD INSECURE PROBLEMS, that including limited fresh nutritious food availability, the loss of food-healthy literacy and memory of farming, lacking awareness of signification of the locally sustainable food system.
FOOD INSECURITY IN MARION COUNTY
19 Million acres farm & forest
Food Desert
Poverty
2/3 of the Indiana’s land
were platen agriculture crop, fruits, and vegetables.
1,500miles
However, Indiana does not even feed itself.
5%
25% Residents with income below the poverty
There is only of Indianapolis residents could walk to a grocery store within five minutes (Walk Score).
level in 2015.
Poverty rate among children under 18 is
31.0% State Department of Agriculture reported that Indiana imports an estimated
90% of its food that travels 1500 miles or more to reach the consumers.
Food Insecure Population
18.60%
in Marion County
Estimated Program Eligibility 20% 61%
19%
20% Above Other Nutrition Program threshold of 185% poverty 19% Between 130%-185% poverty 61% Below SNAP threshold 130% poverty
POTENTIAL USERS
90.90%
Indianapolis city has population of Marion County. According to data from US Census in 2016, the potential users, residents from Indianapolis, Indiana have shown features as below.
17%
of the daytime population was commuting in Indianapolis. Commuters out 1,000,000
AGES
Un
de
5-1
7 -21
r5
18
22
30
40
50
65
-39
-49
-64
up
-29
13
GENDER
7%
19 5%
%
Females 48%
%
17
SINGLE-PARENT FAMILIES
Males 52%
500,000
1,000,000
1,500,000
Households with a woman and children but no husband
Workers commuting out
%
13
500,000
Households with a man and children but no wife
%
15
Daytime Population
Non-workers
Workers living and working in city
Workers commuting in
%
11
%
SITE SELECTION Land Uses
Educational Institutions
Art & History Communities
Indianapolis Public Schools
Indianapolis Christian School
Indianapolis Special Education
Indianapolis Public School District YMCA at the Athenaeum
Site
750’ 5min.
Site
1500’ 10min.
750’ 5min.
Site
1500’ 10min.
750’ 5min.
1500’ 10min.
Indy Bike Hub YMCA
Indianapolis Public Schools N
Public Space
Commercial
N
0.25 Miles
0
Offices
Residential
0
Day Cares
Schools
N
0.25 Miles
0
0.25 Miles
Public Space
Massachusetts Avenue Arts district
Market East District
Lockerbie Square Historic District
SITE ANALYSIS
e
1.
Av
High walkability
Sidewalk Planting Bed
Street (Street Parking)
Low walkability
ter W i nd
2.
E Vermont St.
3. E New York St.
SITE 4.
2.
Sidewalk Sidewalk Planting Bed
Street (Street Parking)
1.
High walkability
3.
N New Jersey St.
m m Su
er Br ee ze
M
tts
e us
ch
a ss
a
Sidewalk Planting Bed
Sidewalk
Street (Street Parking) Planting Bed
Low walkability N New Jersey St.
W in
Indianapolis Cultural Trail
Sidewalk Walkability
4.
Street (Street Parking)
Sidewalk
Planting Bed
Parking
SITE ANALYSIS
Average annual precipitation- rainfall is 12.47”
Sun & Shade Studies Spring Equinox
Rooftop Rainwater Collection
42.2”
11.84”
40,630sq ft
7.42”
Frost--free period:
9.06”
175-185 days in Indianapolis
Winter
5,400 sq ft
Storm Sewers
Fall
12,240 sq ft
Rooftop Rainwater Collection Storm Manholes
Spring Summer
Fall Equinox
9,600 sq ft
4,000 sq ft
Summer Solstice
Surface Runoff
1.8 M Gallons Full Shade
Water Flow
Partial Shade
Full Sun
Site Existing Problems & Opportunities
Lack of plants causes building’s hard surface are exposed to visitors
Sidewalks have bad surface pavement conditions
Entrances to the site need to be more inviting
Dumpster on the sidewalk
Cultural Trail along the east side of the site brings a big amount of visitors
North side is faced with with much negative distraction, like traffic noise
Entrance on the site needs to be more inviting
Large space for outdoor dining
Vehicular accesses on the N new Jersey Street are convenient for car users Use as a big parking lot reduces the land value in center downtown The large area of impervious pavement causes stormwater runoff issues and produces an urban island
STRATEGY
Bring together the different generations
Foster healthy eating habits
Health & Education Preserving Envrionment
Share endeavor with the local community
Create a better living environment
Creating Economic Profit
Customers We need spaces where we can buy local fresh pruduce.
Be a part of the localvore food movement
Increase local food production
We need space to know the events and culture of the city. Youths
Elders
Urban Workers
Fresh Food Growing We need places to hung out with friends and to know our food.
Agriculture & FoodHealthy Educating
Underused Land Revitalizing
We need spaces to enjoy natural beauty and to have phasical activities. We need spaces to have nutrient-rich food for lunch and to get close to nature.
Urban Agriculture Park
Creating Economic Profit
Visitors
Social Connection
Learn farming skills from elder generation
Preserving Envrionment
Social Connection
Health & Education
Get to kown the foods
Activities Selling & Delivering
Cleaning & Packaging Social Events
Benefits Health & Education Access to Health Food Relaxing and Restoring The Mind Food- healthy Literacy Physical Activities Creating Economic Profit Local Economic Stimulation Job Growth Food Affordability Underused land revitalization Social Connection Social Engagement Youth Education Food Security Safe Spaces Socially Integrated Aging Preserving Envrionment Awareness of Food Systems Ecology Stormwater Management Biodiversity Improvement Conservation
Fresh food growing
Composting
Food System education
Farm management
Cooking & Nutrition Classes
Rainwater harvesting
Restaurant & cafĂŠ Sales
Environment Education
After School Education
Health education
Small group gathering Outdoor Eating
Activities Selling & Delivering
Cleaning & Packaging Social Events
Programs Aquaponic Greenhouse Aquaponic Greenhouse Demonstration Raised Planting Beds Small Row Farm Orchards Greenhouse Manegement Office Open Lawn Stormwater Rain Garden Underground Stormwater Cistern Restaurant Community Kitchen Gathering Space Outdoor Eating Space
Fresh food growing
Composting
Food System education
Farm management
Cooking & Nutrition Classes
Rainwater harvesting
Restaurant & cafĂŠ Sales
Environment Education
After School Education
Health education
Small group gathering Outdoor Eating
SITE MASTER PLAN
E. Vermont St. 10
View D
08
10
14
01 Restaurant/ Community Kitchen 02 Outdoor Eating
11 03
04 Pop-up Lawn
08
View C
13
12
A
09
01 02
B' 04 03
04
A'
