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Portfolio of work by recent mla graduate kimberly r. harding
Published here for consideration asi am currently seeking an entry-level Position at a design firm with big ideas, and elegant details.
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PortfolioHARDING
908 500 9111kim
berlyrossharding@gmail
05/2
014
K.R.
PortfolioHARDING
908 500 9111krossharding@gmail
05/2
014
K.R.
Portfolio
about
+1 908.500.9111kimbErlYrossharding@gmailhttp://issuu.com/k.harding/docs/2014
P:E:
W:
Hello Design Professionals,I have just received a Master of Landscape Architecture degree from The University of Texas at Austin, and am currently seeking employment at a design firm.
As evidenced by the work that follows, I have an apt grasp of a variety of design topics and tasks. I prefer to work collaborativly, and will contribute joy and intellect to the design team that prioritizes these values.
Teamwork, synthetic thinking, a ruthless eye for detail, and a comprehensive consideration of cultural connotation make me a candidate for leadership roles in the future.Thank you for your consideration,
Work Experience
Resume
2013 landscape architecture intern@ ten eyck landscape architects \ austin, tXcreated 3d models, renderings, diagrams, and construction documents.
2009/11 Jr. graphic designer@ virilion inc. \ new york, nyidentity development, branding and advertising campaigns. designed user-experience and graphics for web. designed materials for print like rfPs + brochures.
2014 masters of landscape architecture@ the university of texas austin \ austin, tXcoursework in studio design, history + theory, urban ecology + infrastructure.
2006 bachelor of arts@ middlebury College \ middlebury, Vtba in the history of art and architecture, graduate cum laude.
2007 Continuing ed.@ pratt institute of design \ new york, nycontinuing ed. coursework in digital deign (cad, etc).
2004 international student@ dis \ copenhagen, denmarkcoursework in architectural design, urban planning, 20th century scandinavian architecture.
2002 high school diploma@ the taft school \ watertown, ct
2008/10 public art install@ madison square park Conservancy \ new york, nyinstalled and de-installed public art projects in madison square Park.
2007/08 assistant to principal@ hma2 architects \ new york, nydesign support work including research, model making, drafting, and construction admin. for firm specializing in library design.
2006 architectural lighting design intern@ Fisher marantz & stone \ new york, ny
2009/14 roller derby Coach@ team usa and texas rollergirls \ austin, tXPrepare and lead practices and bootcamps for local and international skaters of all skill levels.
i notice details1
aia austin student design excellence awardtexas asla student design merit award utsoa design excellence winnerflat track roller derby team usa utsoa spring gPa: 4.0texas asla student design merit awardutsoa student design excellence nominee
texas rollergirlsthe trust for Public landthe great swamp watershed associationcommon ground disaster reliefalive structuresaustin derby bratsutsoa dean’s ambassador
2014201420132013201320122012
3 i have long-term potential2 i am an excellent communicator
sketching + communicating in the moment
ecosystem service calculation + landscape as infrastructure
writing + using language to communicate design ideas
team sports + learning and coaching
drafting [cad] + dimension and detail
arcmap [gis] + thinking synthetically
history and theory + building from Precedent
about
Education
3 Reasons to Hire Me
Volunteer Experience
Proficiencies + Interests
Recent Honors
MSI Dune PavilionPort aransas, teXas
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Sited adjacent to The University of Texas’ Marine Science Institute in Port Aransas, Texas, this 600 square foot structure serves as a temporary gathering place and portal for a Texas dune ecology education program. The pavilion provides shaded seating for 12 and ADA access from an existing elevated walkway to a section of natural dune. Construction of a path system through the dunes will follow.In addition to shade and access, the structure was designed to poetically reenforce features of the dune including light, color, and an essential palate of grasses. Simple geometries frame and re-present site complexities that may otherwise remain hidden. The conception and execution of this structure has emerged from a shared belief that geometry ties people to nature in a profound way.
2014 AIA Austin Design Excellence Award, with 8 others.
PortfolioHARDING
908 500 9111krossharding@gmail
05/2
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K.R.
msi dune pavilion photograph from the bridge 05/2014, 6pm 05
The MIS dune pavilion was designed and built collaborativly by a team of nine Architecture and Landscape Architecture students. Round table sketches and discussions lead to mock ups, which lead to a full digital model and scripted construction process. Working with a small budget of $8,000 (excluding labor), we prefabricated panels in Austin, and subsequently constructed the pavilion over the course of 12 days in Port Aransas.
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msi dune pavilion 05/2014 07
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october 14 pm
october 111:30 am
october 19 am
Often registering a 9 (of 10) on the UV index, South Texas sun can be harsh. Accordingly, shade is this pavilion’s primary indicator of comfort. We used SketchUp to test the shade that would be provided by a slotted, southern yellow pine screen, reinforced by an opaque aluminium roof. This modeling process enabled us to determine the size and spacing of the screen necessary to provide adequate shade.
msi dune pavilion model + sun studies 05/2014 09
Preliminary site studies including analysis of the surrounding dunes (far left) and an inventory of site vegetation (scans, left) led to a understanding that the site’s beauty lies within it’s variability. Th is lead to a series of collaborativly referenced and refi ned plans and sections (above left), which we used to order materials and to develop necessary shop drawings.
