Jacky Wah_2016 landscape architecture portfolio

Page 1

J Jacky Wah design portfolio


Design Competition 2015 AECOM Urban SOS- All System Go The Generator Urban Design + Planning Biloxi Marsh Testing Ground Research + Experiment Far Rockaway Resiliency Waterfront Design Revitalize Suburb Gracie Community Planning Professional Work Spring Internship @ LJA Engineering, Inc.

Contact WEN KEAT, WAH (JACKY)

BLA Louisiana State University e: jwah0220@gmail.com t: 727.458.0064


Environmental Degradation

Flood

Poor Transportation System

CLEAN

DRAIN

NAVIGABLE

Water Pollution

10-20 times higher than US EPA Threshold 01 :: VULNERABLE BANGKOK AND ITS CHALLANGES Population

Juries: AECOM, Van Alen Institute, Rockefeller Foundation’s 100 Resilient Cities Duration: 3 months

CANAL SOS

Project Team: Michel Liang, Pin Udomcharoenchaikit, Sunantana Nuanla-or, Jacky Wah

Concept: Current canal condition is very improper and outdated. There is no pipe separation system in Bangkok, therefore, household’s wastewater discharge into the canal immediately without having any water treatment. This can lead to a huge environmental impact such as causing unhealthy drinking water and survival of ecosystem. Therefore, the design intend to create water purification system in order to provide a better healthy environment. We urge to add a pipe for wastewater discharge to separate the stormwater and wastewater runoff. Wastewater will be treated before discharge into the canal, and stormwater will be treated through proposed green linear system along the canal.

Canal SOS

yet it’s given medium crime rate

Informal Transportation are not well managed

1-2 m of High Flood level GISTDA 2011

Scope: Urban Design + Planning

Low Poverty rate,

LOCAL SURVEY 2015

10 - 20 times higher than US EPA thresholds

The Overseas Security Advisory Council , 2015

Water Pollution

#8 World Rank Start- Stop Traffic

1.2 KM/hr during rush hour

THREE OPPORTUNITIES

CLEAN Main politic and economic activities are centralized in Bangkok

DRAIN

Sandbags for flood management

NAVIGABLE

The 8th world’s worst stop-start traffic Castrol Magnatec Stop-Start Index, 2014

Bangkok, the capital of Thailand, is one of the most significant city of the country and South East Asia region. The city is the residence of ten million population. Looking at the 3 main challenges stated in the 100 resilient cities website, which are pollution and environmental degradation, flood, and poor transportation system, they are all related to the existing canal system in the city in some ways. They also related to other problems. Thus, we aimed to provide rehabilitation ideas for functionalized the existing canals Bangkok in Bangkok. Los Angeles 2,750 persons/sq.km 6,450 persons/sq.km

High Flood Level

BANGKOK 2011

CBD

Location: Bangkok, Thailand

07

Design Competition THREE CHALLENGES

Location

2 Metre

Design Competition

Pollution Control Department Bangkok Municipalitiy, 2011

06


06

Design Competition

Design Competition

Structure Cost Estimation

Boat Wave Attenuation Study

3M

1.60 M

The speed regulation in Bangkok canal is 20 km/hr, therefore, boats 07 :: the SOLUTION should be away from the bank at minimum 3 meters to be able to avoid high wave and provide space for green buffer to absorb wave energy.

PHASING Green Roof $40/Sq.M. 16 Sq.M. = $640

PHASE 1: IDENTIFY PUBLIC SPACES

Existing Waterfront Potential Areas Temple, School or Government office

5M

1.34 M

3-5 M

3-5 M

3.6 - 7.6 M

3-5 M

WL +0.5M WL - 1.00M BL - 3.00M

3-5 M

Metal Sheet Roof $15.5/Sq.M. 16 Sq.M. = $248

Roof Structure 1. C-Steel 60x30x102.3mm $10/6m 6 lines = $60 2. C-Steel 150x75x25x3.2 $33.6/6m 5 lines = $166.5 3. C-Steel 200x75x25x4mm $50/6m 2 lines = $100