06 Raised Planting Beds 07 Gathering Space 08 Rain Garden
View B
05 B
05 Aquaponic Greenhouse
07
06
View B 03 08
10
N. New Jersey St.
Marsh (Grocery Store)
N. Alabama St.
03 Gathering Space
09 Seating Wall 10 Street Parking 11 Row Farm 12 Orchard 13 Parking 14 Aquaponic Greenhouse
E. New York St.
0
50'
100'
200'
N
STRATEGIC FRAMEWORK
CIRCULATION
Pedestrian Circulation
Retained existing access corridors connecting main entrances
Respected and maintained the existing green
Connected the site with surroundings
Sidewalk (Primary)
Made entrances to the site more inviting
Recycled natural resources
Applied the transition for public and private
Sidewalk (Secondary)
Vehicular Circulation Drop-off
Activated the edge of existing buildings
Blurred the boundaries between inside and outside
Introduced a variety of functions to improve site value
Loading Route Street Parking
FOOD PRODUCTION STRATEGY Species of vegetables chose for this design were provided by Indiana State Department of Agriculture based on the survey “ Which specialty crops do you currently purchase?� among Indiana consumers in 2015.
Orchards
Row Farm
Raised Planting Beds
1,784 sq ft Apple Trees
1,757 sq ft Vegetable & Fruit & Flower
1,757 sq ft Vegetable & Fruit & Flower
Annual Yield:
Annual Yield:
Annual Yield: 200-700 lbs produce
15 apple trees/ 600 pounds apples
525-1,750 lbs produce
Small amount of fruits and flowers
Job Opportunity: Permanent labor 1 Seasonal labor 1 Volunteer gardener 1
Job Opportunity: Permanent labor 1 Seasonal labor 1 Volunteer gardener 1
Small amount of fruits and flowers
Job Opportunity: Permanent labor 1 Seasonal labor 1 Volunteer gardener 1
Commercial Greenhouse
Demonstration Greenhouse
7,929 sq ft Aquaponic vegetable & fish Annual Yield:
1,348 sq ft Aquaponic vegetable & fish
3,300-5,500 lbs fish
209,000 heads leafy greens Kale Swiss chard Spinach Romaine Collard greens Arugula Mint
77,000 lbs vinning produce
38,500 lbs tuberous produce
Annual Yield: 600-1,000 lbs fish
38,000 heads leafy greens Kale Swiss chard Spinach Romaine Collard greens Arugula Mint
14,000 lbs vinning produce
7,000 lbs tuberous produce
* More vinning produce duing summer (grapes/cucumbers) Job Opportunity: General manager 1 Farm manager 1 Fish manager 1 Sales/ marketing 1 Labor 2
Job Opportunity: Permanent Educator Permanent labor Volunteer gardener
1 1 2
DESIGN DETAILS Site Stormwater Runoff Management Rooftop Rainwater
Rooftop Rainwater Collection
Surface Runoff
Parking Lot Surface Runoff
Pop-up Lawn
Rain Garden
Underground Cistern
Surface Runoff Management
Underground Cistern
Pop-up Lawn City Sewer System
Raingarden Raingarden
Raingarden
Underground Cistern
Food Production
Surface Types
Aquaponic Greenhouse
Water Feature
Orchard
Toilet Flushing
Row Farm
Rain Gardens Pervious Pavement Grass & Pop-up Lawn Hard Pavement
Raised Planting Beds
Sustainable Streetscape
New sidewalk and perpendicular street parking ensured that this space created a good environment for people to visit and gather and function as a part of the greater ecosystem employing technology that manages stormwater runoff. Move site boundary toward to inside
Add perpendicular street parking spaces
Use sidewalk to connect inside & outside
Add green spaces to create ecological and social value
A
A'
Park Path
Section A-A'
Streetscape
Sidewalk
Bike Lane Planting Bed
Street Parking
Designed pedestrian crossing for safety & celebtation
New park is a part of communities park system
East Entrance (Seating Wall & Parking)
View A:
Plants were used to create a comfortable space for users. Shade trees and ornamental trees were used here to provide shadow and visual enjoyment. Shrubs were used as a screen to block views of the parking lot. Perennial and annual plants could give a welcoming sense at the entrance.
Raised Planting Beds
View B:
This area was designed to function as space for producing, gardening, educating as well as socializing. The demonstration aquaponic greenhouse will have year-round fresh produce as well as fish. At the mean time, “aquaponic system demonstration tour’ will be hosted on weekends and holidays for visitors, residents, students. The vining plants pavilion on the back was designed for growing vining plants during summer time. It will be a demonstration for practicing vertical urban agriculture.
Raised Planting Beds Gardening
Picnic/ Social
Performance
Educating
Each part of a raised planting bed was designed to be multi-use, such as space for growing food and space for storing gardening tools. There were also spaces for people to sit down. Lower part could be used as performance stage or kids seats. Raised planting beds were combined into different forms to provide spaces for all kinds of user groups.
Winter View of Raised Planting Beds
Aesthetic of urban agriculture was an important consideration for this project. In this design, due to the functions of these planting beds, this area could still be used for social space to host festival events, informal meetings, and performances during winter time without growing vegetable.
Stormwater Management Demonstration Parking
View C:
This stormwater rain garden was designed to manage parking lot storm runoff. Native rain garden plants were chosen for healthy wildlife population and help prevent the spread of invasive, exotic species. A wooden boardwalk and an observation deck were designed above the rain garden. The continued sidewalk could lead people to the observation deck from parking lot and sidewalk. Overlooking from the rain garden, the boardwalk, and the observation deck could provide an excellent spot to see green infrastructure management and many types of wildlife.
North Entrance (Aquaponic Greenhouse) & Rain Garden
View D:
The see-through glass surface of the aquaponic greenhouse enables pedestrians to observe aquaponic farming from the sidewalk.
