Eric Lyons Landscape Architecture Portfolio
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european place design // cologne, germany 01
participatory design // state college, pa 03
planting design // penn state west campus 05
student service learning // tanzania, africa 07 ecosystem study // baltimore, md 09
eco-tourism exploration // sullivan county, pa 11
community design // state college, pa 13 regional planning // spring creek watershed, pa 15 stormwater conveyance // state college, pa 17 technical drawings 19 render variations // penn state campus 21 model exploration // penn state campus 22 internship studies // beechbrook LA 23 photography 25 contact 27
01
european place design // cologne, germanyWith the redevelopment of the Cologne Green Belt in the process of masterplanning, this site design focuses on the adjacent corridor to the Grossmarkt Hall, a historical wholesale market for the city. The importance of a versatile and attractive space for this area is vital to the success of the green belt restoration. As the Grossmarkt Hall‘s program changes, the landscape surrounding must also reflect the development in the new city quarter. The design focuses on the historical aspects of the Grossmarkt floor plan and past rail line axes while incorporating new program to draw visitors from not only the new quarter, but the entire city. The creation of a new parcel of land dedicated to community gardens will provide much needed green activity for future inhabitants. Connecting the community garden aspect to the main plaza of the Grossmarkt Hall will be a farmers market occuring during the week, providing fresh, local foods as well as a lunchtime market for the community. When the Grossmarkt houses large crowds, the plaza acts as an overflow space as well as a formal entrance from Bonner Strasse. The goal of the design is to continue the greenbelt to the River Rhine and to act as a social, cultural, and economic hub for the city of Cologne.
With the redevelopment of the Cologne Green Belt in the process of masterplanning, this site design focuses on the adjacent corridor to the Grossmarkt Hall, a historical wholesale market for the city. The importance of a versatile and attractive space for this area is vital to the success of the green belt restoration. As the Grossmarkt Hall‘s program changes, the landscape surrounding must also re ect the development in the new city quarter. The design focuses on the historical aspects of the Grossmarkt oor plan and past rail line axes while incorporating new program to draw visitors from not only the new quarter, but the entire city.
The creation of a new parcel of land dedicated to community gardens will provide much needed green activity for future inhabitants. Connecting the community garden aspect to the main plaza of the Grossmarkt Hall will be a farmers market occuring during the week, providing fresh, local foods as well as a lunchtime market for the community. When the Grossmarkt houses large crowds, the plaza acts as an over ow space as well as a formal entrance from Bonner Strasse. The goal of the design is to continue the greenbelt to the River Rhine and to act as a social, cultural, and economic hub for the city of Cologne.
Site Plan 1:1000
Akademie für Internationale Bildung (AIB)The Pennsylvania State University (PSU)Fall 2014 LARCH 499B URBAN DESIGN STUDIO
Dipl.-Ing. Thomas Knüvener Diol.-Ing. Johannes Böttger
Movement Between Buildings: GrossmarktProjectsite: Eric LyonsStudent:
Concept Statement
Program Circulation
Green Belt Connections
Treed Plaza
Community Gardens
Vehicle, Train, Tram
Bicycle
Pedestrian
02
03
participatory design // state college, paFor this design, the project worked with a 3rd grade class at Park Forest Elementary School to develop an outdoor classroom. Through design charettes, the design developed from ideas from students and teachers. The final package was a “how to” packet with construction and installation instructions as well as student involvement and cost estimate.
04
05
planting design // penn state west campus
In-Grate Light Fixture
24” x 48” Tree Grate (2 sides)
Tree Grate Frame
4” PVC Irrigation/Aeration Pipe
Brick Pavers
See Detail 2: 4 L3 Geotextile Fabric
Earth Subgrade
CityGreen StrataCell
Sandy loam Backfill
20” x 20” x 10”3 course deep
1” Sand Base
Rootball See Note 8; L1
Eastern Redbud
LegendPlant Communities
Volumetric Space
Human Activities
Treed Plaza
Volumetric Intesity
1 Meadow
2 Mixed Bed
3 Tree Canopy
4 Buildings
Planted Meadow
Soft Landscape
Mixed Bed
Secondary Entrance
Primary Path
Secondary Path
Primary Entrance
Quiet Seating
Gathering Node
Eric LyonsJanuary 29, 2013
LArch 332Overall Planting ConceptConcept Statement
The concept of the overall design is to engage visitors in a variety of plant communities. Through various planting styles,
Looking into depth of 3 layers of the design system, an overlay schematic was created. Each of the 3 systems, when put together, creates the backbone to the design of the site. Plant communities, spatial sequence and human activities make up the basis behind the overall planting concept.