vigable

09 :: CANAL SOS TOWARDS RESILIENCE BANGKOK

CLEAN

NAVIGABLE

DRAIN PHASE 2: RECONSTRUCTION

DRAIN

CLEAN

NAVIGABLE

$$$$$

Pier Construction and Bank Stabilization Connection to Mass Transit DRAIN

NAVIGABLE NAVIGABLE

NAVIGABLE

$$$$$

CLEAN DRAIN

3- 5M

Column Structure I Beam- Steel 200x150 $295/6m 2 lines = $590

Street Market

Public Park Waiting Area Pier with Green Roof

08 :: FLEXIBILITY AND COST ESTIMATION OF THE PIER

IN TRANSITION

MODULAR ARCHITECTURE

COST ESTIMATE

STAKEHOLDERS

NAVIGABLE ROAD

BMA

TEMPLE

HORIZONTAL SPACE

COMMU. CONNECTION

SERVICE

POP-UP STORE

TICKET

WAITING AREA

Stamped Concrete Finished $20/Sq.M. PIERSq.M. PIER = $320 16

PARALLEL PROJECT NEEDED

4M

CLEAN

CANAL

CONNECT 4M

SOLAR BOAT

Street Market Constructed Wetland

Green Roof $40/ SQ.M. 16 SQ.M. = $640

COOP Metal Sheet Roof $15.5/ SQ.M. 16 SQ.M. = $248

PHASE 3: PUBLIC ENGAGEMENT Local Market Wastewater Storage and Public Park Constructed Wetland

Clean Water Release to canal

Water Level

Gabion Bank Structure

Waterfront Park and Wetland

Wastewater system to Main Water Plant Informal Settlements

Canal

15,000 Residence in the area

270,000 Litre/day

of waste water will be treated before discharge

1,500 Residence in the community along the canal gain benefit from economic activities and less pollution

Roof Structure 1. C-steel 60x30x10x2.3mm $10/ 6m 6 line = $60 2. C-steel 150x75x25x3.2mm $33.30/6m 5 line = $166.5 3. C-steel 200x75x25x4mm $50/6m 2 line = $100

IN TRANSITION STAKEHOLDERS BMA

TEMPLE

3-5m Column Structure I Beam-steel 200x150 2 line = $590

COMMU.

$295/ 6m

PARALLEL PROJECT NEEDED 4m REGULATE

HOUSING

RESEARCHER

COOP

4m

To Canal Navigation Phase 1 Stamped concrete Finished 16 SQ.M. = $320

$20/SQ.M.

TOTAL COST = $ 2,124.5 / 1 unit

MASTER PLAN Master Plan

(exclude base structure)

Less damage from the Wave

gain benefit from faster transportation and less chance of flood

0

20

07


Urban Planning + Design

Urban Planning + Design

Repurposing Industrial structures including meatpacking factory, Crystal Manufacture Company, and abandoned bridge.

Abandoned Bridge

Location: North Denver, Colorado

nt i

ty

I de

s set As

Stimulating Hispanic cultures and Western culture by proving social space, open space, and recreational space.

Local E con

Vision & Goals

Precedent Images

Historic al

08

y om

Contributing entertainment activities such as farmer markets, retails, restaurants, foor stores, and seasonal events.

Stockyard

Project Statement: South Platte River Greenway Planning Scope: Urban Design + Planning

Soccer Fields

Scale: +/- 200 Acres Duration: 4 months

Hispanic Culture

Concept: There are 3 opportunities to elaborate in my design proposal: historical assets, identity, and local economy. My concept is mainly driven by the historic uses of the area such as meatpacking and stockyard. Historically, the ideas of cattle deliver and freight deliver were more of an economy connection.Also, the freight rail that separate the river and stockyard at that time. It almost seems so excluded that the river and stockyard have no relationship whatsoever. Therefore, my design will provide a physical connection. It was used to delivered materials but now will deliver people instead. Giving multi-functional spaces and places will achieve the goal of providing a physical connection.