Office Building
Gathering Space & Open Lawns
B
Path Planting Bed
Path
Pop-up Lawn
Shaded Green Space
B'
Path Pop-up Lawn 10'
Office Building
0
B
B'
Path Planting Bed
Sections B-B1:
Path Shaded Green Space
Pop-up lawn functions as a contemporary detention facility.
Path
Pop-up Lawn
Pop-up Lawn 0
10'
02 ECO-VILLAGE Gilbert-McKinley Neighborhood Transformation
Individual Work Instructor: John Motloch Class: Graduate Studio LA 603 Location: Muncie, IN Time: 2015 Fall Introduction: The Gilbert-McKinley Neighborhood is located near downtown Muncie downtown. It has historically relied on the boom of Muncie’s heavy industry. However, with the degrading of local industries, this community lost the support and became at risk. Many people moved out and left large areas of vacant lots. With the unique location, this community is adjacent to a local green way, the white river, and Muncie's downtown commercial area. The project proposed an eco-village that REVITALIZES THE LOCAL ECONOMY, PROVIDES AMENITIES AND ADDS VALUE TO THE PUBLIC, ECOLOGICAL HABITAT, AND THE LOCAL ENVIRONMENT. The design focuses on creating a food, water, and energy system in the community to provide a sustainable life style for local people. By addressing the role of native plants and restoring riparian edge, the project aims to create a healthy habitat for wildlife as well.
SITE CONTEXT
Muncie, IN
Ex. Bus Route
Central High School
N Walnut St.
Ex. Railway
White River
W Jackson St.
SITE
E Jackson St.
Minnetrista Existing Dam
White River Greenway Railway
Flood Plan
Gilbert-McKinley Neighborhood
S Walnut St. White River Greenway
Energy Station
Makers' Space Makers' Space
Minnetrista Nature Area McCulloch Park Dog Park Tuhey Park
Ex. Bus Route
Co. Fairgrounds
Ex. Railway
Greenway Ex.Dam
Floodplain
High School
Pocket Park Nature Preserve
Munice Fieldhouse Ex. Energy Station
Existing Green Public Spaces
Existing Public Transportations
Existing Infrastructure
Makers Place Makers Place
Existing Floodplain
Existing Social & Educational Place
PLANNING SKETCH
NEW SYSTEMS
Proposed Vehicular Circulation
Proposed Stormwater Wetland System
CONCEPT DIAGRAM APARTMENTS ARRANGEMENT Proposed Public Transportation System
Apartments Apartments
Courtyard
Apartments White River
White River
White River
White River Apartments
Courtyard
Linear Park Trail
Being near the river, people living in apartments can enjoy the river view
Seperated to invite more natural elements
Added courtyards
Added Trail to intergrate apartments with other systems
Proposed Trail System
SITE MASTER PLAN
N Ma
04
dison
03
St.
07
08 Orchards
02 Hydropower Demonstrations
09 Solar Aquatics Systems Center
03 White River Riparian Restoration
10 Wetland
04 Apartments
11 Eco-village Farm
05 Single-family House
12 Geothermal & Wind Mill Farm
06 White River Day care
13 White River Church
07 Linear Park Trail
14 Runoff Detention Pond
te
hi
W
01 White River Dam
ve
Ri
15 Recreation Area
r
05
07
17 Woodland Restoration
03
N Walnut St.
18 White River Riparian Park View E 06 09
16
07
16 Bio Swale
10
7
15
07
View D 14
13
19 Dog Park
01 02
18
A1
19
View A 16
03
20 Food Hub B1
W
hi
B
A
te
Ri
ve
r
View C 11
300'
y wa
en
re
100'
G
0'
al
View B
08
in rd Ca
E Race St.
07
n St.
12
diso
N Ma
30
17
N E Wysor St.
03
WATER-ENERGY-FOOD NEXUS & PROPOSED PROGRAMS Precipitation
Solar Energy
Wind Mills Household Food Consumption Air Circulation
Screen Planting
Pergola
Summer Breeze
Deciduous Planting
Irrigation
Household Energy Consumption Reuse
Storage
Hydropower
Planting Bed
Geothermal
Composting Solar Aquatics Systems
Green Energy Demonstrations
Winter Wind
Black Water Infiltration
Solar Energy Food Truck Takes Food Selling to Other Communities Fresh food from Farm & Community Garden Restaurant Consumption
Restaurant & Retail Store
Weekly Farmer's Market
Food Truck
Sidewalk Runoff
Parking Lot Runoff
Infiltration Infiltration
Infiltration
SAS
Black Water
Rainwater Storage
WATER-ENERGY-FOOD NEXUS & PROPOSED PROGRAMS
Precipitation solar
For Orchard For Orchard Irrigation
Storage Pond
Aquaponic Sustainable System
Ventilation
For Vegetable
Composting
For Livestock Surface Runoff
Orchard Waste
Animal Waste
For Vegetable
For Aquaculture
Infiltration
Solar Energy Fresh food from Farm & Community Garden
Community kitchen
Reuse
Wetland Education
Urban Agriculture Education
Orchards
Composting For Orchards Rainwater Storage
Planting Bed for Kids
Planting Bed for Adults
For Vegetable
Bioswale Infiltration
Infiltration
Constructed Wet Land Infiltration
Infiltration
DESIGN DETAILS Linear Park Trail Types This design provides different types of trails for the Linear Park Trail System to meet the need of different user groups. The linear park trail system was designed for active recreation, walking, jogging, and biking, which combines the trails with a different kind of recreation. It also offers residents changing vistas, including wetland, woodland, riverside, lake views, pocket parks and other small public spaces.