sequential order. As designed, the tree plaza will be a place of rest with many benches for seating and a canopy of trees. Vignette 1 (Tree Plaza) depicts a view through the tree canopy towards the entrance to the EES Building. The meadow will consist of a multi-tude of plants creating a mesmerizing scene of colors and scents. In Vignette 2, the path through the meadow is shown with the treed plaza in the background. Vignette 3 shows the small gather-ing space within the meadow with a small glimpse of the mixed bed in the background. The mixed bed will create an intimate space for visitors to sit down and enjoy many native plant species. Other general soft landscape areas will connect the space to the buildings as well as provide physical screening from the parking lot and strong winds. These plant communities create the volumetric spatial sequence. The idea in the planting communities is to create a layered system that allows for a variation of enclosures. The build-ings create the dominant mass within the courtyard, towering over the meadow, mixed bed, treed plaza, and other soft land-scape. The treed plaza and soft landscapes break up the sudden drop from building to ground plane to allow for a much softer edge to the building. The mixed bed creates a volumetric enclo-sure at intimate scale for those interested in a human scale space. Finally, the lowest amount of volume is created in the central meadow. Tall grasses create the enclosure, but the view to the surroundings is virtually unobstructed to the averaged size person. As for circulation and human activities in the space, there are a few major pathways as displayed. Seating along the walls around the edge of the meadow allow for quiet viewing overtop of the space. A major gathering area occurs in the treed plaza as can be seen in Vignette 1. A smaller, more intimate space within the meadow (vignette 3) also acts as a gathering/learning area within the space. The entry points to the space occur at the corners or edges of the site with the main travel moving diagonal-ly across the center of the site.
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Phlox subulataCreeping Phlox
Iberis sempervirensAlexander's White
Epimedium acuminatumBarrenwort
Galium odoratumSweet Woodru�
Corydalis �exuosaBlue Fumeroot
Heuchera sanguinea
Dicentra eximiaWild Bleeding-heart
Coral Bells
Ceratostigma plumbaginoidesPlumbago
Potentilla tridentataWineleaf Cinquefoil
Begonia sinensisChineese Begonia
Hosta tardi�oraWavy Hosta
Gentiana clausaClosed Gentian
Patrinia gibbosaYellow Patrinia
Fritillaria imperialisCrown Imperial
Arisaema heterophyllumDancing Crane Jack
Nepeta govanianaYellow Catmint
Hosta elataTall Hosta
Gypsophila paniculataBabys Breath
Knautia arvensisCommon Knautia
Asclepias tuberosaButter�y Weed
Helenium autumnaleCommon Sneezwood
Lespedeza bicolorBicolor Bush Clover
Anemone hupehensisChinese Anemone
Lagerstroemia indicaCrape Myrtle
Syringa reticulataJapanese Tree Lilac
Chionanthus virginicusFringe Tree
Prunus cerasifera
Ground Cover Spring Bloom
Purpleleaf Plum
Ground Cover Summer Bloom
Ground Cover Fall Bloom
Medium Perennials Spring Bloom
Medium Perennials Summer Bloom
Medium Perennials Fall Bloom
Ornamental Trees
the mixed bed
Planting Information
Design Statement North View Entrance Path
West View of Detail Planting Structure
Volumetric Schematic
Illustrative Sketch PlanThe concept of this mixed bed is to create a planting design that �ows in and out of the building along a meandering path. The pattern of waves allows the planting bed to evoke movement along the sidewalk. A diverse array of �owering perennials and ornamental trees will create a wave as the blooming seasons evolve. As one plant nears the end of a bloom, the next �ower begins, mimicking a wave throughout the bed from spring to winter. The heights of the plants were also selected to create a physical wave in the form.
The image to the right displays the volume of the mixed planting bed is denoted in this simple diagram. The black represents the positive wave of volume through the space and the white represents the void of structure. The forms the wave like arrangement that creates a rhythm as a pedestrian moves along the path. Along with this the gray-scale mimics a wave of di�erent blooming seasons that will only enhance the idea of movement through the mixed bed.
Eric LyonsLARCH 332
1/6/13
0 1 2 4 6 feet
1/4” = 1’
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Turf Grass
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Phlox subulataCreeping Phlox
Iberis sempervirensAlexander's White
Epimedium acuminatumBarrenwort
Galium odoratumSweet Woodru�
Corydalis �exuosaBlue Fumeroot
Heuchera sanguinea
Dicentra eximiaWild Bleeding-heart
Coral Bells
Ceratostigma plumbaginoidesPlumbago
Potentilla tridentataWineleaf Cinquefoil
Begonia sinensisChineese Begonia
Hosta tardi�oraWavy Hosta
Gentiana clausaClosed Gentian
Patrinia gibbosaYellow Patrinia
Fritillaria imperialisCrown Imperial
Arisaema heterophyllumDancing Crane Jack
Nepeta govanianaYellow Catmint
Hosta elataTall Hosta
Gypsophila paniculataBabys Breath
Knautia arvensisCommon Knautia
Asclepias tuberosaButter�y Weed
Helenium autumnaleCommon Sneezwood
Lespedeza bicolorBicolor Bush Clover
Anemone hupehensisChinese Anemone
Lagerstroemia indicaCrape Myrtle
Syringa reticulataJapanese Tree Lilac
Chionanthus virginicusFringe Tree
Prunus cerasifera
Ground Cover Spring Bloom
Purpleleaf Plum
Ground Cover Summer Bloom
Ground Cover Fall Bloom
Medium Perennials Spring Bloom
Medium Perennials Summer Bloom
Medium Perennials Fall Bloom
Ornamental Trees
the mixed bed
Planting Information
Design Statement North View Entrance Path
West View of Detail Planting Structure
Volumetric Schematic
Illustrative Sketch PlanThe concept of this mixed bed is to create a planting design that �ows in and out of the building along a meandering path. The pattern of waves allows the planting bed to evoke movement along the sidewalk. A diverse array of �owering perennials and ornamental trees will create a wave as the blooming seasons evolve. As one plant nears the end of a bloom, the next �ower begins, mimicking a wave throughout the bed from spring to winter. The heights of the plants were also selected to create a physical wave in the form.