Construction Documents
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Northern Elevation
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East Section - Existing Walkway East Section
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Deck Plan
Structural Floor Plan
Roof Plan
Details
0.42 MI.
1.85 MI.
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011msi dune pavilion 05/2014
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PortfolioHARDING
908 500 9111kim
berlyrossharding@gmail
05/2
014
K.R.
nashVille, tennessee
Sulphur DellNashville is growing, and wants to grow smartly. Sulphur Dell, a low-lying neighborhood Northwest of Nashville’s capital complex welcomes this growth with a suite of flexible programming and infrastructure. Inspired by Nashville Sounds baseball and great American past times, the Dell is a place for American traditions. Sports on the lawn, outdoor cooking, new business, and spending time with neighbors make the Dell Nashville’s backyard.This design for Sulphur Dell was a 2014 entry into the Urban Land Institute’s Gerald D. Hines Student Urban Design Competition. I was one of five designers on the team, comprised of two Architecture undergraduate students, one Urban Planning student, an MBA, and myself. The work was collaborative. The drawings I am presenting were finished by me.
UTSOA ULI Competion 3rd Place
013sulphur dell siteplan uli hines competition, 01/2014
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In order to identify and address Nashville’s vision for the dell, I developed and branded three design objectives that became drivers for our team’s decisions. Th e site was to become a Woodland, a Workout, and a Workshop.Th e Woodland takes the form of pedestrian-only blue streets, which serve social and ecological interests, becoming centers for gathering, movement, and habitat creation, as well as visible stormwater infrastructure for the area.
N A S H V I L LE ’ S B AC K YA R DTHE DE LL
WATER COLLECTS ON ROOFS
rainWater harvesting
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a woodlandreorienting urbanism towards ecological infrastructure
a workoutpromoting active lifestyles
a workshoPfl exible space for community exchange
a workoutpromoting active lifestyles
a workshoPfl exible space for community exchange
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Workshopping is embodied in fl exible gathering spaces called spillways. Working Out is addressed with enhanced pedestrian opportunities, access to bike stations, access to fresh food, as well as access to outdoor gyms and community kitchen spaces.More diverse programming such as watersports, outdoor kitchens for picnicking, and concert space can be found at a new, large riverfront park named “Spillway Park” (see right) for its terraced ability to accommodate both fl ooding and crowded public events.
sulphur dell uli hines competition, 01/2014
COMMUNITY GATHERINGmiXed use Floodable platForms
ground Floor retail
130 neW street trees
FLOODABLE CHANNELlimestone Flats habitat CreationspillWays to prevent CsosdynamiC site identity
HEALTHY HIGHWAYpedestrian streets: ( Was 0mi.)
bike lane3.2miles (WAS 0.7MILES)
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PortfolioHARDING
908 500 9111kim
berlyrossharding@gmail
05/2
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K.R.
In death, we become substance; carbon, nitrogen: substance of the land. Th is cemetery returns that substance to the land. Disposition practices that re-integrate body and bone in to biogeochemical cycles amplify regrowth and regeneration following a devastating wildfi re in the Bastrop Lost Pines ecoregion of Texas. Markings are strong fi eld conditions that fi ll the more traditional role of “marker” in burial practice. Atmosphere is privileged over artifi ce as a means by which the dead are marked. Markings is about marking with place, and the character of a biophysical landscape amplifi ed by the dead. Th is of view death and disposition situates itself within a growing movement away from chemical embalming and towards the cemetery as ex-urban green infrastructure for the Texas Triangle megaregion.
2013 UTSOA Design Excellence Winner, with Yinrui Li
2014 Texas ASLA Merit Award, with Yinrui Li
bastroP, teXas
Markings
017marKings scatter spring, early morning
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Dashed area shows area required to bury current population of Austin using standard 9’ x 4’ plots of land.
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AUSTIN, TX
Cemeteries <20 aCres
019marKings regional conteXt map 04/2013
How do we bury 1,000,000 bodies? Grow a forest. This project is situated at the convergence of 3 contexts; a damaged ecosystem, a changing landscape of burial practices, and a growing need for green infrastructure.
BASTROP, TX
MARKINGS 775 ACRES
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OUTLINE OF REMNANT LOST PINES ECOREGION
1 mi. 10 mi.