Armor Water Tower

Existing

Gymnasium

Exisiting Buildings

Equestrian Center

Re-Use Proposed

Globeville Site & Elyria Focus Neighborhood

Proposed & Reuse Buildings

Viewing Deck Towncenter Stockyard Trade ShowCenter

Sidewalk Plaza Trails Vehicle

Pepcol Manufactures

Traffic Systems

New CSU Campus

THE GENERATOR Making a recreational, cultural, tourism center attraction for the city of Denver

Downtown Denver

Street Trees Park Open Lawn Recreation

Green Infrastructures

09


10

Urban Planning + Design

Urban Planning + Design

Building Typologies | REconstruct REadapt REpurpose REuse Elyria Neighborhood current land uses are predominately industrial uses. However, multiple buildings and infrastructures are under-utilized and some become vacants. Exisiting buildings such as meatpacking factory, crystal packing office, and abandoned bridge that was used for cattles delivery. City of Denver has come out with a master plan that called National Western Center for Elyria and Globeville Neighborhoods. The plan is to revitalize the area become more vibrant as well as preserving historical western cultures. Hence, strategies to reorganize and repurpose these infrastructures and buildings can best strengthen the area and become a destination.

RECONTRUCT

plug in multiple smaller uses

259,420 SF

138,870 SF

READAPT

Frieght Rails

South Platte River

COMMON USES

RETAILS | SHOPS | DININGS | BOOKSTORES

Section A: Observation Deck Scale: 1"=20'

abandoned cattles delivery bridge

COMMON USES

OBSERVATION DECK | SEATINGS | PLANTINGS

REPURPOSE

crystal packing factory

Soccer Fields

Northside Park

South Platte River

Section B: Recreational Zone Scale: 1"=60' Parking with bioswale

147,420 SF

REUSE

COMMON USES

BASKETBALL | SWIMMING | BADMINTON |WEIGHTING | TRACK

vacant buildings

120,000 SF

COMMON USES

DININGS | HOTELS | RE-

Section C: Enlarged Section Scale: 1"=10'

Heron Pond

Gymnasium

11


12

Urban Planning + Design

SOCIAL DESTINATION

Urban Planning + Design

The area was once a meatpacking factory, and there are 5 railrod tracks that used to transport goods. However, this area become abandoned and buildings are under-utilized. In order to revitalize the area, this meatpacking factory will be re-programming to become a a towncenter that will include markets, restaurantas, boutique stores.

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14

Research + Experiment

15

Research + Experiment Baton Rouge

Lake Borgne focus areas

chandel sound

New Orleans

biloxi marsh wildlife management

breton sound Location: Biloxi Marsh, Louisiana

Morgan City

Project Statement: Research on Oyster Barrier Reef as Technolgy Scope: Research / Experiment Duration: 4 months Concept: The design proposal for Biloxi Marsh seeks to bring about a strong base of data for oyster barrier reef technologies and implementation strategies while providing public access to give users a sense of the importance of the land that is being lost throughtout Louisiana and how it can be combatted.

Biloxi Marsh Testing Ground

The Biloxi Marsh lies east of New Orleans acting as a barrier to storm surges directed at the city and Lake Ponchartrain. .

gulf of mexico


Research + Experiment

Research + Experiment

17

0

10 20

Different types of concrete reef blocks can act as the foundation of an oyster barrier reef and provides a wave attenuation function at initial installment.

2009-10

2008-09

2006-08

2004-06

2002-04

1998-99

1999-2002

1995-98

1990-95

1988-90

1985-88

Areas Highly Susceptible to Erosion

Hurricane Katrina 2005 4,617 acres loss from 2001-2005

1977-85

2000- 2009

1975-77

1975- 2000

1973-75

1932- 1975 1965 construction of MRGO deprives Biloxi Marsh of sediment

1956-73

30 1932-56

16

Land behind the oyster barrier reef stays preserved because Persistent land loss in 1932 to 2010 is -179.25 square miles of the oyster barrier reef. With wave strength lowered, sand and plants are given a chance to settle on the shore. The plants when established provide an extra form of defen

Wave Attenuation Wave attenuation is one of the most important function carried out by oyster barrier reefs in the Mississippi delta. It is becuase of wave action that the coast is eroding away. Although wave action is typical in this area, areas such as the Biloxi Marsh that have lost their ability to gain land from the outflow of river sediment now only have the option of loosing land. Oyster reefs act as a a barrier to wave action thus lessenng the strength and size of incoming wave and the rate of erosion on the land they are protecting. unlike ea alls and break waters which typically perform this function, oyster barrier reefs have the ability to grow in size and keep pace with rising sea levels. Not only do they have the ability to reduce erosion rates but they can also help add land as well by allowing sediment to drop behind the reef as the speed of the ater is slowed down.