The image to the right displays the volume of the mixed planting bed is denoted in this simple diagram. The black represents the positive wave of volume through the space and the white represents the void of structure. The forms the wave like arrangement that creates a rhythm as a pedestrian moves along the path. Along with this the gray-scale mimics a wave of di�erent blooming seasons that will only enhance the idea of movement through the mixed bed.
Eric LyonsLARCH 332
1/6/13
0 1 2 4 6 feet
1/4” = 1’
1.
4.
2.
3.
7.
10.
14.
16.
17.
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11.
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9.
12.
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Turf Grass
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2.
3.
6.
9.
12.
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18.
19.
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23.
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27.
26.
25.
Phlox subulataCreeping Phlox
Iberis sempervirensAlexander's White
Epimedium acuminatumBarrenwort
Galium odoratumSweet Woodru�
Corydalis �exuosaBlue Fumeroot
Heuchera sanguinea
Dicentra eximiaWild Bleeding-heart
Coral Bells
Ceratostigma plumbaginoidesPlumbago
Potentilla tridentataWineleaf Cinquefoil
Begonia sinensisChineese Begonia
Hosta tardi�oraWavy Hosta
Gentiana clausaClosed Gentian
Patrinia gibbosaYellow Patrinia
Fritillaria imperialisCrown Imperial
Arisaema heterophyllumDancing Crane Jack
Nepeta govanianaYellow Catmint
Hosta elataTall Hosta
Gypsophila paniculataBabys Breath
Knautia arvensisCommon Knautia
Asclepias tuberosaButter�y Weed
Helenium autumnaleCommon Sneezwood
Lespedeza bicolorBicolor Bush Clover
Anemone hupehensisChinese Anemone
Lagerstroemia indicaCrape Myrtle
Syringa reticulataJapanese Tree Lilac
Chionanthus virginicusFringe Tree
Prunus cerasifera
Ground Cover Spring Bloom
Purpleleaf Plum
Ground Cover Summer Bloom
Ground Cover Fall Bloom
Medium Perennials Spring Bloom
Medium Perennials Summer Bloom
Medium Perennials Fall Bloom
Ornamental Trees
the mixed bed
Planting Information
Design Statement North View Entrance Path
West View of Detail Planting Structure
Volumetric Schematic
Illustrative Sketch PlanThe concept of this mixed bed is to create a planting design that �ows in and out of the building along a meandering path. The pattern of waves allows the planting bed to evoke movement along the sidewalk. A diverse array of �owering perennials and ornamental trees will create a wave as the blooming seasons evolve. As one plant nears the end of a bloom, the next �ower begins, mimicking a wave throughout the bed from spring to winter. The heights of the plants were also selected to create a physical wave in the form.
The image to the right displays the volume of the mixed planting bed is denoted in this simple diagram. The black represents the positive wave of volume through the space and the white represents the void of structure. The forms the wave like arrangement that creates a rhythm as a pedestrian moves along the path. Along with this the gray-scale mimics a wave of di�erent blooming seasons that will only enhance the idea of movement through the mixed bed.
Eric LyonsLARCH 332
1/6/13
0 1 2 4 6 feet
1/4” = 1’
1.
4.
2.
3.
7.
10.
14.
16.
17.
13.
11.
8.
5.
6.
9.
12.
15.
18.
19.
20.
21.
22.
23.
23.
24.
27.
26.
25.
Turf Grass
1.
4.
7.
10.
14.
16.
17.
13.
11.
8.
5.
2.
3.
6.
9.
12.
15.
18.
19.
20.
21.
22.
23.
24.
27.
26.
25.