020 marKings siteplan
FURROW
bastroP
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PedestrianPath network
uPland chaPel
hillside chaPel
hiking trail
nursery
bastroP state Park
suggestedeasement
creek lines
chaPel
crematorium
one way road system
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Pedestrian and maintenance Vehicle
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marKings siteplan
Pedestrianand cart
loblolly pine forestloblolly pine Pinus taedafarkleberry Vaccinium arboreumlittle bluestem Schizachyrium scoparium
uPsloPe flats
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>20%loblolly pine slope forestdrought tolerant, sparserpost oak Quercus stellata
s sloPe
floodPlain ocsandylands grassland +ephemoral pondscurly threeawn Aristida desmanthabluntsepal brazoria Brazoria truncatafoliose lichens Cladonia spp.bullnettle Cnidoscolus texanuswoolly-white Hymenopappus artemisiifoliuslittle bluestem Schizachyrium scopariumsand spikemoss Selaginella arenicola ssp.rid-delliipurple sandgrass Triplasis purpureapinweed Lechea spp.rosette grass Dichanthelium spp.
floodPlain ccloblolly pine post-oak savannahloblolly pine Pinus taedafarkleberry Vaccinium arboreumpost-oak Quercus stellata
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year>
iii iii iV
technical>
biological>
social>
comPosite>
PHASINGACTION, LOCATION AND DURATION OF MARKINGS
BIOLOCIGAL>
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 20 30YEAR>
TECHNICAL>
SOCIAL>
MAUSOLEUM PLOTS
MOUND BURIALDAM BURIAL
FURROW NATURAL BURIAL
SCATTER SEC.1A SEC. 1B
SCATTER SEC. 2
SCATTER ALL REMAINING UNBURNED SECTIONS
FOLDED HILL NATURAL BURIAL
ESTABLISH SECTION 1 OF REC TRAIL ESTABLISH REMAINING REC TRAIL EXTEND TRAIL NETWORK
CONSTRUCT ROAD LOOP 1 CONSTRUCT ROAD LOOP 2
FIRE BREAKS SEC. 1A FIRE BREAKS SEC. 1B F. BREAKS SEC. 2
NURSARY SECTION 1 ESTABLISH NURSARY SECTION 2
ENTRY, CREMATORIUM, CHAPEL 1 FOLDED HILL INFRA. CHAPEL 2
CHANNEL INFRA. RMV. RD.
COLLECT ON SITE MATERIALS
EROSION CONTROL IN WRZ REFORESTATION IN WRZ (THIN LINE) REFORESTATION IN WRZ (EXPANDED LINE)
CONTROLLED BURN OF THIN FOREST, ROTATING 3 YR CYCLE CONTROLLED BURN OF THICK FOREST, ROTATING 3 YR CYCLE
FELL SNAGS + SLASH SPREADING
CTR. FELLING ON SLOPES (LOW D) CTR. FELLING ON SLOPES (HIGH D) PLANT 3YR TREES IN SELECT LOCATION
SEED WITH NATIVE GRASSES CONTROLLED BURN OF GRASSLAND, ROTATING 3 YR. CYCLE
PLANT TREES ALONG INVASIVE CORRIDORS
GROW LOBLOLLY PINE SEEDLINGS TREES MATURE MANUAL THINNING
MANUAL THINNING IN UNBURNT AREA
CONTROLLED BURN OF WRM, ROTATING 3 YR CYCLE
CONTROLLED BURN OF THIN FOREST, ROTATING 3 YR CYCLE
CONTROLLED BURN OF THIN FOREST, ROTATING 3 YR CYCLE
023
Markings is a series of actions that generate changing place. Initial actions focus on regrowth, middle phases develop and sustain relationships between disposition practices and forest management. Later phases transition “regrowth” infrastructure to recreation opportunities or nurseries that support a growing need for urban trees.
Th e drawing you see above (detail at left), shows the action, duration, and location of each process that make this cemetery a palace.
marKings phasing 05/2013
PHASINGACTION, LOCATION AND DURATION OF MARKINGS
BIOLOCIGAL>
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 20 30YEAR>
TECHNICAL>
SOCIAL>
MAUSOLEUM PLOTS
MOUND BURIALDAM BURIAL
FURROW NATURAL BURIAL
SCATTER SEC.1A SEC. 1B
SCATTER SEC. 2
SCATTER ALL REMAINING UNBURNED SECTIONS
FOLDED HILL NATURAL BURIAL
ESTABLISH SECTION 1 OF REC TRAIL ESTABLISH REMAINING REC TRAIL EXTEND TRAIL NETWORK
CONSTRUCT ROAD LOOP 1 CONSTRUCT ROAD LOOP 2
FIRE BREAKS SEC. 1A FIRE BREAKS SEC. 1B F. BREAKS SEC. 2
NURSARY SECTION 1 ESTABLISH NURSARY SECTION 2
ENTRY, CREMATORIUM, CHAPEL 1 FOLDED HILL INFRA. CHAPEL 2
CHANNEL INFRA. RMV. RD.