Trail & Gathering Space
Linear Park Trail
Public Green Space
Trail & Waterfront
Linear Park Trail
Public Space Near Water
Trail & Kids Play Area
Kids Play Area
Linear Park Trail
Dog Park & Detention Pond
Dog Park
Section A-A1:
Linear Park Trail
Detention Pond
Rest Area
White River Riparian Restoration Strategy
Plant Type
STREET BUFFER
WHITE RIVER RIPARIAN PARK
RAILWAY BUFFER
Ornamental Fruit Tree
Madow & Shrub & Ornamental tree
Shrub & Canopy tree
B
Wildlife Value Bee & Butterfly & Bird
Section B-B1:
Bee & Butterfly & Bird & Small Mammals
WOODLAND RESTORATION
Native Canopy tree
WHITE RIVER RIPARIAN RESTORATION
Wetland Vegetation
Native Canopy tree
Native Riparian Vegetation
B1
Bird & Small Mammals & Deer
Fish & Wetland Waterfowl & Wetland Mammals
Bird & Small Mammals & Deer
Fish
Wetland Education & Recreation Fishing Kayaking
Guide Tour
View A:
The design of wetland is not only for protecting and improving water quality, providing fish and wildlife habitats, storing floodwaters and maintaining surface water flow during dry periods, it also can be used to create a place where people can get the education about wetland ecosystems and how to protect them. This design also aims to provide recreation programs for the public.
Geothermal & Windmill Farm
Green Energy Collection
View B:
Green Energy Demonstrations
This “Geothermal & Wind Mill Farm� is designed adjacent to an existing energy station for energy storage and transition. Green energy-related educational programs are provided here to educate children that use of renewable energy and energy efficiency results in significant energy security, climate change mitigation, and economic benefits.
Community Garden
Farming Skill Practicing
View C:
Local Food Education
A productive community garden that also functions as an engaging public space and local farming education center.
Recreation Area Small Amphitheater Performance Stage
View D:
Small Public Space
View E:
Small public spaces were designed along the linear park trail to benefit residents and visitors with leisure places that can be reached on foot or by bike. So they can go and have fun in this bicycle- and pedestrian-friendly environment.
Food Hub
Wetland
Bio-swale
Farm Composting
Solar Aquatics Systems
Wind Mill Farm & Geothermal Center
Job Training & Community Kitchen& Processing Community Center With Classrooms
Working Building
Research Nursery
Urban Animal & Apiary
Raised Planting Beds Garden Composting
Garden Sheds
Orchard CafĂŠ and Retail Store
Greenhouse (Aquaponic Agriculture Systems & Intense Agriculture)
Outdoor CafĂŠ
Detention Pond
Restaurant
Social Area
Welcome Plaza
Food Produce Area Commercial Area
Bus Routs & Stops Linear Park Trail Green Power Demonstration Trail Food Delivery Route
Food System Food Trucks Sell Fresh Food
Communities Can Take Fresh Foods from Community Garden Back to Home Food Trucks Sell Cooked Food
Fruit from Minnetrista
People Can Buy Meat and Fresh Food from Farm Cooked Food Is Sold to Neighborhood
People Can Process Food at Home and Sell to Neighbor and Restaurant Fruit from Orchards
Food Trucks Sell Processed Food
Community Garden
Neighborhood
Minnetrista Orchards
Food Truck
Farm Food Processing
Orchards
Restaurant
Fresh Food Processed Food Processed Food
Orchards
Fruits From Orchards Processed Food From Site & Neighborhood Fresh Food & Meat From Farm
02 RIVERSIDE COMMUNITY Gilbert-McKinley neighborhood Planting Design
Individual Work Instructor: Susan Tomizawa Class: Planting Design LA645 Location: Muncie, IN Time: 2016 Spring Goals for Design: • Use native plants to provide vital habitat for birds and many other species of native wildlife • Provide a streetscape to make drivers and pedestrians have an enjoyable experience while passing by this site • Include plantings as screening to the west to give privacy for single family houses • Buffer winter winds from northwest of the site • Provide a garden with shaded seating • Buffer negative attraction from streets to the northwest • Highlight entrances for sites and buildings • Use plantings enhance bio-diversity (Butterfly garden) • Provide white noise with a water feature • Use thresholds to connect trail and entrances • Use plantings to create different hierarchy of private to public area
Streetscape
Entrance
Screening
Bioswale Planting
Winds Buffer
Courtyard
Parking Lot
Gardens
Building Edge
ZEL-S
PLANTING DESIGN
ZEL-S
A A1 B
View A
B1
PLANTING SCHEDULE I.D. SHADE TREES GIN-A LIQ-S QUE-C ZEL-S ACE-R ORNAMENTAL TREES SRYERE-I COR-A KOE-P PRU-O CER-F MAG-S EVERGREEN TREES JUN-H JUN-P
YSU-C EVERGREEN SHRUBS TSAHXR-UMB DECIDUOUS SHRUBS AES-P ILE-R ILE-J VIB-C ITE-H PERENNIALS HOS-GE HOS-G HOS-P HEM-D HEU-M HEU-P COR-L CAR-A AST-N GRASS PEN-R GROUND COVER NEP-W LIR-M PAC-T
QUANTITY
BOTANICAL NAME
COMMON NAME
SIZE
CONDITION
12 34 1 27 37
Ginkgo biloba' Autumn Gold' Liquidambar styraciflua ‘Slender Quercus coccinea Zelkova serrata 'Green Vase' Acer rubrum 'Red Sunset'
Ginkgo Slender Silhouette Sweetgum Scarlet Oak Green Vase' Japanese Zelkova Red Maple
2.5" Cal. 2.5" Cal. 2.5" Cal. 2.5" Cal. 2.5" Cal.
B&B B&B B&B B&B B&B
6 2 8 16 5 12
Syringa reticulata 'Ivory Silk' Cornus alternifolia Koelreuteria paniculata Prunus x Incam' Okame' Cercis canadensis 'Forest Pansy' Magnolia x loebneri 'Spring Snow'
Japanese Tree Lilac Pagoda Dogwood Panicled Goldenrian Tree Okame Cherry Eastern Redbud Loebneri Magnolias
1.5' Cal. 1.5' Cal. 1.5' Cal. 1.5' Cal. 1.5' Cal. 1.5' Cal.
B&B B&B B&B B&B B&B B&B
22 14
Juniperus chinensis 'Hetzii Juniperus chinensis 'Pfitzeriana'
Chinese Juniper Chinese Juniper
2' Ht. 2' Ht.
B&B B&B
50
Taxus x media
English - Japanese Yew
3 gal.
Cont.