Phlox subulataCreeping Phlox
Iberis sempervirensAlexander's White
Epimedium acuminatumBarrenwort
Galium odoratumSweet Woodru�
Corydalis �exuosaBlue Fumeroot
Heuchera sanguinea
Dicentra eximiaWild Bleeding-heart
Coral Bells
Ceratostigma plumbaginoidesPlumbago
Potentilla tridentataWineleaf Cinquefoil
Begonia sinensisChineese Begonia
Hosta tardi�oraWavy Hosta
Gentiana clausaClosed Gentian
Patrinia gibbosaYellow Patrinia
Fritillaria imperialisCrown Imperial
Arisaema heterophyllumDancing Crane Jack
Nepeta govanianaYellow Catmint
Hosta elataTall Hosta
Gypsophila paniculataBabys Breath
Knautia arvensisCommon Knautia
Asclepias tuberosaButter�y Weed
Helenium autumnaleCommon Sneezwood
Lespedeza bicolorBicolor Bush Clover
Anemone hupehensisChinese Anemone
Lagerstroemia indicaCrape Myrtle
Syringa reticulataJapanese Tree Lilac
Chionanthus virginicusFringe Tree
Prunus cerasifera
Ground Cover Spring Bloom
Purpleleaf Plum
Ground Cover Summer Bloom
Ground Cover Fall Bloom
Medium Perennials Spring Bloom
Medium Perennials Summer Bloom
Medium Perennials Fall Bloom
Ornamental Trees
the mixed bed
Planting Information
Design Statement North View Entrance Path
West View of Detail Planting Structure
Volumetric Schematic
Illustrative Sketch PlanThe concept of this mixed bed is to create a planting design that �ows in and out of the building along a meandering path. The pattern of waves allows the planting bed to evoke movement along the sidewalk. A diverse array of �owering perennials and ornamental trees will create a wave as the blooming seasons evolve. As one plant nears the end of a bloom, the next �ower begins, mimicking a wave throughout the bed from spring to winter. The heights of the plants were also selected to create a physical wave in the form.
The image to the right displays the volume of the mixed planting bed is denoted in this simple diagram. The black represents the positive wave of volume through the space and the white represents the void of structure. The forms the wave like arrangement that creates a rhythm as a pedestrian moves along the path. Along with this the gray-scale mimics a wave of di�erent blooming seasons that will only enhance the idea of movement through the mixed bed.
Eric LyonsLARCH 332
1/6/13
06
07
student service learning // tanzania, africa
¯ 0 0.1 0.2 0.3Kilometers
LegendVillage Boundary
Kisawasawa Focus Plot
Available Land
Food Production
House
Other
Railroad
Primary Road
Secondary Road
Tertiary Road
StreamProjection: Cylindrical_Equal_AreaData Set: LArch 499F
0 150 300 450km
Tanzania
Serengeti
Ruaha
Mkomazi
Katavi
Mikumi
Udzungwa Mountains
Kilimanjaro
Tarangire
0 30 60 90km
0 3.5 7 10.5km
¯
Mikumi
Udzungwa Mts.
Kilombero Valley Villages
Kisawasawa Ward
Kisawasawa Village Selection
Kilombero ValleyUMNP
¯ ¯
Year Population HouseOther
StructuresPaths
Shamba (Ha)
Shamba Size
Available Land
Fuelwood Reserve
(Ha)
Fuelwood Reserve
Remaining2013 3256 2.6% 2.4% 25.2% 0.5 0.3% 41.6% 47.5 100.0%2023 5668 4.5% 4.2% 25.2% 0.8 0.5% 17.7% 82.7 100.0%2028 7478 5.9% 5.5% 25.2% 1.1 0.6% -1.3% 109.1 98.0%2033 9867 7.8% 7.3% 25.2% 1.5 0.9% -3.9% 100.3 93.8%2043 17176 13.6% 12.7% 25.2% 2.5 1.5% -15.7% 80.1 74.9%2053 29901 23.7% 22.1% 25.2% 4.4 2.6% -36.3% 45.0 42.1%
Green = Available Land, Orange = Decreasing Fuelwood Reserve, Red = No Land Available*Population growth at 5.7% annually
Land Coverage Aquaponics and ROW Regulations
Year Population HouseOther
StructuresPaths
Shamba (Ha)
Shamba Size
Available Land
Fuelwood Reserve Created
(Ha)
Fuelwood Reserve
Remaining
2013 3256 2.6% 2.4% 4.0% 48.0 28.1% 62.9% 0 0%2023 5668 4.5% 4.2% 4.0% 83.5 49.0% 38.3% 0 0%2033 9867 7.8% 7.3% 4.0% 145.3 85.2% -4.4% 0 0%
Land Coverage Of Current Growth Pattern and Shamba
Green = Available Land, Orange = Decreasing Fuelwood Reserve, Red = No Land Available*Population growth at 5.7% annually
Year Population HouseOther
StructuresPaths
Shamba (Ha)
Shamba Size
Available Land
Fuelwood Reserve Created
(Ha)
Fuelwood Reserve
Remaining
2013 3256 2.6% 2.4% 25.2% 22.1 12.9% 41.6% 25.9 100.0%2023 5668 4.5% 4.2% 25.2% 38.4 22.5% 17.1% 45.1 100.0%2028 7478 5.9% 5.5% 25.2% 50.7 29.7% -1.3% 59.5 96.3%2033 9867 7.8% 7.3% 25.2% 66.9 39.2% -20.4% 36.2 60.8%2039 13760 11% 10.2% 25.2% 93.3 54.7% -34.6% -1.8 -3.0%
Land Coverage Drip Irrigation and ROW Regulations
*Population growth at 5.7% annuallyGreen = Available Land, Orange = Decreasing Fuelwood Reserve, Red = No Land Available
This project was done during a study abroad trip in Tanzania. As a pair, we looked at food production and food security in the village of Kisawasawa. Modeling current population trends and sizes of croplands we made educated predictions of when the village would be out of productive land. With this, we looked at alternative methods of food production that increased efficiency and modeled that development with the current population growth. This project informs the village leaders of the implications in the future in regards to population growth and food security.