COLLECT ON SITE MATERIALS
EROSION CONTROL IN WRZ REFORESTATION IN WRZ (THIN LINE) REFORESTATION IN WRZ (EXPANDED LINE)
CONTROLLED BURN OF THIN FOREST, ROTATING 3 YR CYCLE CONTROLLED BURN OF THICK FOREST, ROTATING 3 YR CYCLE
FELL SNAGS + SLASH SPREADING
CTR. FELLING ON SLOPES (LOW D) CTR. FELLING ON SLOPES (HIGH D) PLANT 3YR TREES IN SELECT LOCATION
SEED WITH NATIVE GRASSES CONTROLLED BURN OF GRASSLAND, ROTATING 3 YR. CYCLE
PLANT TREES ALONG INVASIVE CORRIDORS
GROW LOBLOLLY PINE SEEDLINGS TREES MATURE MANUAL THINNING
MANUAL THINNING IN UNBURNT AREA
CONTROLLED BURN OF WRM, ROTATING 3 YR CYCLE
CONTROLLED BURN OF THIN FOREST, ROTATING 3 YR CYCLE
CONTROLLED BURN OF THIN FOREST, ROTATING 3 YR CYCLE
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Th is disposition practice is a strategy for phase I slope stabilization, the experience of which is understood as part of settling and healing. Fire-disturbed soil is pressed, re-vegetated, and dammed using felled trees
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025marKings burial types 05/2013
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1 natiVe grasses miX and Perennial meadow, scythe mowed to 4”, 4 X year
2 2’ x 3” x 3” milled Pine suPPort stake
3 12’ x 18” d Pine snag, Placed along contour at 20’-40’ interVals
4 Pine casket or shrouded burial
5 teXas natiVe wildflowers, Planted by family (seen: lindheimer’s Paintbrush, fall aster)
6 habiturf, maintained to 2”
7 grassPaVe Porous PaVement system
8 1’ milled Pine snag as embedded edge
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77777777777777777777777777777777777777777777777777777777777777777777777777777777777777777777777777777777777777778
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Th is disposition practice pairs natural burial with the planting of a pine sapling. Th e milled wooden marker serves a tree stake and is later used to fertilize the tree. Walks through the fi eld over time are opportunities to observe change and remember the deceased.
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027marKings burial types 05/2013
1 2’ x 3” x 3” milled Pine suPPort stake
2 loblolly Pine saPling, 1.5” dbh, balled and burlaPPed
3 natiVe grass and wildflower miX
4 Pine casket or shrouded burial
5 grassPaVe Porous PaVement system
6 4” subsurface graVel
7 1’ milled Pine snag edging
8 habiturf natiVe grass miX
5
6 78
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Th is disposition practice pairs scattering of cremated remains with controlled burning in the Lost Pines. Access paths are fi re breaks. Grates as temporary path infrastructure allow access to a recently burned plot for 1 year following a burn, then the path is disassembled and moved. Each plot(of 64 plots) is burned once every 3 years.
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029marKings burial types 05/2013
1 6’ x 4’ x 1” stainless steel grate, doVetail Profile, bearing bars at 11/16” oc. cross bars at 4” oc.
2 6” ground stake, fastened to grate with g-cliP
3 teXas natiVe wildflower seeds miXed with ashes; indian Paintbrush, groundsel
4 Pine forest managed with controlled burn 1 X 3yr.
5 temPorary stacked log wall
4
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grate + ground stake
PortfolioHARDING
908 500 9111kim
berlyrossharding@gmail
05/2
014
K.R.
Set at the transition point between a newly constructed subterranean parking facility and an existing under utilized urban plaza, Air Station is a place to relax and recharge. Th e project is inspired by a history of greenhouses and capitalized on contemporary affi nities for wellness (and coff ee).Air Station is a garden that employs a vegetation and hydraulic palate meant to soothe, inspire, and provide reprieve from the harsh winters and polluted atmosphere of an industrial city.Revenue from the new parking facility, which was sited at an existing surface parking lot right downtown, will be used to maintain the garden.
youngstown, ohio
Air Station
0.105T Nitrogen Oxides