29 138 18 34 112
Aesculus parviflora Ilex verticillata 'Red Sprite' Ilex verticillata 'Jim Dandy' Viburnum x carlcephalum Itea virginica 'Henry's Garnet'
Bottlebrush Buckeye Winter Berry Winter Berry Fragrant Viburnum Sweetspire
3 gal. 3 gal. 3 gal. 3 gal. 3 gal.
Cont. Cont. Cont. Cont. Cont.
300 356 496 652 133 134 1960 351 313
Hosta 'Great Expectation' Hosta 'Guacamole' Hosta 'Patriot' Hemerocallis double classic Heuchera 'Marvelous' Heuchera 'Paprika' Coreopsis lanceolata Carex elata 'Aurea' Aster novae angliae
Hosta Hosta Hosta Spider lily Coral Bells Coral Bells Black-eyed Susan Sedge New England Aster
1 gal. 1 gal. 1 gal. 1 gal. 1 gal. 1 gal. 1 gal. 1 gal. 1 gal.
Cont. Cont. Cont. Cont. Cont. Cont. Cont. Cont. Cont.
15
Pennisetum alopecuroides 'Rubrum'
Purple Fountain Grass
1 gal.
Cont.
5274 5924 28520
Nepeta faassenii 'Walker's Low' Liriope muscari Pachysandra terminalis
Walker’s Low Catmin Lilyturf Japanese Spurge
1 gal. 1 gal. 1 gal.
Cont. Cont. Cont.
13
Tsuga canadensis
Eastern Helmlock
6' Ht.
B&B
DESIGN DETAILS Southwest Lawn
View A:
Butterfly Garden L
L
Low Maintenace Fragrance
Trail
Screening Section A-A1
Rest Area
Provide Shade
L
Japanese spurge
Purple fountain grass
Coral bells
Lilyturf
L
Spider lily
L
Fragrant viburnum
Chinese Juniper
L
Pagoda dogwood
Scarlet Oak
L
Sidewalk
Kids Playground
Define Spaces
Japanese Tree Lilac
Attract Butterfly
Hosta
Attract Bird
Soft Edge
Courtyard
Courtyard
Southwest Lawn
Sidewalk
South Parking
Sidewalk
Color and Texture Jan Winter Berry
Feb
Mar
Apr
Loebneri Magnolias English - Japanese Yew Red Maple Ginkgo Hosta Walker’s Low Catmint Japanese Tree Lilac Japanese Spurge Fragrant Viburnum Slender Silhouette Sweetgum Okame Cherry
May
Jun
Jul
Aug
Sep
Oct
Nov
Dec
04 JIN'S RESIDENTIAL Residential Grading Plan
Individual Work Instructor: Christopher Marlow & Peter Ellery Class: Engineering LA311 Location: Muncie, IN Time: 2015 Spring Introduction: For this design, we were asked to Prepare a site grading design solution for the given residential site according to the program criteria and client desires. The residence is a two-story contemporary house with a basement and is located in a well-established neighborhood. This design is responsible for site design, planning and Earth Volume Estimation, which includes determining and indicating the finish floor elevation of the house and garage, slope directions and gradients on uniform, paved surfaces, and in swales, using the Contour Method to estimate the proposed volumes of cut and fill for the entire site and using Grid Method to estimate the proposed volume of cut for the basement excavation.
LAYOUT PLAN
CONTOUR METHOD FOR SITE EARTH CUT AND FILL
Cut shown in Pink, Fill shown in Blue
GRID METHOD FOR BASEMENT CUT AND FILL
SOIL VOLUME Contour Method for Site Earth
Grid Method for Basement
Contour Method Contour number Area of Cut (ft²) Area of Fill (ft²) 746.00 0.00 90.65 747.00 0.00 297.77 748.00 0.00 575.20 749.00 133.00 0.00 750.00 0.00 0.00 751.00 0.00 2103.39 752.00 2651.00 0.00 753.00 7102.00 2956.00 754.00 10447.00 0.00 755.00 14242.00 3898.00 756.00 11741.00 0.00 757.00 8988.00 0.00 758.00 6471.00 0.00 759.00 3649.00 0.00 760.00 883.00 0.00
Total (ft³) Total (yd³) Shrinkage
66307.00 66307.00 2455.81 2087.44
8957.39 8957.39 331.76 281.99
Grid Method for Basement Existing Hight Proposed Hight Vertical Distance 752.80 755.30 2.50 753.90 755.30 1.40 755.10 755.30 0.20 751.80 755.30 3.50 752.70 755.30 2.60 753.80 755.30 1.50 754.95 755.30 0.35 751.95 755.30 3.35 752.65 755.30 2.65 754.80 755.30 0.50 752.70 755.30 2.60 753.70 755.30 1.60 754.75 755.30 0.55 753.05 755.30 2.25 753.20 755.30 2.10 753.90 755.30 1.40 754.05 755.30 1.25 754.65 755.30 0.65 754.95 755.30 0.35 753.65 755.30 1.65 754.40 755.30 0.90 754.60 755.30 0.70 755.00 755.30 0.30 755.65 755.30 -0.35 754.90 755.30 0.40 755.45 755.30 -0.15 755.95 755.30 -0.65 755.00 755.30 0.30 755.10 755.30 0.20
Grid Method for Basement Grid No Grid area (ft²) Volume 1.00 225.00 1800.00 2.00 225.00 776.25 3.00 135.57 1640.40 4.00 225.00 1867.50 5.00 225.00 900.00 6.00 225.00 1766.25 7.00 225.00 911.25 8.00 72.60 134.31 9.00 129.00 761.10 10.00 129.00 348.30 11.00 104.48 120.15 12.00 129.63 -122.89 Total (ft³) 2050.28 10902.62 Total (yd³) 75.94 403.80 Shrinkage 64.55 343.23
Total Volume Total caculation Total cut (yd³) Total fill (yd³)
2430.67 281.99
Conclusion: This design cut 2158.68 yd³ soil
06 EMERALD HILLS NATURE CENTER Site Construction Document
Team Work Teammate: Liz Sacks Instructor: Christopher Marlow & Meg Calkins Class: Engineering LA313 Location: Muncie, IN Time: 2016 Fall Introduction: The Nature Conservancy of Indiana has acquired approximately 11.70 acres of land on which their new interpretive center and office building will be constructed for its 30 employees and daily visitors. The project site is located atop a prominent ridge surrounded by rolling, moderately steep, topography. It is ideally situated for the ecologically sensitive celebration & study of the natural beauty of Brown County, Indiana. The design is responsible for all SITE PLANNING AND DESIGN, from concept to CONSTRUCTION DOCUMENTATION, including initial conceptual building form design. 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.
