Meghan_Spigle_Portfolio1 by Meghan Spigle

Meghan Spigle Harvard Graduate School of Design 2011 Yale School of Architecture 2009 University of Virginia 2006

Veteran Re-Training Ground SOUTH WEYMOUTH NAVAL AIR STATION, MA

FLEXIBLE TRAINING FIELD With over 350,000 service members decommissioned from the military each year and 38,000 veterans returning each year at high risk for unemployment and homelessness, this population of civil servants has gone underserved. The South Weymouth Naval Air Station (SOWEY), a decommissioned military site, is located within close proximity to the Boston metropolitan region. As such, it is host to a large number of war veterans. Younger veterans, those 18 to 34 years of age, suffer higher rates of unemployment, suicide, and PTSD than veterans of the past. Several organizations, including Veterans Green Jobs, based in Colorado have formed to assist this population of veterans in re-training and re-integration into the American workforce. Meanwhile, the nation is seeking to relieve itself from oil dependency (a major cause of overseas conflict). As the single largest institutional consumer of energy in the US, the Department of Defense is also seeking to decrease its own energy consumption by installing wind turbines and solar panels on its own military lands. These incentives, coupled with the $600 million dollars allocated to Green Energy Job Training in the American Recovery and Reinvestment Act, purpose the SOWEY site as a veteran green job re-training field. This proposition offers a possible BRAC redevelopment prototype that could be deployed across the nation. In order to provide a variety of training options for veterans at SOWEY as well as to create closed cycles of CO2 and by-product production and consumption, multiple green energy systems will be utilized at SOWEY. Solar panels, wind turbines, switchgrass fields, poplar forests, and algae beds will be installed and maintained by the veteran population living and working on-site. A single roadway constructed of fill material from the existing tarmac will provide a platform for bundling various infrastructural components that will enable the flexible expansion and contraction of re-training fields. Flexibility is necessary to accommodate both unknown future energy demands and veteran populations. Using current estimates, it is predicted that 500 veterans would be re-trained each year on the SOWEY site, producing 190,000 gallons of ethanol and 92,000 MWH of electricity each year. Over time, the site could alleviate the current problem of veteran homelessness due to unemployment while at the same time, establishing a workforce of individuals trained in a growing job sector.

Meghan Spigle Fall 2009 Academic Work Team project with Chanwoo Kim and Ben Winters -diagrams and perspectives by Meghan Spigle Christian Werthmann Core Landscape Architecture Studio

SOWEY SITE CONSIDERATIONS

220,000 CUBIC METERS OF EXISTING TARMAC

CONTAMINATED SOILS AND GROUNDWATER

ECOLOGICAL NETWORKS

PROTECTED AREAS

30M BUFFER FROM STREAM

HABITAT: EASTERN BOX TURTLE UPLAND SANDPIPER

CRITICAL DIMENSIONS AND SPECIFICATIONS OF ENERGY COMPONENTS

EXPANSION OF LAND USE TYPES

RENEWABLE ELECTRICTY GENERATION

WIND TURBINES AND PHOTOVOLTAICS veterans trained in installation, maintainance, and repair

ELECTRICAL SUBSTATION veterans trained in electrical operations

BIOMASS ENERGY GENERATION AND CO2 RECYCLING

ENERGY SOLD TO THE GRID

ATMOSPHERIC CO2

POPLAR AND WILLOW FIELDS FOR CULTIVATING BIOMASS veterans trained in propigation, maintainance, and harvest

SWITCHGRASS FIELDS FOR CULTIVATING BIOMASS veterans trained in cultivation and harvest

CO2 uptaken by switchgrass blades and rhizomes

ETHANOL SALE veterans distribute ethanol to the public at on site gas station

d bundle poplar and willow

ETHANOL STORAGE

ETHANOL BIOREFINERY veterans trained in plant operations

BIOGASIFICATION PLANT veterans trained in plant operations

CO2 PIPEPED TO ALGAE increases algae biomass yield

ALGAE POND FOR CULTIVATING BIOMASS veterans trained in construction, maintainance, cultivation, and harvest