PLASTICS PACKAGING FILM AND SHEET
60.43T Carbon Monoxide9.75T Nitrogen Oxides 42.1T Sulfur Dioxide3.31T VOC0.01T Lead0.74T PM100.66T PM2.5
WASTEWATER TREATMENT FACILITY-9T Carbon Dioxide
BEECH ENCLOSUREnegative ion air
AIR STATION
60T Carbon Monoxide133T Nitrogen Oxides946T Sulfur Dioxide33T PM1021T PM2.53.31T VOC1T VOC
STEAM AND AIR CONDITIONING SUPPLY
362T Carbon Monoxide104T Nitrogen Oxides24T Sulfur Dioxide100T PM1095T PM2.511T VOCIRON AND STEEL MILL
0.737T Carbon Monoxide0.016T Nitrogen Oxides0.004T Sulfur Dioxide0.017T PM100.002T PM2.50.028T VOC
HOSPITAL
143,378T Carbon Dioxide23,0623kg Nitrogen Oxides19,617 MethaneCOMMUNITY TRANSPORTATION EMISSIONS
391,226T Carbon Dioxide2,713 kg Nitrogen Oxides
26,911kg MethaneCOMMUNITY RESIDENTIAL EMISSIONS
TRANSVERSE SECTIONOF AIR QUALITY data source: epa.gov, 2008 & 2009 averages
-12,728T Carbon DioxideIRONWOOD FOREST
YOUNGSTOWN, OH
0 100’ 500’
0.105T Nitrogen Oxides
PLASTICS PACKAGING FILM AND SHEET
60.43T Carbon Monoxide9.75T Nitrogen Oxides 42.1T Sulfur Dioxide3.31T VOC0.01T Lead0.74T PM100.66T PM2.5
WASTEWATER TREATMENT FACILITY-9T Carbon Dioxide
BEECH ENCLOSUREnegative ion air
AIR STATION
60T Carbon Monoxide133T Nitrogen Oxides946T Sulfur Dioxide33T PM1021T PM2.53.31T VOC1T VOC
STEAM AND AIR CONDITIONING SUPPLY
362T Carbon Monoxide104T Nitrogen Oxides24T Sulfur Dioxide100T PM1095T PM2.511T VOCIRON AND STEEL MILL
0.737T Carbon Monoxide0.016T Nitrogen Oxides0.004T Sulfur Dioxide0.017T PM100.002T PM2.50.028T VOC
HOSPITAL
143,378T Carbon Dioxide23,0623kg Nitrogen Oxides19,617 MethaneCOMMUNITY TRANSPORTATION EMISSIONS
391,226T Carbon Dioxide2,713 kg Nitrogen Oxides
26,911kg MethaneCOMMUNITY RESIDENTIAL EMISSIONS
TRANSVERSE SECTIONOF AIR QUALITY data source: epa.gov, 2008 & 2009 averages
-12,728T Carbon DioxideIRONWOOD FOREST
YOUNGSTOWN, OH
0 100’ 500’
msi dune pavilion photograph from the bridge 05/2014, 6pm 0310.105T Nitrogen Oxides
PLASTICS PACKAGING FILM AND SHEET
60.43T Carbon Monoxide9.75T Nitrogen Oxides 42.1T Sulfur Dioxide3.31T VOC0.01T Lead0.74T PM100.66T PM2.5
WASTEWATER TREATMENT FACILITY-9T Carbon Dioxide
BEECH ENCLOSUREnegative ion air
AIR STATION
60T Carbon Monoxide133T Nitrogen Oxides946T Sulfur Dioxide33T PM1021T PM2.53.31T VOC1T VOC
STEAM AND AIR CONDITIONING SUPPLY
362T Carbon Monoxide104T Nitrogen Oxides24T Sulfur Dioxide100T PM1095T PM2.511T VOCIRON AND STEEL MILL
0.737T Carbon Monoxide0.016T Nitrogen Oxides0.004T Sulfur Dioxide0.017T PM100.002T PM2.50.028T VOC
HOSPITAL
143,378T Carbon Dioxide23,0623kg Nitrogen Oxides19,617 MethaneCOMMUNITY TRANSPORTATION EMISSIONS
391,226T Carbon Dioxide2,713 kg Nitrogen Oxides
26,911kg MethaneCOMMUNITY RESIDENTIAL EMISSIONS
TRANSVERSE SECTIONOF AIR QUALITY data source: epa.gov, 2008 & 2009 averages
-12,728T Carbon DioxideIRONWOOD FOREST
YOUNGSTOWN, OH
0 100’ 500’
msi dune pavilion photograph from the bridge 05/2014, 6pm 031
0.105T Nitrogen Oxides
PLASTICS PACKAGING FILM AND SHEET
60.43T Carbon Monoxide9.75T Nitrogen Oxides 42.1T Sulfur Dioxide3.31T VOC0.01T Lead0.74T PM100.66T PM2.5
WASTEWATER TREATMENT FACILITY-9T Carbon Dioxide
BEECH ENCLOSUREnegative ion air
AIR STATION
60T Carbon Monoxide133T Nitrogen Oxides946T Sulfur Dioxide33T PM1021T PM2.53.31T VOC1T VOC
STEAM AND AIR CONDITIONING SUPPLY
362T Carbon Monoxide104T Nitrogen Oxides24T Sulfur Dioxide100T PM1095T PM2.511T VOCIRON AND STEEL MILL
0.737T Carbon Monoxide0.016T Nitrogen Oxides0.004T Sulfur Dioxide0.017T PM100.002T PM2.50.028T VOC
HOSPITAL
143,378T Carbon Dioxide23,0623kg Nitrogen Oxides19,617 MethaneCOMMUNITY TRANSPORTATION EMISSIONS
391,226T Carbon Dioxide2,713 kg Nitrogen Oxides
26,911kg MethaneCOMMUNITY RESIDENTIAL EMISSIONS
TRANSVERSE SECTIONOF AIR QUALITY data source: epa.gov, 2008 & 2009 averages
-12,728T Carbon DioxideIRONWOOD FOREST
YOUNGSTOWN, OH
0 100’ 500’
032 AIR STATION L: VIEW FROM FEDERAL PLAZA R: CHURNING POOLS 11/2013
#PLANTSANDCOFFEE
AIR STATIONFREE OXYGEN
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0 10’
AIR STATION
CHURNING WATER
PLANTING
BLACK FOLIAGE
0 10’ 50’