EROSION AND SEDIMENT CONTROL PLAN 4
85
3
85
2
85
1
85
9
855 30" Tilia americana Elev. 855.31
854
9
84
853
1
852
85
0
84
85
0
85
36" Fagus grandifolia Elev. 855.31
855
848 847 846 845
848 854
4
84
43
8
2
85
84
7
1
85
49
35" Liriodendron tulipifera Elev. 849.87
8
84
851
3 85
8
852
853
0
85
852
7
84
850
6
84
849
5 4
84
843
2 85
84
851
848
842
85
841
1
840
850 84
4
84
5
84
7
84
6
840.00
84
8
85
847
0
849
846
850
849
5
3 844 84 842 841
83
845
848
40" Quercus borealis Elev. 847.65
847
846
PROJECT LIMITS
844
835
843
836
835
845
834
832
833
842
845
FFE 849.00 FFE 837.00
841
831
830
844
0
84
0
84
Material Storage Area
83
83
5
7
838
Splash Blocks @ Pipe Outfalls
5
Erosion control Blankets
83
830
Straw Bale Fencing @ Active Drainage Areas Sediment Control Bag Material delivery and Staging Area
0
83
Temporary Grass Seeding
Tree Protection
0
30
60
90
0
Silt Fence @ Construction Boundaries
FEET
83
Topsoil Storage Area
Drawn by Jin Xing
LAYOUT PLAN
0
30
60
90
FEET
Drawn by Jin Xing and Liz Sacks
ROAD ALIGNMENT
1 L5
2 L5
VERTICAL ROAD ALIGNMENT Vertical Scale: Horizontal Scale:
Not to Scale (5X vertical exaggeration) Not to Scale
SECTION
Drawn by Liz Sacks
HORIZONTAL ROAD ALIGNMENT Scale: Not to Scale
PLAN
Drawn by Jin Xing 0
30
FEET
60
90
GRADING PLAN 854.46 854.56
4
85
854.21 854.31
3
85
2 5.1
% 2. 00
85
SLP:850.20
8%
1
85
BW 845.01 855 855.10
854
853
852
HP 848.50
8
3.49%
848
SLP:844.60 843
52
1 85
4
84
0
847 846 845
SHP 853.50
848.14
2.21%
853.43
9
LP 848.06 BW 847.81 TW 847.98 BW 844.31
848
853.35
84
TW 848.68 BW 848.51
9
84
85
0
85
36" Fagus grandifolia Elev. 855.31
2.00%
SHP 853.50
HP:854.90 854.87 854.78
30" Tilia americana Elev. 855.31
SHP 855.17
2.0
0%
TC 855.21 BC 854.71
2.0
0%
6"
Cu
rb
Typ
TC 854.90 BC 854.40
.
854.30
1.0
0%
853 853.48
852
2.00%
853 852.69 1.0
9
8
84
HP 843.20
7
84
35" Liriodendron tulipifera Elev. 849.87
84
LP 846.50
0%
3.0
851
3 85
84 SHP 849.25
0%
0%
854 853.93
7
LP 842.00
1% 850
1.0
3.0
854.12
LP 847.00
84
1 85 5.1
TC 855.47 BC 854.97 855
0%
0%
850
853.31
6
6
84
3.8
853.12
852
2.0
0%
1.0
849
0%
4
BW 843.75
851
2.0
843
84
848
0%
0%
2.0
842
850.62
84
BOA
4
RDW
LP
ALK
BS 839.95
BS 842.15 843.5 TS 844.65 2.00%
84
850
7
TS 848.01 2.0
849
3.0
LP:846.50
0%
85
849.29
LP:848.23 848.40
850 1.5
849
2.0
6
84
2.0 0%
%
0%
847
0
2.00
3.0
0%
848.04
848
1.7
2%
848.18 848.50
846 849.92
848.94
845
40" Quercus borealis Elev. 847.65
847
1.5
3.0
0%
0%
844
LP:847.65
847.54 846
4.2 5%
2.0 0
%
2.0
0%
HP 835.25
840.00 839.20
848 847
0% 0% 848.42 LP 848.50 2.00% 2.0 HP:848.79 0% 844.5 2.0 849.00 0% 1.5 84 849.00 0% 5.6 6 84 5 84 848.50 84 .46 TS 8 6 .25 5.3 45 .63 6 848.50 BS 1.00 84 % 3.4 9 B BS W 84 84 1.2 3 BW 3.73 TS 8 84 0.9 1.0 41.6 840 1 8 0% BS 83 8.9 0 B 836 BS W 83 9.0 83 6.4 4 0 835 837.00 83 8 6 36 83 5.5 1.0 .32 834 0% FFE 849.00 5 836 837.00 .62 FFE 837.00 83 6.5 0 83 6.5 0 SLP:832.33 83 6.3 8
3 844 84 842 841
LP 834.00
BW 847.00 TW 847.25
BW 846.16 BS 845.51
BS 840.11
5
83
8
SLP:840.20
0%
9
.99
84
6
2.9
84
849
849.70
84
84
5
1
5% 9.4
9%
839.84
835
850.43
2.5
840 SLP:839.80
85
841
840.00 SLP:840.70
2 85
5
84
843
SLP:845.50
842
2.9
4%
845
849.00
0%
845.00
LP 829.00
TW 844.25 BW 842.00
0
BW 841.00
HP 831.25
TW 843.75
BW 840.00 TW 843.85
83
83
5
7 838
BW 839.00
TW 843.95
BW 841.00 TW 841.50
0
84 TW 843.00 BW 839.50 TW 843.50 BW 839.50
843
5
830
83
0
83
30
60
90
0
0
FEET
83
84
844
%
1.00
1.0
%
831
830
841
3.40
845
833 832
Drawn by Jin Xing and Liz Sacks
DRAINAGE PLAN 4
85
3
85
DA_1
2
85
851
.01
IE IN 845
855
8
848 847 846 845
.31
IE OUT 844
30" Tilia americana Elev. 855.31
854
853
852
1
49
85
9 84
0 85
0
85
36" Fagus grandifolia Elev. 855.31
855
DA_3
848
854
4 84 3
84
2
85
84
7
1
85
9
84
852
853
DA_2
0
85
7
84
6
84
DA_4
843
850
DA_5
OUT 843.75
849 2
4
84
851
85
5
84
3
852
DA_6
DI No. 5 RIM 846.80 IE IN 843.80
DA_12
85
35" Liriodendron tulipifera Elev. 849.87
8
84
851
848
842
1 85
841 840
850 84
4
84
5
84
7
84
84
8
6
849 OUT 846.16
840.00
85
CB No. 1 RIM 848.50 IE IN 846.50
847
0
846
850 5
3 844 84 842 841
83
DA_7
849
D2 No. 2 RIM 845.46 IN 838.87
DA_9
6
84
848
845
40" Quercus borealis Elev. 847.65
847
844
835 OUT 838.80
DI No. 3 RIM 840.85 84IE 0 IN 838.81
DA_10
836
DA_11
835
834 833
845
DA_13
846
843
DA_8
83
6
845
FFE 849.00 FFE 837.00
DI No. 4 RIM 841.80 IE IN 838.00