SITE PLAN AT 2020

PHASING OF FIXED ELEMENTS PHASE I

PHASE II

cut fill

PHASE III

biocorridor II cut fill

daylight French stream biocorridor I

fill cut biocorridor III

surface wetland (bench)

wetland treatment swales

SITE PROGRAM

LANDUSE TYPES AND WIDTHS

30M

60M

120M

SECTION OF FILL ROAD AND BIKE PATH

15M 10M

UTILITY ROAD

BIKE PATH AND PUBLIC ACCESS

BIOCORRIDOR I

POPLAR PLANTATION

WIND TURBINES AND SWITCHGRASS FIELDS

Sustainable Urban Housing EAST DOWNTOWN HOUSTON, TX

GREEN URBANISM The site, EaDo (East of Downtown), is cut off from the downtown area by an array of infrastructures. Circumscribed by highways to the south and west and railways to the north and east, EaDo is isolated from its surroundings but yet, is located minutes away from downtown. New connections are to be made both within the urban fabric of EaDo as well as to its surroundings. At the urban scale, bike trails and light rail can connect this isolated area both to downtown and to the University of Houston while fostering alternative means of transportation. At a smaller scale, connections between blocks and new green spaces create a sense of place and identity for residents. Urban landscape infrastructures are utilized both functionally and programmatically to create social and ecosystemic networks that manage water absorption, aquifer recharge, create recreational spaces, and promote sustainable transportation. Smaller scale landscape interventions infiltrate the existing housing fabric, connecting new housing to old housing through systems of parks, gardens, and recreational pathways. Courtyards at the center of new housing blocks create new community spaces for live/ work and commercial activity to occur, thus stimulating activity and cultivating an identity for EaDo as a live/work district. As a part of this new identity, materiality is implemented metaphorically, reminding residents of the necessary destruction that is required for housing construction. A thin, operable, wood sunscreen covers the southern facade of the housing blocks to shade the units from excessive sunlight and radiant heat. Wood used to construct the screens is harvested from pine plantations along the periphery of the district, visible to the inhabitants from the park and transit networks.

Meghan Spigle Spring 2009 Academic Work Keith Krumwiede and Kate John-Alder Architecture and Landscape Sustainability Studio

NEW DISTRICT PLAN

LANDSCAPE SYSTEMS AT THE DISTRICT SCALE

North

DESIGN OF THE HOUSING BLOCK Units/Block: 44 Average SF/Unit: 1,990

HOUSING COMPONENTS

Retail and Live/Work Spaces

58 Units/Acre

Pathways Through the Block

75% Open Space/Unit

Private Outdoor Space

studio

ACTIVITY WITHIN THE CENTRAL COURTYARD

studio

live/work

studio live/work

retail

studio

live/work

studio

retail

live/work

retail

GROUND FLOOR PLAN OF HOUSING BLOCK North

SECTION A

INTEGRATION OF NEW AND EXISTING HOUSING WITH GREEN NETWORKS HOUSING CONNECTION TO THE DISTRICT NETWORK

BIKE PATH AND DISTRICT PARK

MATERIAL AND METAPHOR: FROM TREE TO SHADE SCREEN

HARVEST OF THE PINE PLANTATION FOR NEW CONSTRUCTION

IT Cattle Campus NEW DELHI, INDIA

LAYERING LANDSCAPES The Delhi Cattle Campus and Gosadan incorporate three principles from Indian architecture and culture: The preservation of water, the incorporation of outdoor spaces into indoor spaces, and the reliance on the sacred Indian cow for sustenance. Situated in a strip of land between the national highway that connects Delhi to Faridabad and a freight railroad, the campus reaches beyond its boundaries to create a new public landscape. The public landscape, on the upper level of the campus, provides space for ad hoc retail vendors to set up shop along a path planted with scented vegetation that connects new, high-end retail development to informal markets and residential communities on the other side of the railroad tracks. This upper landscape, shielding the lower landscape and IT area from the harsh Indian sun and deadly summer winds, contains the Gosadan or cattle preserve, where cattle are brought away from the intensely trafficked Dehli streets, and cared for beneath a shaded grove of trees. Dung from these cattle is collected, processed into methane by anaerobic biodigesters, converted to electricity, and used to power the IT center on the lower landscape. Along with the IT center, on the lower level, are the Grasslands. The Grasslands, open to the IT staff for recreation, are used to produce fodder for cattle on the upper landscape. Here native Dehli grasses and fruit bearing trees are grown, fertilized by byproducts of biodigestion and nourished by collected rainwater. Thus, a symbiotic agricultural process takes shape, wherein energy and resources are continuously reallocated to zones within the landscape.