ASPHALT RUBBLE FROM PARKING LOT
WIC
K AVE
FEDERAL PLAZA
E. COMMERCE ST.
CAFE
GREENHOUSEGLASS WALLS
PILES OF ASPHALT SLABS FOR FERN
NOOK
SOIL MIXED WITH RUBBLE
5’ BELOW STREET GRADE
FERN NOOKS
GROUNDCOVER
>8’ PALM + SHRUB
STREET TREES
035air station plan and section of greenhouse 11/2013
0 10’
AIR STATION
CHURNING WATER
PLANTING
BLACK FOLIAGE
0 10’ 50’
ASPHALT RUBBLE FROM PARKING LOT
WIC
K AVE
FEDERAL PLAZA
E. COMMERCE ST.
CAFE
GREENHOUSEGLASS WALLS
PILES OF ASPHALT SLABS FOR FERN
NOOK
SOIL MIXED WITH RUBBLE
5’ BELOW STREET GRADE
FERN NOOKS
GROUNDCOVER
>8’ PALM + SHRUB
STREET TREES
036
ZONE 10 GREENHOUSE GARDEN
air station botanical studies 11/2013
cerulean warbler
scarlet tanenger
eastern chipmunk
grey tree frog
creepingstrawberry
pileated woodpecker
tree moss
american beech
wood thrush
18” steel header
christmas fern
036
ZONE 10 GREENHOUSE GARDEN
air station botanical studies 11/2013
Copernicia baileyma
peperomia
croton (mammy)
philodendron monstera
black fang begonia
polka dot begonia
philodendron bipinatafi dum
cerulean warbler
scarlet tanenger
eastern chipmunk
grey tree frog
creepingstrawberry
pileated woodpecker
tree moss
american beech
wood thrush
18” steel header
christmas fern
youngstoWn oh, old groWth beeCh Forest
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PortfolioHARDING
908 500 9111kim
berlyrossharding@gmail
05/2
014
K.R.
A 3 part design intervention along Austin’s Ladybird Lake. The project locates and develops a sailing program (float), a cooling station (mist), and a multi-generational playground (play).The design responds to multi-scaled analysis of the site and is consequently inspired by Austin’s underlying karst limestone. The karst “cutouts” capitalize on a similarity between the program’s call to gather and the pooling shapes that define Austin’s geomorphology. These cutouts become a consistent language for how Austin recreates with its waterline and continue the city’s relationship with it’s karst cultural darlings such as Barton Springs.
austin, teXas
Mist
039mist charcoal study 05/2012
Wirtz DamMax Starke Dam
Mansfield Dam
Tom Miller Dam
Austin, TX
Longhorn Dam
Buchanan Dam
Inks Dam
- 500 cfsblue sucker release
• 46 cfsbaseflow
-438,500/0irrigation diversion, interruptible
-192,4042011 evaporation
+222,3952012 inflows
-222,196 2011 release to Matagorda Bay,environmental flows require 171,120
-92,252/ 87,252municipal + industrial
-25,866LCRA power plants
+10,000Garwood Irrigation Division gravel pits*2017 additional 100,000 capacity commitment by LCRA
-20,000conveyance and emergency release
•33,440 environmental flows
-20,851 /67,294COA power plants
-193,334 /156,964City of Austin municipal
+46,853 /74,366COA municipal return flows
+/-/• inflows, outflows, and baseflows in annual acre feet, unless otherwise noted, outflows are LCRA firm water allocation
+90,000Lane City reservoir*2017 additional 100,000 capacity commitment by LCRA
LCRA
LCRA Hydrologic Data, LCRA, 05-2013 (http://hydromet.lcra.org/full.aspx)
Water Flowing into the Highland Lakes, LCRA, 04-2013
Highland Lakes Storage, Drought Update and Storage Projections, LCRA, 04-01-2013
“LCRA updating Water Management Plan for Highland Lakes Plan determines how water is allocated during times of drought” 02-2013, (http://lcra.org/water/supply/wmp.html)
LCRA Water Use Summary 2011, 03-2012
Water Management Practices and Drought Contingency Plans Draft, LCRA, 01-2012
Lake Buchanan and Travis Water Management Plan and Drought Contingency Plans, LCRA, 01-2012
How the Highland Lakes are Used, LCRA, 09-2010 (www.lcra.org)
Historical Lake Levels, Highland Lakes, LCRA (http://www.lcra.org/water/conditions/historical.html)
Highland Lakes System Profile, (http://hydromet.lcra.org/lakevolume/systemprofile.aspx)
Texas Water Development Board
Water for Texas 2012 State Water Plan, Texas Water Development Board, 2012
2011 Region K Water Plan, Lower Colorado Regional Water Planning Group, 07-2010
Texas Instream Flow Program Technical Overview, Texas Water Development Board, 05-2008 (http://www.twdb.state.tx.us)
Precipitation and Evaporation Computing Program, Texas Water Development Board (http://www.twdb.state.tx.us/)
other
CAPCOG Region Geospatial Data Sets: “riversandstreams” “tx_precip” “bathytopotx” “aquifers”
Colorado and Lavaca Rivers and Matagorda and Lavaca Bays Bason and Bay Expert Science Team, Environmental Flow Regime Recommendations Report, 03-2011 (http://www.texaswatermatters.org/Colorado_Lavaca.htm)
2060 future projections when available, (data from 2012Texas State Water Plan + Region K Plan)