832
DA_14 842
841
831
844
830
0
84 0
84
OUT 837.79
83
83
5
7 838
5
830
83
0
83
30
60
FEET
90
83 0
0
Drawn by Jin Xing and Liz Sacks
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED BYBY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT PRODUCED AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
DRAINAGE DETAILS
850 850 850 855 855 855
CB No. 1 RIMCB 848.50 No. 1 IE IN 846.50 RIM 848.50 CB No. 1 855 IE IN 846.50 850 RIM 848.50 CBINNo. 1 846.50 850855 IE RIM 848.50 CB No. 1 850 IE IN 846.50 RIM 848.50 850 IE IN 846.50
845 845850 845
845 840 840845
DI No. 5 RIMDI846.80 No. 5 IE IN 844.80 RIM DI No.846.80 5 IE IN 844.80 RIM 846.80 DI IN No. 5 IE 844.80 850 845 RIM 846.80 No. 5 844.80 845850 IE INDI RIM 846.80 845 IE IN 844.80
850 850 850
12" RCP 12" RCP @ 0.004 12" RCP @ 0.004 12"0.004 RCP @ 12" RCP @ 0.004
@ 0.004
DAYLIGHT IE OUT 846.16 DAYLIGHT
IE OUT 846.16 DAYLIGHT IE OUT 846.16 DAYLIGHT IE OUT 846.16 DAYLIGHT IE OUT 846.16
840
PIPE SIZING PIPE SIZING Not to Scale (5X vertical exaggeration) PIPE SIZING 1 Horizontal NotNot to Scale Vertical Scale: to Scale (5X vertical exaggeration) L8 Horizontal Scale: Not NottotoScale Scale (5X vertical exaggeration) Vertical Scale: SIZING 1 PIPE L8 Horizontal Scale: Not to Scale PIPE SIZING L8 1 Vertical Scale: Not to Scale (5X vertical exaggeration)
1 840 1 Vertical Scale: L8840
to Scale VerticalScale: Scale: Not Not to Scale L8 Horizontal Horizontal Scale: Not to Scale
(5X vertical exaggeration)
845 840 840845 840
12" RCP DAYLIGHT 12" RCP IE OUT 844.75 DAYLIGHT @ 0.002 12" RCP IE OUT 844.75 DAYLIGHT @ 0.002 12" RCP IE OUT 844.75 @ 0.002 DAYLIGHT 12" RCP IE OUT 844.75 @ 0.002 DAYLIGHT IE OUT 844.75 @ 0.002
850 850 850 850 845 845850 845 845 840 840845 840
840 835 835840 835
840 835 835840
835 835
835 835
835
D2 No. 2 RIMD2 845.46 DI No. 3 No. 2 IN 838.87 RIMDI840.85 RIM 845.46 No. 3 D2 No. 2 IE IN 838.81 IN 838.87 RIM RIM 845.46 DI No.840.85 3 IE IN 838.81 D2838.87 No. 2 IN RIM 840.85 RIM 845.46 DI IN No. 3 IE 838.81 D2 No. 2 IN 838.87 RIM 840.85 RIM 845.46 DI No. 3 IE IN 838.81 IN 838.87 RIM 840.85 8" RCP 6" RCPIE IN 838.81
DAYLIGHT 8" RCP 6" RCP @ 0.001 @ 0.002 IE OUT 838.80 DAYLIGHT 8" 6" @RCP 0.002 @ RCP 0.001 IE OUT 838.80 DAYLIGHT @ @8"0.001 RCP IE OUT 838.80 6"0.002 RCP DAYLIGHT 8" RCP @ 0.002 6" RCP@ 0.001 IE OUT 838.80 DAYLIGHT @ 0.002 @ 0.001 IE OUT 838.80
850 845 845850 845 845 840 840845 840
840 835 835840 835
835 830 830835
DI No. 4
RIMDI841.80 No. 4 IE IN 838.00 RIM DI No.841.80 4 IE IN 838.00 RIM 841.80 DI No. 4 IE IN 838.00 RIM 841.80 DI No. 4 IE IN 838.00 RIM 841.80 IE IN 838.00
12" RCP 12" RCP @ 0.003 12" RCP @ 0.003 12" RCP @ 0.003 12" RCP @ 0.003
@ 0.003
DAYLIGHT IE OUT 837.79 DAYLIGHT IE OUT 837.79 DAYLIGHT
IE OUT 837.79 DAYLIGHT IE OUT 837.79 DAYLIGHT IE OUT 837.79
830
830 830
SECTION SECTION
Drawn by Jin Xing and Liz Sacks SECTION SECTION SECTION
DETAILS
Drawn by Jin Xing
WORK FROM GRADUATE ASSISTANTSHIP 06 THE VIETNAM VETERANS MEMORIAL TABLET APP, SECTION 2 Application Design
Individual Work Supervisor: Carla Corbin & Martha Hunt Time: 2017 Spring Location: Ball State University, Muncie, IN Introduction: During 2016 to 2017, I had been working as a graduate assistant at the department of landscape architecture at Ball State University. MY responsibilities for this GA work was marketing, exhibition set-up, logistics support for department events, and research. In 2017 Spring, I was assigned helping Professor Martha Hunt and Professor Carla Corbin continues to complete an application design that they designed at 2014 for the Vietnam Veterans Memorial by creating diagrams for a section that named, Design, of the application. The Vietnam Veterans Memorial tablet app was designed by 23 students from 16 disciplines, which won 2014 ASLA student awards. The app synthesizes the history, design, and context of the Memorial with cultural history and current social practice. Compelling narratives with images, audio, text, video, and animations, are offered, with the intent of reaching the millions who visit the Memorial each year. The app’s graphic introductory screen presents the 5 major sections: the National Mall, American Culture in the Vietnam Era, the Names, Design, and Place of Connection.