Filtration

50 gallons of water per day per oyster

Free swimming larvae provide food for marine organisms

61% wave height even without oyster fortification

Larvae

50% of planktonic volume made out of oyster larvae dering sprawning season

Fishes

Seabirds


18

light field Research + Experiment

Light Field The shoreline flanking the campsites is articulated by a field of lighted buoys in the ocean elucidating in real time the wave attenuating capabilities of the oyster barrier reefs. The light field is created by a group of disperesed This gives campers a sense of the forces that are degrading the site as well as how oyster barrier reefs can reduce it.

Research + Experiment BUOY RETURNS TO WAVE TROUGH BECOMING DIMMER AS IT LOOSES POWER FROM THE UNCOMPRESSED SPRINGS

LIGHT ELECTRICITY

LED LIGHT TO ILLUMINATE BUOY TRANSLUCENT BUOY CASING

SPRINGS COMPRESS CREATING ELECTRICITY TO LIGHT THE BUOY ENERGY MOVEMENT TO LED LIGHT

SPEAR ASSEMBLY HYDRAULIC PISTON SHAFT AND HYDRAULIC PISTON

SPRINGS PUSH BACK ON HYDRAULIC CYLINDER

Camp Sites Areas suitable for campsites have been selected to allow for field research in such a remote site as well as bring about a new type of remote camping experience. The camping sites are very primitive and have a small footprint on the land. The biggest feature of these is an elevated wooden deck for which to set up tents on to keep them out of the water. Camping in the area allows people to experience a part of Louisiana that is disappearing. Camping will be accesible by boat that will be docked at the research center. From there kayaks, canoes, and smaller motorized boats will allow campers acces to the inner marsh islands and campsites.

HYDRAULIC ACCUMULATOR HYDRAULIC MOTOR ELECTRICAL GENERATOR DEEP CYCLE MARINE BATTERIES

HEAVE PLATE

FISHING

Field light buoys light up according to wave attenuation. The stronger the wave, the lighter the buoys get.

ELEVATED DECK CAMPING GROUND

19


20

Waterfront Design

Waterfront Design

21

Location: Queens, New York Project Statement: Shifting Sands Scope: Ecological, Coastal, and Urban Infrastructure Design Scale: +/- 81 Acres Duration: 4 months Concept: My design brings the community together in a resilient site by differentiating the height of the boardwalk to combat storm surge and sea level rise. An extended boardwalk allows the community to engage and ivolve the beach and ecological site.

Far Rockaway Beach Resiliency

Site plan layover an aerial image of Queens, New York.


22

Waterfront Design

Site Analysis

Waterfront Design

Analysis Model

Subway Boardwalk

Native ecological

Sidewalk

Site Context

Transportation

Top Right: Physical model above is a study of the site’s building types. Each woodstick represents in thickness and length in order to differentiate the type of buildings. Green lines, on the other hand, show the connection between local community to Far Rockaway Beach.

Design Concept

Bottom: An axonometric perspective sketch from subway train to Far Rockaway Beach.

23


24

Waterfront Design

Boardwalk connects from subway to the subwaythe beach

Waterfront Design

25


26

Waterfront Design

Waterfront Design

5

1 4

6

2

4

3

1

Elevated surface

2

Boardwalk

3

Viewing Deck

4

Elevated Plantings

5

School

6

Potential Develpment

N

27


28

Community Planning

Location: I-10 East and North of Spanish Town, Baton Rouge, LA Project Statement: Reclaiming and Revitalizing Lost Space Scope: Community Planning Scale: +/- 117 Acres Duration: 4 months Concept: To transform an existing woodlot into a centrally located 8-acre urban farm. In addition, this proposal improves the streetscapes by giving a sense of safety as well as a transportation system.

Revitalize Suburb Gracie

Community Planning

29


30

ater for irrication, but se of connection and

ater for irrigation and n the site, but feel anish Town Road

water for irrigation, but ed

to the enough source of n, avoid flooding, and community

Community Planning

Community Planning Exisiting Two-Way Road Exisiting One-Way Road Proposed 2-Way Road Proposed Lots Exisiting Lots

Street Network

Exisiting Parking Proposed Parking Exisiting Lots

Parking Study

Bottom: Bus route is a great transpor-

Proposed Lots Proposed Street Parking

Top: This concept diagram is broken down into 12 different catagorizes to show the potential programs of the site. Not only this diagram forms the concept, but also helps to know how it functions in a significant way.