Outflows from the chain of lakes in annual acre feet
Inflows to the chain of lakes in annual acre feet
data sources:
400
500
600
700
800
900
1000STORAGE RESERVOIR_LAKE BUCHANAN
4.92 miles at widest pointCurrent volume: 363,794 acre feet
volume when full: 875,566 acre-feet
PASS THROUGH LAKE_LAKE MARBLE FALLS
lake area: 545 acresdimensions: 5.75 miles long and 1,080 feet at widest point
volume when full: 7,186 acre-feet
PASS THROUGH LAKE_LAKE AUSTIN
lake area: 1,599 acres dimensions: 20.25 miles long, 1,300 feet at widest point
volume when full: 24,644 acre-feet
STORAGE RESERVOIR_LAKE TRAVIS
lake area: 19,297 acresvolume when full: 1,134,956 acre-feet
PASS THROUGH LAKE_INKS LAKE
dimensions: 4.2 miles long, 3,000 feet at widest pointvolume when full: 13,668 acre-feet
PASS THROUGH LAKE_LBJ
lake area: 6,256 acresvolume when full: 133,216 acre-feet
1991 HISTORIC HIGH
1952 (HISTORIC LOW)42% full
38% full
ELEVATION WHEN FULLTARGET OPERATING RANGE
CURRENT ELEVATION
1938 HISTORIC HIGH
1983 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
1952 HISTORIC HIGH
1970 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
1981 HISTORIC HIGH
1963 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
1952 HISTORIC HIGH
1983 (HISTORIC LOW AF), 1991 (HISTORIC HIGH TRAVIS)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
1983 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE
CURRENT ELEVATION
CHAIN OF LAKES INFLOWS + OUTFLOWS IN THE TEXAS HIGHLAND LAKES UTSOA_CRP387C_SP13_KIMBERLY R. HARDING
volume of 438,500 af. irrigation diversion
Wirtz DamMax Starke Dam
Mansfield Dam
Tom Miller Dam
Austin, TX
Longhorn Dam
Buchanan Dam
Inks Dam
- 500 cfsblue sucker release
• 46 cfsbaseflow
-438,500/0irrigation diversion, interruptible
-192,4042011 evaporation
+222,3952012 inflows
-222,196 2011 release to Matagorda Bay,environmental flows require 171,120
-92,252/ 87,252municipal + industrial
-25,866LCRA power plants
+10,000Garwood Irrigation Division gravel pits*2017 additional 100,000 capacity commitment by LCRA
-20,000conveyance and emergency release
•33,440 environmental flows
-20,851 /67,294COA power plants
-193,334 /156,964City of Austin municipal
+46,853 /74,366COA municipal return flows
+/-/• inflows, outflows, and baseflows in annual acre feet, unless otherwise noted, outflows are LCRA firm water allocation
+90,000Lane City reservoir*2017 additional 100,000 capacity commitment by LCRA
LCRA
LCRA Hydrologic Data, LCRA, 05-2013 (http://hydromet.lcra.org/full.aspx)
Water Flowing into the Highland Lakes, LCRA, 04-2013
Highland Lakes Storage, Drought Update and Storage Projections, LCRA, 04-01-2013
“LCRA updating Water Management Plan for Highland Lakes Plan determines how water is allocated during times of drought” 02-2013, (http://lcra.org/water/supply/wmp.html)
LCRA Water Use Summary 2011, 03-2012
Water Management Practices and Drought Contingency Plans Draft, LCRA, 01-2012
Lake Buchanan and Travis Water Management Plan and Drought Contingency Plans, LCRA, 01-2012
How the Highland Lakes are Used, LCRA, 09-2010 (www.lcra.org)
Historical Lake Levels, Highland Lakes, LCRA (http://www.lcra.org/water/conditions/historical.html)
Highland Lakes System Profile, (http://hydromet.lcra.org/lakevolume/systemprofile.aspx)
Texas Water Development Board
Water for Texas 2012 State Water Plan, Texas Water Development Board, 2012
2011 Region K Water Plan, Lower Colorado Regional Water Planning Group, 07-2010
Texas Instream Flow Program Technical Overview, Texas Water Development Board, 05-2008 (http://www.twdb.state.tx.us)
Precipitation and Evaporation Computing Program, Texas Water Development Board (http://www.twdb.state.tx.us/)
other
CAPCOG Region Geospatial Data Sets: “riversandstreams” “tx_precip” “bathytopotx” “aquifers”
Colorado and Lavaca Rivers and Matagorda and Lavaca Bays Bason and Bay Expert Science Team, Environmental Flow Regime Recommendations Report, 03-2011 (http://www.texaswatermatters.org/Colorado_Lavaca.htm)
2060 future projections when available, (data from 2012Texas State Water Plan + Region K Plan)
Outflows from the chain of lakes in annual acre feet
Inflows to the chain of lakes in annual acre feet
data sources:
400
500
600
700
800
900
1000STORAGE RESERVOIR_LAKE BUCHANAN
4.92 miles at widest pointCurrent volume: 363,794 acre feet
volume when full: 875,566 acre-feet
PASS THROUGH LAKE_LAKE MARBLE FALLS
lake area: 545 acresdimensions: 5.75 miles long and 1,080 feet at widest point
volume when full: 7,186 acre-feet
PASS THROUGH LAKE_LAKE AUSTIN
lake area: 1,599 acres dimensions: 20.25 miles long, 1,300 feet at widest point