Meghan Spigle Fall 2008 Academic Work Team project with Rebecca Beyer and Dexter Ciprian -landscape plan, section, and model by Meghan Spigle Diana Balmori and Joel Sanders Landscape and Architecture Interface Studio

CONTEXT AND RAILROAD CROSSING

FOUR PROGRAMMATIC ZONES The Delhi IT Cattle Campus is comprised of four zones that serve ecological and social purposes. The Gosadan and Retail zones are located on the upper level of the campus, while the Grassland and IT zones are on the lower level.

GOSADAN: The Gosadan zone is a preserve for Delhi cattle that are brought to the campus and out of the city streets where they cause traffic congestion. The Gosadan landscape is covered in shade trees, in accordance with the agricultural practice of silvipasture.

RETAIL: The Retail zone is open to public access and forms a public path across the upper level of the site. Retail space is available in indoor formal retail space as well as outdoor informal spaces.

GRASSLAND: The Grassland zone, on the lower level of the campus, is used for agricultural cultivation of pasture grasses that are used to feed the cattle of the Gosadan.

INFORMATION TECHNOLOGY: The IT zone, on the lower level of the campus, is beneath the Gosadan and Retail zones and is the space where the IT staff work.

LANDSCAPE PLAN

GROUND FLOOR PLAN SHOWING IT AREAS A

THE IT ZONE DURING MONSOON

SECTION B SHOWING THE OUTDOOR PUBLIC THEATER

THE RETAIL AND GOSADAN ZONES

Villa dâ&#x20AC;&#x2122;Este TIVOLI, ITALY

NATURE AND LINE The Villa dâ&#x20AC;&#x2122;Este, situated on a dramatic hillside in Tivoli, is organized by a major axis that runs perpendicular to the hill (north to south). Cross axes bisect this major axis at various points along the hillside, connecting the town of Tivoli and the headwaters of the Anio River to the east, to the views of the Villa Adriana to the west. These cross axes create terraces and paths that extend the spatial experience of the garden along the compressed site of the hill. Each cross axis presents a unique experience through the integral design of water features, architectural and vegetative elements, and views beyond the extent of the villa. A series of seven cross-axial perspective views, drawn as one progresses along the north/south slope of the hill, illustrate the unique and distinct design of each terrace; from the grotto and trees at the base of the hillside to the fountains within the subterranean hallway of the villa. The series of drawings, created in pen, explore variation in line type and quality in order to represent vegetation and water.

Meghan Spigle Summer 2008 Academic Work Hand Drawings Rome Seminar

THE WATER ORGAN

THE TIVOLI TOWN GATE

THE GARDEN PORTICO

THE HERCULES GROTTO

Gowanus Canal BROOKLYN, NEW YORK

STITCHING AND BRIDGING The Gowanus Canal, known for its toxicity and foul smell, was historically used for freight shipping while the land surrounding the canal was used for manufacture and storage of gas. Currently, the city’s Combined Sewage Overflow system pours raw sewage into the canal when heavy rainfall occurs. Yet despite its toxicity and location within the 100-year flood plane, the area around the canal is now under extensive real estate pressure as residential areas begin to encroach. Currently zoned for light industry, the area around the canal will soon witness change. An urban analysis of the site reveals latent variables that can be used to successfully stitch together the two residential areas on either side of the canal: vacant and low-use lots, existing commercial avenues, and a network of pedestrian paths and greenspaces. Just at the bend in the canal, is an area of publicly owned land, that can be used to initiate an urban intervention that would set a precedent for housing development and the remediation of toxic soil and land. This initial intervention at Public Place, would be the first of a series of ‘stepping stones’ that cross over the canal and thus bridge one side to the other. Operating at the scale of the detail, the Bioswale Bridge Barge, is a small scale intervention that is designed to decrease toxic Combined Sewage Overflow effluent from entering the Gowanus Canal while also serving the larger urban goal of stitching the two sides of the canal together.