08
Drip Irrigation System Aquaponics2013
2033 2039 2053
Current Shamba - Business as usual
09
ecosystem study // baltimore, mdThis masterplan concept was proposed for a redevelopment of the Middle Branch in Baltimore. The project worked with collaborators from the Baltimore Ecosystem Study (BES). The focus of this design was to improve overall bay water health through restoration of oyster reefs. Oysters area native to this area. They are filter feeders and can filter 50 gallons of water a day. A restored oyster reef would decrease organic matter in the water and boost dissolved oxygen levels, leading to a healthy ecosystem. The project included a video presentation as well as a physical model, all presented to the collaborators at the end of the semester.
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eco-tourism exploration // sullivan county, pa
!
!
!
!
!
DUSHOre
Mildred
Eagles MereLaporte
Forksville
£¤220
£¤220
¬«154
¬«154
¬«487
¬«487¬«87
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Legend! Towns
State Roads
State Lands
Value6
7
8
9
10
11
12
13
14
15 0 2 4 61Miles¯
a r c e l l u s D e s i g n ME c o - T o u r i s m E x p l o r a t i o n B y : L y o n s / / M a y e r
“ T r a v e l m a k e s o n e m o d e s t . Y o u s e e w h a t a t i n y p l a c e y o u o c u p y i n t h e w o r l d ” - G u s t a v e F l a u b e r t
T h e S u l l i v a n C o u n t y D e s i g n C h a r e t t eT h e P e n n s y l v a n i a S t a t e U n i v e r s i t y
L a n d s c a p e A r c h i t e c t u r e 2 0 1 3
G a s D e v e l o p m e n t
S u i t a b i l i t y A n a l y s i s M a p- 3 billion dollar industry in Sullivan County- 375 million dollars in lifetime royalties of current permitted wells
- Unemployment rate: 7.7%C u r r e n t J o b S t a t s ( S u l l C o )
- 26,000 jobs in tourism industry- 2.1 billion dollar industry- 24 million visitors per year
Restaurant
A m e n i t i e s i n t h e P o c o n o s
T o u r i s m i n t h e P o c o n o s
Hiking
Tennis
Pool
Spa
Bike
Volleyball
Basketball
Playground
Welcome
CenterArchery
20
0
10
Through analysis of Sullivan County, myself and another partner looked at alternative economic growth outside of the natural gas industry that is dominating this region. Our idea was to put the natural beauty of the endless mountains on display through an eco-tourism destination. I compiled a GIS site suitability analysis to determine the best location within the county to place such a site. We then developed programs based on occurrence of resorts in the Poconos. From this, we created a master plan and renderings of what some of the activities might look like, all while analyzing food, energy, and water sustainability. Following completion of the project, we presented our idea at a town meeting in Sullivan County with good response from the community members.
12
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community design // state college, paThis design was to take an existing strip mall where many of the storefronts had vacancies. Taking the amount of sure footage of utilized by the current visitors, and re-designing the space to develop high density housing. This team design was to have a focus on a sustainable, livable, walkable community for families and students to coexist within one space. Pedestrian pathways created access ways to surrounding bus stops and other foot traffic destinations. By re-zoning the site, we were able to restrict certain types of development in specific areas.
14Main EntranceTypical Street Design
Typical Street DesignStreetscape
15
regional planning // spring creek watershed, pa
This regional planning compiled multiple layers of GIS mapping data to complete a suitability analysis of stormwater management practices. Each of the categories was rated at a 1-3 scale of concern to identify the most prioritized areas. After a full analysis of the watershed, specific areas were selected to focus a phased design approach to combat the stormwater issues.
16
Curb Cuts
Curb Cuts
Riparian Buffers Riparian Buffers
Green Roof Cover
17
stormwater conveyance // state college, pa
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1107
1108
1109
1104
1103
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110611071108
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1111
1112
1112
1113
1113
1111
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1109 1108 11
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1106
1105
1104
1103
1102
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20.0% Max Slope
20.0% Max Slope
4.83
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2.38% Slope
2.38% Slope
2.38
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2.38
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HPS 1111.29
1111
1111
1109
1109
1113
1108
LPS 1108.50
LPS 1110.20
HPS 1112.70
1109
1109
2.00% Slope
1112
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1112
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1112.18
1112
.30
1112
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BS 1111.20
BS 1111.25
TS 1112.20
TS 1112.25
1109
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1110.18
1110.12
1109
.74
1111.41
1111.35
1111.47
1111.42
1111.14
1112
.42
1112
.40
TS 1112.44
TS 1112.50
1111.15
1111.10
1111.19
1.18% Slope
1111 11
11.2
011
11.1
0
1113.221113.12
1112
1112
1113.73 1.82% Slope
1111
1111
1.00
% S
lope
Entry
Drop Off
1.67% Slope
6.00% Slope
5.85
% S
lope
2.49% Slope
3.47% Slope
32.2
% S
lope
BS 1102.50
BS 1102.50
LPS 1111.80
2.00% Slope
1109
8" T
renc
h Dr
ain
1111
1.00% Slope
1110
.06
1109
1111.12
1104
1103
BS 1
107.