Street Parking

tation for people to commute to work, shop, wherever one wants to go. This strategy is to add new bus route to the neighborhood. Not only this will bring people who don’t live there to the site but also provide a new transportation system to the neighborhood.

Left: This thought process diagram is to

show where is the best location to locate urban farm. There are four locations are suitable.

1

3 4

2

#1. Good source of water for irrigation but doesn’t give a sense of connection and entrance while driving in to the neigborhood from Spanish Town. #2. Goods source of water for irrigation and is the lowest point on the site, but it feels like it is seperated from Spanish Town Rd. #3. Enough source of water for irrigation, but the farm will be a clear seperation before and after the train track. #4. Is the best location because of the source of water, it can avoids flooding and is the focal point of the neigborhood.

MAIN BUS STOPS ROUTE 10 SCENIC HWY ROUTE 72 FLORIDA BLVD LIMITED PROPOSED BUS ROUTE

Proposed Bus Route

31


Community Planning

Community Planning

I-110 Capitol Lake

1 2 Spanish Town

3 Spanish Town Rd

1

4

2

11

3

5

10

5

N 15th St.

N 12th St.

Gayosa St.

7

4

6

N 11th St.

Canal St.

32

6 7 8 9 10

Cemetery

11

North St.

Wildlife Area Trail Detention Pond Whole Food Store Elysian Apartment Greenhouse Elementary School School PLayground Pre-K/ Daycare Greenbelt Urban Farm Medium Density High Density Low Density Mixed-Use/Commercial Civic

Main St.

Master Plan

Offices Train Track

33


34

Community Planning

Community Planning

35

Season Rotations Strategy Total farm land= 24 sections farm Each square classify into different crops: Winter-- strawberry, cabbage, tomato, orange Summer-- beans, sweet corn, sweet potato Fallow-- any ground cover plants Fallow uses as green mutation. It locates in between winter and summer crop land for the purpose of killing disease and insects.

URBAN FARM

Re-purposed a 8-acre wood lot into an urban farm. This farm will eventually serve as a spot where it brings the community together as well as providing a new location for Red Stick Farmer Market which is currently held on 5th and Main Street.


36

Professional Work

Professional Work

Master plan rendering for Gracepoint Stillwater in West Houston,TX

Professional Work 5 months internship at LJA Engineering,Inc, Houston, TX

37


38

Professional Work

Professional Work

39


Planning&

Landscape Archtecture

R56'

1'-6

XXXX Xxxx Xxxx Xxxx Xxxx

2929 Briarpark Drive Suite 600 Houston, Texas 77042-3703 713.953.5200 - f 713.953.5026

1. Precast Entry Sign Cap. See Detail. 2. Stone 3. CMU, reinforced with rebar to be embedded into concrete footing. Fill cells solid with grout. 4. Horizontal Durawall Truss @ 16" o.c. ea. way. 5. Stone Letter Panel. See Detail. 6. Stone Logo Panel. See Detail. 7. Precast Sign Panel. See Detail . 8. For footing and CMU reinforcement, see structural details.

6"

2'

9'

2'

DATE

1. Precast Entry Sign Cap. See Detail. 2. Stone 3. CMU, reinforced with rebar to be embedded into concrete footing. Fill cells solid with grout. 4. Horizontal Durawall @ 16"Entry o.c. ea.Sign Cap. See Detail. 1. Truss Precast way. 2. Stone 5. Stone Letter Panel. See Detail. 3.SeeCMU, 6. Stone Logo Panel. Detail.reinforced with rebar to be embedded intoDetail concrete footing. Fill cells solid with grout. 7. Precast Sign Panel. See . 8. For footing and CMU see 4. reinforcement, Horizontal Durawall Truss @ 16" o.c. ea. structural details. way.