My Role
Ipad Screens
My Drawings
CREATING DIAGRAMS for Section
2: Design, to demonstrate the story of the design This drawing emphasizes that even though the Vietnam Veterans Memorial was built almost 2oo year after the national mall took form, but they are uniquely linked with their surroundings.
App Content: The app’s graphic introductory screen presents the 5 major sections: the National Mall, American Culture in the Vietnam Era, the Names, Design, and Place of Connection.
THE NATIONAL MALL AMERICAN CULTURE
The McMillan Commission Plan of 1901
THE NAMES DESIGN The National Mall, history + today The Memorial and its setting Concepts of time Space and scale Practical matters: the unseen memorial PLACE OF CONNECTION
This diagram describes that the north of the lincoln’s reflection pool is a difference with the south’s formal space. The North space is a place of rest and relaxation which is framed with natural trees.
Ipad Screens
My Drawings
This diagram tells that the Vietnam Veterans Memorial wall angled at about 125 degrees, pointed toward the nearest corners of its neighbors on the Mall. In this way, each of these historical monuments is reflected in the Memorial wall opposite.
this diagram shows that where to start -- at the nearby end of the west wall.
this drawing expressed that no tree was removed and new trees were added to increase the sense of enclosure.
Ipad Screens
My Drawings Two drawing for this part addressed that the memorial is also a work of design, made of materials both elegant and practical.
PROFESSIONAL WORKS 07 SPENCER-OWEN COMMUNITY SCHOOL, SIDEWALK REPLACEMENT Site Construction Document
08 LAKE CENTER SALT STORAGE BUILDING Site Construction Document
Individual Work Supervisor: Liming Zhang & Craig Flandermeyer Firm: Schmidt Associates, Indianapolis Position: Intern Landscape Architecture Designer Time: May to August 2016 Introduction: My responsibilities at Schmidt Associates was to create site analysis, schematic design, 3D site models, and construction document drawings within Lumion, AutoCAD, and Revit for various projects.
SIDEWALK REPLACEMENT DOCUMENT
Demolition Legend
Project No. Project Date
I STERE EG N0.
D
R
Produced
LA20200126 STATE OF
IN D I A NA
Demolition Plan Notes
N
205 E. Hillside Ave. Spencer, IN 47460
N
Layout Legend Grading Legend EXISTING CONTOUR LINE
Layout Notes
PROPOSED SPOT ELEVATION
Erosion Legend
N
N
LAKE CENTER SALT STORAGE BUILDING IE 21"RCP S,N=689.42
RIM=700.72 IE 21"RCP S,N=689.42
E
HQP 19
Grading Legend
AJ 9 Project No.
PP 2
Project Date Produced
JX
I STERE EG N0.
D
R
Demolition Plan Notes G
LA20200126
E
STATE OF
IN D I A NA
AJ 12 E
HQP 24
#1929 15"RCP IE=697.95
Planting Plan
Revision
Date
LANDSCAPE PLAN 1"=20'
70 3
.64
3C
#
1.4
0.9
3.7
4
70
7
9
3.6
3.4
70
7
6 3 2.2 DAILY SWEEPING, TRUCK WHEEL 70WASH, ETC. 4 7 2.6 2.9 70 70
1 1 3.5 703.4
70
3.4 7 7 03. 70 30 3.4 7
70
70 2.9 70 9 2.9 2
.06
6
3.5
2.5
8 3.2 70
70
9 3.2
4.3
4.6
4.5 70
70
4.1
70
70
4.5
4.3
70
6
3.2
70
70
3.2
1
7 3.1
3
4.2
70
0
4.1
70
1
3.2
70
70
70
3.4
2.7
3.4
70
70
70
7
8
3.4
70
3.3
70
70
70
70 2
70
3.0
3.0
70
70
2.9
6
2.3
.8 01
9
3.3
70
8
4
70
70
1.8 70
0.7
1.5 70
70
7
2.1
70
4.5
4.1
70
3.6
3
5.0
70
0
3.0
70
70
70
Erosion Legend
3.5
70
2 70
6
1.7 70
5
1.6
70
9.4 4.1 69 70 9.2 69
MEET EXISTING GRADE
Layout Notes
1
1.9
70
8855 Wicker Ave, St John, IN 46373
8
3.5
70
.48
2 70
1
4 2.0
PROPOSED SPOT ELEVATION
2.2
3
7
70
2.3
9
.6 02
CONSTRUCTION ENTRANCE MAINTENANCE INCLUDES BUT NOT LIMITED
2.0
70
1.6 70 1.68 70
70 70
PROPOSED CONTOUR LINE
70 70 5.3 3.3
800
3.1
EXISTING CONTOUR LINE
Layout Legend
.61
1 70
0.4 70 1.7
2.6 70
GRADING LEGEND
1.7
1.4 4 70701.5 4 1.4 70
70
70
0.3
1.8
70
3
3.6
70
2
8 1.9 70
70
70
1.4
1.6
3
2
70
70
70
70
2.2
2.9
8
2
70
1.3
0
1.9
70
70
1.4
1 1.3 700. 00.2 7
70
1.4
4
70
0
70 RIM=700.72 IE 21"RCP S,N=689.42
N
OTHER WORKS Sketches
Beijing, China
Color Painting
Shandong, China
Color Painting
Zhengzhou, China
Chinese Painting
Beijing, China
Photography
Hebei, China
Thanks for your time and consideration