50
BS 1
107.
50TS
110
7.45
TS 1
107.
45
1104
1106
1107
BS 1
118.
00BS
111
8.00
TS 1
112.
00
TS 1
112.
00
TC 1113.73BC 1113.23
TC 1112.43BC 1111.93
TC 1112.35BC 1111.85
TC 1112.15BC 1111.65
TC 1112.58BC 1112.08
TC 1112.35BC 1111.85
TC 1112.43BC 1111.93 TC 1112.15
BC 1111.65
TC 1112.58BC 1112.08
TC 1112.88BC 1111.38
TC 1111.89BC 1111.39 TC 1112.08
BC 1111.58
TC 1110.25BC 1109.75
TC 1110.45BC 1109.95
TC 1110.43BC 1109.93
TC 1110.17BC 1109.67
TC 1109.48BC 1109.48
TC 1109.89BC 1109.39
TC 1110.43BC 1109.93TC 1110.45
BC 1109.95 TC 1110.25BC 1109.75
TC 1112.08BC 1111.58
TC 1110.17BC 1109.67
TC 1112.88BC 1111.38
TC 1109.48BC 1109.48
TC 1111.89BC 1111.39
TC 1109.89BC 1109.39
TC 1109.74BC 1109.24
TC 1109.74BC 1109.24
TC 1109.14BC 1108.64
TC 1109.14BC 1108.64
TC 1109.70BC 1109.20
TC 1111.09BC 1111.09
1102.43
1102.43
BW 1102.25
TW 1107.50
BW 1102.00
TW 1103.60
BW 1102.50
TW 1109.50
1112
.40
1110
.70
BW 1109.00
TW 1114.5010 Risers @ 6"
1108.50
1108.50
1107.70
1108.70
1109.50
1109.50
TC 1110.53BC 1110.03
TC 1109.67BC 1109.17
1108.50
1107.70
1109.50
1109.50
1108.50
TC 1112.35BC 1111.85
TC 1113.24BC 1112.74
TC 1112.84BC 1112.34
TC 11113.47BC 1112.97
TC 1112.35BC 1111.85
TC 1110.90BC 1110.40
TC 1110.77BC 1110.27
1113.34
DI 2 Rim 1109.30
1108.80
1108.80
DI 1 Rim 1111.20
DI 9 Rim 1111.30
TC 1111.73BC 1111.23
DI 7 Rim1109.30
TC 1109.61BC 1109.11
1102.0
1102.25
10 Risers @ 6"
DI 3 Rim 1110.20
DI 4 Rim 1109.20
1110.50
1110.50
1109.70
1108.70
DI 6 Rim 1111.20
1107.90
DI 10 Rim 1108.20
DI 11 Rim 1110.03
DI 12 Rim 1108.60
DI 13 Rim 1108.60
DI 8 Rim 1109.20
DI 15 Rim 1109.70
DI 14 Rim 1109.70
TC 1109.92BC 1109.42
BW 1
102.
50
TW 1
105.
50
1103.50
1103.10
DI 5 Rim 1108.20
1103.18
BW 1
102.
42
TW 1
105.
50
BW 1102.25
TW 1107.50
BW 1112.50
TW 1114.50
1104.24
1104.40
4 Ri
sers
@ 6
"
1101
1102
.50
1102
.50
1.00% Slope
DI 16 Rim 1109.11
2.0%
Slo
pe 6" Trench Drain
2 Risers @ 6"
1110.95
A
B
C
D
E
F
G
H
I
J
K
L
M
O
N
11091109.20
1109.20
1109.201109.20
1109.20
1108.51
1108.51
1108.51
1104.05
1105
1104
P
TC 1111.59BC 1111.09
TC 1111.79BC 1111.29
TC 1113.48
BC 1112.98
TC 1111.79BC 1111.29
TC 1113.69BC 1113.19TC 1113.83
BC 1113.33
TC 1113.64BC 1113.14
1111
1110
1109
1108.50
1109.50
1109.501109.50
1110.50
1111.10
1110.70
1110.70
1111.10
1112
1111
1112
1113
0' 10' 20' 40'
1"=20'
VegetationLegend
Pedestrian Path
5' Existing Contour1' Existing Contour5' Proposed Contour1' Proposed Contour
Flow Splitter
Drain InletsSwale Center Line