DETAIL CALLOUTS

1'-6"

4

1

3

4

4

7 1'-6"

2

Fortnight Lily (176 SF)

2'-6"

Buried Wall Ht. Varies

9'

8

5

1'-6"

Letter Panel is even with Cap and Stone

2

4

4

8

6"

JH

Checked

CP

Drawn

JH

Checked

CP

Project #: 1931-5002 NOT FOR CONSTRUCTION Date: APRIL 17, 2015 Revision

Letter Panel is even with Cap and Stone

Date

Remarks

Stone to be flush with Cap

1" Overhang

5

4

Drawn

Mortar Joint b/t CMU and Precast Panels

1

3

Buried Wall Ht. Varies

Stone to be flush with Cap

1" Overhang

3

7

3

Varies

4

Buried Wall Ht. Varies

1 2

4'-6"

9'

Liriope (142 SF)

Liriope (303 SF) KO Rose (203 SF) Fortnight Lily(350 SF)

1 2"

2

3

3

Mortar Joint b/t CMU and Precast Panels

6"

2

3

1 2"

Project #: 1931-5002 NOT FOR CONSTRUCTION Date: APRIL 17, 2015

3'

2

SEED LIMIT

5. Stone Letter Panel. See Detail. 6. Stone Logo Panel. See Detail. 1 Panel. See Detail . 7. Precast Sign 8. 1'-6" For footing and CMU reinforcement, see structural details.

1

3'

1'-6"

1

6"

2

1'-6"

ISSUE

DETAIL CALLOUTS

2

3

S LI EED M IT

ISSUE

DATE

2

= 1' -0"

4'-6"

2"

4'-6"

1

1

3

KO Rose (198 SF)

6'

ENTRY SIGN DETAIL ELEVATION

AENTRY " = 1'SIGN -0" DETAIL ELEVATION

2'-6"

A

2

3:1 Slope

6'

Varies

BERMUDA SEED

THE CITY OF PEARLAND, BRAZORIA COUNTY, TEXAS

THE CITY OF PEARLAND, BRAZORIA COUNTY, TEXAS

THE CITY OF PEARLAND, BRAZORIA COUNTY, TEXAS

3:1 Slope

6'

4'-6"

Loropetalum (130 SF) Plumbago (249 SF)

BERMUDA SEED

Natural Natural GradeGrade

LANDSCAPE, HARDSCAPE & IRRIGATION CONSTRUCTION DRAWINGS

SEED LIMIT

BERMUDA SEED

3:1 Slope

6'

9'

4'

6"

3' 6"

9'

9'

OAKSHIRE

Society Garlic (128 SF)

Buried Stone

Finished Grade

3:1 Slope

LANDSCAPE, HARDSCAPE & 7 IRRIGATION CONSTRUCTION DRAWINGS 2

LANDSCAPE, HARDSCAPE & IRRIGATION CONSTRUCTION DRAWINGS

Buried Stone

Finished Grade

Buried Stone

Plumbago (464 SF)

BERMUDA SEED

2

6" Buried Stone

Society Garlic (188 SF) BERMUDA SEED

7

6"

OAKSHIRE

OAKSHIRE

6

Loropetalum (190 SF)

1

6

7

7

Vicinity Map

Drawing construction details from conceptual sketch by hand to construction drawing in Civil 3D software. 1'-6"

2

Revision

8

Date

Remarks

8

3 8

Buried Wall Ht. Varies

2'-6"

Buried Wall Ht. Varies

CONSTRUCTION DETAILS ENTRY SIGN Sheet Number

4 8

6"

ENTRY SIGN SECTION 1 2" = 1' -0"

Varies

B

Varies

Buried Wall Ht. Varies

ISSUE

2'-6"

Sheet Title:

DATE

5 Sheet Title:

CONSTRUCTION DETAILS ENTRY SIGN Sheet Number

Fortnight Lily (214 SF)

B

Liriope (160 SF) KO Rose (177 SF) Society Garlic (301 SF) KO Rose(160 SF)

Gulf Muhly (223 SF)

Fortnight Lily (117 SF) Gulf Muhly (617 SF) Society Garlic (127 SF)

KO Rose (167 SF) KO Rose (207 SF)

Drawn

JH

Checked

CP

Goose Creek Illustrative Plan

Gulf Muhly (206 SF) Fortnight Lily (255 SF)

Project #: 1931-5002

Gulf Muhly (149 SF)