volume when full: 24,644 acre-feet
STORAGE RESERVOIR_LAKE TRAVIS
lake area: 19,297 acresvolume when full: 1,134,956 acre-feet
PASS THROUGH LAKE_INKS LAKE
dimensions: 4.2 miles long, 3,000 feet at widest pointvolume when full: 13,668 acre-feet
PASS THROUGH LAKE_LBJ
lake area: 6,256 acresvolume when full: 133,216 acre-feet
1991 HISTORIC HIGH
1952 (HISTORIC LOW)42% full
38% full
ELEVATION WHEN FULLTARGET OPERATING RANGE
CURRENT ELEVATION
1938 HISTORIC HIGH
1983 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
1952 HISTORIC HIGH
1970 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
1981 HISTORIC HIGH
1963 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
1952 HISTORIC HIGH
1983 (HISTORIC LOW AF), 1991 (HISTORIC HIGH TRAVIS)
ELEVATION WHEN FULLTARGET OPERATING RANGE CURRENT ELEVATION
38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full38% full 1983 (HISTORIC LOW)
ELEVATION WHEN FULLTARGET OPERATING RANGE
CURRENT ELEVATION
CHAIN OF LAKES INFLOWS + OUTFLOWS IN THE TEXAS HIGHLAND LAKES UTSOA_CRP387C_SP13_KIMBERLY R. HARDING
volume of 438,500 af. irrigation diversion
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“ mist” Program sited under moPac
+1.5
+0
+1.5
+3
+4.5
+6
TOS +10.5
+7.5
+12
+12
+14
+16
+16
+18
+20
+22
+24
+18
+9
+6
+6
+8
+8
+10
+3
+1
+4.5
+6
BOW+6
TOW+8.5
BOS+14
BOS+17
TOS+16
TOS+19
TOS+21.5
BOS+19.5
BOS+22
TOS+24
FFE+24.25
+0
+12
+14
+26+28
regraded descentto waterline
043mist 05/2012 043mist 05/2012
additional Programs located under i-35“mist” Program sited under moPac
48” X 30” graPhite on Vellum
Platforms are shaded and cooled by moPac oVerPass
Veterans dr.
regraded descentto waterline
concrete columns
through Path to deeP eddy
moPac footbridge
Perforated concrete“karst” cutawayssuPPly mist
ladybirdlake
ladybirdlake
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Images above show detail study model. Hand-drilled perforated balsa wood was used to represent perforated concrete slabs, which would house misting infrastructure. Sketch showing spacing and location of mist nozzles seen at right.Bee’s wax and small pieces of limestone are used to represent karst gabion baskets, implemented to provide bank stabilization for the new construction, as well as water’s edge habitat for lake fauna.
045mist 05/2012
karst gabion baskets
Perforated concrete Platform
ladybirdlake
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PortfolioHARDING
908 500 9111kim
berlyrossharding@gmail
05/2
014
K.R.
Marfa is a small, artistic, railroad town located 5,000 feet above sea level in the Trans Pecos mountain ranges of West Texas.Th e design proposes “crack” as an operation by which a centrally located, fl at, rectangular site is cracked in order to defi ne spaces for resting, gliding, and framing. Recursive cracking is used to impart a self-similar sense of the larger whole, as the design is inspired by cracks in weathered desert rock, and movement along ecological and cultural corridors (or cracks) akin to the rail line that generated the town.
2011 UTSOA Design Excellence Nominee
Performance Groundsmarfa, teXas
PortfolioHARDING
908 500 9111kim
berlylylrossharding@gmail
05/2
014
K.R.
Marfa is a small, artistic, railroad town located 5,000 feet above sea level in the Trans Pecos mountain ranges of West Texas.Th e design proposes “crack” as an operation by which a centrally located, fl at, rectangular site is cracked in order to defi ne spaces for resting, gliding, and framing. Recursive cracking is used to impart a self-similar sense of the larger whole, as the design is inspired by cracks in weathered desert rock, and movement along ecological and cultural corridors (or cracks) akin to the rail line that generated the town.
2011 UTSOA Design Excellence Nominee
Performance Groundsmarfa, teXas
047performance grounds hand draWn perspective of movie screen 11/2011
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1_amtraK corridor: novel meadoW
2_three program areas + site elevation
23
3_ finer grain circulation: control Joints
4_ vegetated areas
2_three program areas + site elevation
23
3_ finer grain circulation: control Joints
4_ vegetated areas
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sec
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nested hierarchy of recursive cracKing + corresponding performative result:
study models1+2 (above)3+4 (left)
049performance gruonds 11/2011
Landscape representation using plastic bags as glazing.
+1 908.500.9111KIMBERLYROSSHARDING@GMAILhttp://issuu.com/k.harding/docs/2014
P:E:
W:
northern ocean plastic bag collage 10/2010