Drain PipesHigh Point SwaleLow Point SwaleTop of CurbBottom of Curb
Slope Direction
Top StairBottom Stair
HPS 0.00
LPS 0.00
TC 0.00
BC 0.00
TS 0.00
BS 0.00
TFFE 1112.5
BFFE 1102.5
Top Finished Floor ElevationBottom Finished Floor Elevation
0.00% Slope
0000 Contour LabelA Pipe Label
Spot Elevation0.00
DI 1 Rim 0.00 Drain Inlet # and Rim Elevation
PRO
DU
CED
BY
AN
AU
TOD
ESK
ED
UC
ATI
ON
AL
PRO
DU
CT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRO
DU
CED
BY A
N A
UTO
DESK
EDU
CA
TION
AL PR
OD
UC
T
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
18
41
42
43
44
45
46
47
48
48
47
46
40
41
42
43
44
45
46
47
48
48
47
46
45
(48.64)
50
51
52
51
50
49
50
TC 50.72DI 50.22TC 51.44BC 50.94
TC 51.62DI 51.12
TC 52.34BC 51.84
ADATFFE 51.81BFFE 42.81 TFFE 53.14
BFFE 44.14
TFFE 53.79BFFE 44.79
TFFE 54.44
BFFE 45.44
TFFE 51.80
BFFE 42.80
ADATFFE 50.48
BFFE 41.48
TFFE 53.79BFFE 44.79
TFFE 54.44
BFFE 45.44
TC 49.52
DI 49.02
TC 50.54
BC 50.04
TC 50.83
DI 50.33
TC 51.79
BC 51.29
TC 51.79
BC 51.29
51.94
TC 50.36
BR 49.86
BR 49.83
TC 49.52
BC 49.02
49.67
49.78
TR 49.79
BC 49.29
51.76
TS 52.4452.26
BS 52.4451.26
51.20
52.70
52.98
51.75
51.14 51.1451.04
49.77
49.98
48.10
BW 46.44
BS 50.30
BS 50.3050.48
50.4849.88
51.3051.30
4 RISERS
@ 6"
4 RISERS
@ 6"
BW 45.44
BW 45.28
45.4445.44
45.2445.24
50.44
52.84
TC 50.34DI 49.84
48.89
TR 51.0651.31
TR 51.21 BR 50.76
50.96
50.86BR 50.86
52.39 52.49
52.59
TC 52.34BC 51.84
52
51
5049
50
44.7944.7944.59
44.59
53.12
53.12BS 53.2952.59
BS 53.29
52.8452.94
52.1052.94
52.10
51.73
BS 52.14
BS 52.14
51.6151.81
51.6151.8151.3151.31
51.15
TC 52.06
BC 51.56TC 52.37
BC 51.87
TC 52.06
BC 51.56
TC 52.37
BC 51.87
TC 50.81
BC 50.31
3.58%
52
51
50
49
TC 49.79
BC 49.29
TC 49.62
BC 49.16
TC 49.62
BC 49.16TC 49.79
BC 49.29
TC 51.10
BC 50.60
TR 49.9450
49
48
47
46
45
TC 47.61
DI 47.11
48.32
48
44
47.45
47.45
46.10BW 44.82
BW 44.60
52.89
51.98
BW 46.22
TC 50.99BC 50.49
TC 50.99BC 50.49
TC 50.61BC 50.11
TC 50.61BC 50.11
TC 52.61BC 52.11
TC 52.81BC 52.31
TC 52.81BC 52.31
TC 52.71BC 52.21
TC 51.69BC 51.19
TC 51.89BC 51.39
52.1652.71
50
51
52 51
51.31 51.56
52.04
TC 53.09BC 52.59
HPS 52.84
BW 44.90
LPS 44.80
52
51
50
49
48
47
46
45
BW 44.90
51
50
52
53
52
49
8.88
%
4.03%
2.00%
5050
PFFE 52.64
PFFE 51.81
PFFE 53.79
PFFE 53.79
TS 53.79 TS 53.79
TS 52.64
PFFE 54.44
PFFE 54.44
PFFE 51.80
PFFE 50.48
TW 46.50 TW 46.70
TW 46.50
TS 51.80TS 51.80
TS 54.44 TS 54.44
52.48
52.60
52.77
52.69
49.30
2.00
%
2.00%
%63.
3
%68.
3 %07.