Society Garlic (115 SF) Fortnight Lily (282 SF) Society Garlic (139 SF) BERMUDA SOD

Date: APRIL 17, 2015

Gulf Muhly (193 SF)

Revision

Date

Remarks

KO Rose (130 SF) Loropetalum (206 SF) NG Lantana (41 SF) KO Rose (165 SF)

SOD LIMIT

SOD

MATCHLINE A

LIM

IT

Gulf Muhly (289 SF)

NOT FOR CONSTRUCTION

SEED LIMIT

Fortnight Lily (197 SF)

Sheet Title:

SHRUB PLANTING PLANOVERALL SITE Sheet Number

Gulf Muhly (307SF) Fortnight Lily (139 SF) BERMUDA SEED

BERMUDA SOD

ENTRY SIGN SECTION 1 2" = 1' -0"

BERMUDA SEED

13

41

2929 Briarpark Drive Suite 600 Houston, Texas 77042-3703 713.953.5200 - f 713.953.5026

1

7

6

2929 Briarpark Drive Suite 600 Houston, Texas 77042-3703 713.953.5200 - f 713.953.5026

Vicinity Map

7

1'-6"

Professional Work

Construction Details

6

1

36' 24'

4'

6"

3'

1

36' 24'

5

5

1. Precast Entry Sign Cap. See Detail. 2. Stone 3. CMU, reinforced with rebar to be embedded into concrete footing. Fill cells solid with grout. 4. Horizontal Durawall Truss @ 16" o.c. ea. way. 5. Stone Letter Panel. See Detail. Planning& 6. Stone Logo Panel. See Detail. Landscape Archtecture 7. Precast Sign Panel. See Detail . Sustainable Design Community Planning 8. For footing and CMU reinforcement, see Urban Design structural details. Landscape Architecture

DETAIL CALLOUTS

36'

Vicinity Map

Sustainable Design Community Planning Urban Design Landscape Architecture

DETAIL CALLOUTS

36'

R56'

1'-6 "

Construction Documentation From 0% to 75% set document, this time period helps me understand the process of construction documentation through collaboration, communication with structural engineers, civil engineers, and teams.

"

Sustainable Design Community Planning Urban Design Landscape Architecture

STONE SUPPLIER

Landscape Archtecture

Planning&

Professional Work

ED SE IT LIM

40

XXXX Xxxx Xxxx Xxxx Xxxx

5


WEN KEAT WAH (JACKY) e: jwah0220@gmail.com t: 727-458-0064

Educations

August 2012- May 2016 (Expected) Louisiana State University, Baton Rouge, LA Bachelor of Landscape Architecture Secretary of Louisiana Student Chapter ASLA May 2010- May 2012 College of Central Florida, Ocala, FL Associates of Art Degree in Architecure Member of Community of Scholars Member of International Student Organization

Professional Experiences

July - August 2015 Design Workshop, Inc., Houston, TX Refine design proposal booklets and assists with graphic rendering in Photoshop. January - June 2015 LJA Engineering, Inc., Houston, TX Responsible to set-up and revise construction document sets, render site plans, conceptual plans, detail plans, and produce quick hand drawings for conceptual design plans. May- July 2014 David Conner +Associates, Tampa, FL Organized product catalogs to correlate with current CSI format, refine currently used details in the office standard CAD detail library, and produce a context base in CAD using aerial imagery and help draw new planting details in CAD to supporrt office detail library. September- December 2013 Windrush Garden, LSU Agri. Research Center Organized and refined planting plans and event set-up and garden maintenance.

Softwares

AutoCAD Civil 3D SketchUp Adobe Photoshop Adobe Illustrator Adobe InDesign ArcGIS

Languages

Mandarin Cantonese English Malay

Honor Awards

AECOM Urban SOS- All System Go: 2015 Top 3 Finalists RRSLA Scholarship Edward & Yvonne Harvey Scholarship

Volunteers

Discovery Green Conservancy Louisiana Chapter ASLA Texas Chapter ASLA Habitat for Humanity of Baton Rouge Baton Rouge Hilltop Arboredum LSU Agriculture Center- Windrush Garden

Contact WEN KEAT, WAH (JACKY)

BLA Louisiana State University e: jwah0220@gmail.com t: 727.458.0064


J www.jacky-wah.squarespace.com


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