Meghan Spigle Spring 2008 Academic Work Team project with Reuben Herzl and Philip Drew -site strategy, section, and barge detail by Meghan Spigle Andrea Kahn Urban Design Studio

BIOSWALE BARGE FLOATING IN THE GOWANUS CANAL

URBAN ANALYSIS

PRESSURE: Residential pressure from Carroll Gardens and Park Slope encroach upon the Gowanus Canal which has increased speculation in real estate prices

FLOOD LINE: The area currently under speculation is also within the 100-Year flood line

TOXICITY: A history of manufacture and storage of gas has left toxic elements that have leached into the soils. Additionally, raw sewage coming from the Combined Sewage Overflow system toxifies the canal waters

PEDESTRIAN PATHS: Pedestrian paths and greenspaces will create a network to guide people into the proposed site

COMMERCIAL AVENUE: A new commercial avenue that brings in existing commercial activity will activate the site

URBAN STRATEGY

STITCHING LOTS: Low-use and vacant lots are targeted for development in order to bridge across the canal and stitch together the two neighborhoods

PLAN OF BRIDGING INTERVENTION

SITE STRATEGY

CAPPING CITY BLOCKS: A strategy to safely contain toxic soils and create buildable ground

RESIDENTIAL TOWERS: Positioned on capped blocks, these allow residential pressures to infiltrate

COMMERCIAL AREAS: Feed the pedestrian paths with activity and bring in existing commercial business

GREENSPACES: These service the residential towers and commercial areas

SECTION OF INITIAL INTERVENTION AT PUBLIC PLACE

Displayed Soil and Water Remediation

Public Walkway Revitalized Vegetation Soil Cap

Toxic Soil

Housing

Scented Flowers

Office

Outdoor Retail

Retail

Public Walkway

BIOSWALE BRIDGE BARGE The bioswale barge and dock areas are planted with Reed Canarygrass and Cattails that clean the 300 million gallons of raw sewage that flow into the Gowanus Canal each year through the Combined Sewage Overflow system. 250,000 square feet of bioswales are needed to treat the sewage that enters the Gowanus. The barges and docks are located at streets that currently dead end at the canal. Thus, the bridge barges connect residential neighborhoods on either side of the canal, stitching them together and creating public green space.

THE BARGE AND DOCK SECTION OF THE BIOSWALE BRIDGE BARGE

Toxic Water

Toxic Soil

Slagscape New Haven, CT

CONSTRUCTIVE WASTE Union Station is a nexus for collection and distribution of people in and out of the city of New Haven. As people are processed through the station, they leave waste behind. Union Station alone handles over 4,500 cubic feet of rubbish each week. Three times a week, this waste is shipped off-site via petroleum fueled vehicles to an incinerator in Bridgeport, CT, some 20 miles away. The incineration method of waste management in the county of New Haven and the use of transport are unnecessary and are contributing factors to its low air quality rating, placing it in the top 10% of counties with the worst/dirtiest air quality. Plasma gasification is a relatively new method of waste management that densely consolidates waste matter into byproducts of vitreous slag and energy filled gas. If this process were to be used to treat the waste from the city of New Haven on the site of Union Station, a new system could emerge; whereupon waste from the city could be used to generate a new landscape that provides new ecologies for humans and wildlife. The Slagscape uses city waste as a programmatic fuel for reinventing the site adjacent to Union Station. Vitreous slag byproducts are used as building blocks to make new connections on site and to remediate the site by creating new natural and constructed environments. The Slagscape self-multiplies in order to continuously grow eastward, toward New Haven Harbor, overtaking existing hazardous waste producing meat packing factories. This new swath of natural territory would then link the shoreline of the harbor to the nexus of Union Station via a new and healthy ecological environment. The new ecology would provide a home and breeding ground to summer dwelling grassland songbirds native to the Northeastern US, whose habitats are now dwindling due to urban development and farmland reforestation. Visitors and city residents could then participate in this dynamic landscape by observing bird life in the summer and occupying heat pockets produced by the plasma gasification process during wintertime.

Meghan Spigle Fall 2006 Academic Work Ben Pell Studio

TEXTURE AND PATTERN OF THE SLAGSCAPE

The project is motivated by an attempt to create new habitat for native grassland birds in New Haven. This map shows the relative size and location of existing habitat areas, also called Important Bird Sites.

SECTION A

PROGRAMMATIC PATHS

SLAGSCAPE PLAN

Union Station after 20 years

Pigeons and Gulls are becoming more prevalent as urbanization occurs and the natural landscape is destroyed. These birds scavenge food waste produced by people and industry.

Union Station after 40 years

A Union Station after 60 years

Meadowlarks, Sparrows, and Bobolinks are grassland birds native to the Northeastern United States. They are loosing their natural habitat due to urbanization and reforestation of farmland.

SLAG ASSEMBLY One Slag component equals two weeks of processed waste produced by the entire city of New Haven and can be assembled according to programmatic conditions.

BIRDWATCHING AREA