4
3.95
%
5.35
%
%50. 2
2.88% 4.10
%
4.10%2.88%
HPS 49.20
LPS 47.80
4.84%TC 53.09BC 52.59
51
52.87
51
46
47
48
49
49
5.35%
3.15%
2.45%
4.75%
2.68%
49
49
48
48
47
49.50
49.9649.86
45.95
47.12
0.00%
ERIC LYONS LARCH 231PROJECT 24/21/12
LEGEND
TFFE TOP FINISHED FLOOR ELEVATIONBFFE BOTTOM FINISHED FLOOR ELEVATIONTC TOP CURBBC BOTTOM CURBTR TOP RAMPBR BOTTOM RAMP PERCENT SLOPE EXISTING CONTOURS PROPOSED CONTOURS PROPERTY LINE CENTER LINE SWALETS TOP STEPBS BOTTOM STEPPFFE PORCH FINISHED FLOOR ELEVATIONBW BOTTOM OF WALLTW TOP OF WALL+ SPOT ELEVATIONHPS HIGH POINT SWALELPS LOW POINT SWALEADA HANDICAP ACCESIBLE HOME
41
42
43
44
45
46
47
48
48
47
46
40
41
42
43
44
45
46
47
48
48
47
46
45
(48.64)
50
51
52
51
50
49
50
TC 50.72DI 50.22TC 51.44BC 50.94
TC 51.62DI 51.12
TC 52.34BC 51.84
ADATFFE 51.81BFFE 42.81 TFFE 53.14
BFFE 44.14
TFFE 53.79BFFE 44.79
TFFE 54.44
BFFE 45.44
TFFE 51.80
BFFE 42.80
ADATFFE 50.48
BFFE 41.48
TFFE 53.79BFFE 44.79
TFFE 54.44
BFFE 45.44
TC 49.52
DI 49.02
TC 50.54
BC 50.04
TC 50.83
DI 50.33
TC 51.79
BC 51.29
TC 51.79
BC 51.29
51.94
TC 50.36
BR 49.86
BR 49.83
TC 49.52
BC 49.02
49.67
49.78
TR 49.79
BC 49.29
51.76
TS 52.4452.26
BS 52.4451.26
51.20
52.70
52.98
51.75
51.14 51.1451.04
49.77
49.98
48.10
BW 46.44
BS 50.30
BS 50.3050.48
50.4849.88
51.3051.30
4 RISERS
@ 6"
4 RISERS
@ 6"
BW 45.44
BW 45.28
45.4445.44
45.2445.24
50.44
52.84
TC 50.34DI 49.84
48.89
TR 51.0651.31
TR 51.21 BR 50.76
50.96
50.86BR 50.86
52.39 52.49
52.59
TC 52.34BC 51.84
52
51
5049
50
44.7944.7944.59
44.59
53.12
53.12BS 53.2952.59
BS 53.29
52.8452.94
52.1052.94
52.10
51.73
BS 52.14
BS 52.14
51.6151.81
51.6151.8151.3151.31
51.15
TC 52.06
BC 51.56TC 52.37
BC 51.87
TC 52.06
BC 51.56
TC 52.37
BC 51.87
TC 50.81
BC 50.31
3.58%
52
51
50
49
TC 49.79
BC 49.29
TC 49.62
BC 49.16
TC 49.62
BC 49.16TC 49.79
BC 49.29
TC 51.10
BC 50.60
TR 49.9450
49
48
47
46
45
TC 47.61
DI 47.11
48.32
48
44
47.45
47.45
46.10BW 44.82
BW 44.60
52.89
51.98
BW 46.22
TC 50.99BC 50.49
TC 50.99BC 50.49
TC 50.61BC 50.11
TC 50.61BC 50.11
TC 52.61BC 52.11
TC 52.81BC 52.31
TC 52.81BC 52.31
TC 52.71BC 52.21
TC 51.69BC 51.19
TC 51.89BC 51.39
52.1652.71
50
51
52 51
51.31 51.56
52.04
TC 53.09BC 52.59
HPS 52.84
BW 44.90
LPS 44.80
52
51
50
49
48
47
46
45
BW 44.90
51
50
52
53
52
49
8.88
%
4.03%
2.00%
5050
PFFE 52.64
PFFE 51.81
PFFE 53.79
PFFE 53.79
TS 53.79 TS 53.79
TS 52.64
PFFE 54.44
PFFE 54.44
PFFE 51.80
PFFE 50.48
TW 46.50 TW 46.70
TW 46.50
TS 51.80TS 51.80
TS 54.44 TS 54.44
52.48
52.60
52.77
52.69
49.30
2.00
%
2.00%
%63.
3
%68.
3 %07.
4
3.95
%
5.35
%
%50. 2
2.88% 4.10
%
4.10%2.88%
HPS 49.20
LPS 47.80
4.84%
TC 53.09BC 52.59
51
52.87
51
46
47
48
49
49
5.35%
3.15%
2.45%
4.75%
2.68%
49
49
48
48
47
49.50
49.9649.86
45.95
47.12
0.00%
ERIC LYONS LARCH 231PROJECT 24/21/12
LEGEND
TFFE TOP FINISHED FLOOR ELEVATIONBFFE BOTTOM FINISHED FLOOR ELEVATIONTC TOP CURBBC BOTTOM CURBTR TOP RAMPBR BOTTOM RAMP PERCENT SLOPE EXISTING CONTOURS PROPOSED CONTOURS PROPERTY LINE CENTER LINE SWALETS TOP STEPBS BOTTOM STEPPFFE PORCH FINISHED FLOOR ELEVATIONBW BOTTOM OF WALLTW TOP OF WALL+ SPOT ELEVATIONHPS HIGH POINT SWALELPS LOW POINT SWALEADA HANDICAP ACCESIBLE HOME
19
technical drawings
20
21
render variations // penn state campus
22
model exploration // penn state campus
23
internship studies // beechbrook LA
These elements were completed during my summer internship study with Beechbrook Landscape Architecture in Baltimore, Maryland. The firm focuses on high end residential and small commercial projects. The variation of tasks as displayed included hand sketches, grading plans, construction documents, and 3D modeling.
B E E C H B RO O Kl a n d s c a p e a r c h i t e c t u r e
t 410.685.5263f 410.685.5264beechbrookla .com
24
25
photography
26